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Id Subject Object Predicate Lexical cue
T26 0-7 NN denotes Protein
T1674 0-3735 NN denotes Protein kinase D enzymes are dispensable for proliferation, survival and antigen receptor-regulated NFκB activity in vertebrate B-cells Abstract To investigate the importance of protein kinase D (PKD) enzymes we generated a PKD-null DT40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell
T1868 0-4128 NN denotes Protein kinase D enzymes are dispensable for proliferation, survival and antigen receptor-regulated NFκB activity in vertebrate B-cells Abstract To investigate the importance of protein kinase D (PKD) enzymes we generated a PKD-null DT40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell culture, transient transfections and cell stimulation The generation, culture and activation of PKD1−/−, PKD3−/− and PKD1/3−/− knockout DT40 B cell lines have been described previously [1]. Cells were lysed and protein extracts were analysed in Western blotting experiments as previously described [1]. Chloramphenicol acetyl transferase assays have been described previously [29]. 2.2 sIgM
T2288 0-4551 NN denotes Protein kinase D enzymes are dispensable for proliferation, survival and antigen receptor-regulated NFκB activity in vertebrate B-cells Abstract To investigate the importance of protein kinase D (PKD) enzymes we generated a PKD-null DT40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell culture, transient transfections and cell stimulation The generation, culture and activation of PKD1−/−, PKD3−/− and PKD1/3−/− knockout DT40 B cell lines have been described previously [1]. Cells were lysed and protein extracts were analysed in Western blotting experiments as previously described [1]. Chloramphenicol acetyl transferase assays have been described previously [29]. 2.2 sIgM staining DT40 B cells (2 × 106 cells per point) were resuspended in 200 μl buffer (RPMI 1640 media, 1% foetal calf serum) containing anti-chicken M1 monoclonal antibody conjugated to FITC for 20 min on ice. The cells were washed twice and fluorescent intensity was analysed by flow cytometry. All results shown are representative of at two to four independent experiments unless otherwise indicated. 3 Results 3.1 Loss
T3836 0-6831 JJ denotes Protein kinase D enzymes are dispensable for proliferation, survival and antigen receptor-regulated NFκB activity in vertebrate B-cells Abstract To investigate the importance of protein kinase D (PKD) enzymes we generated a PKD-null DT40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell culture, transient transfections and cell stimulation The generation, culture and activation of PKD1−/−, PKD3−/− and PKD1/3−/− knockout DT40 B cell lines have been described previously [1]. Cells were lysed and protein extracts were analysed in Western blotting experiments as previously described [1]. Chloramphenicol acetyl transferase assays have been described previously [29]. 2.2 sIgM staining DT40 B cells (2 × 106 cells per point) were resuspended in 200 μl buffer (RPMI 1640 media, 1% foetal calf serum) containing anti-chicken M1 monoclonal antibody conjugated to FITC for 20 min on ice. The cells were washed twice and fluorescent intensity was analysed by flow cytometry. All results shown are representative of at two to four independent experiments unless otherwise indicated. 3 Results 3.1 Loss of HSP27 phosphorylation in DT40 B cells lacking expression of PKD family kinases DT40 B cells express two PKD isoforms, PKD1 and PKD3, and as previously described we have recently generated DT40 B cell lines that lack expression of either PKD1 or PKD3 or both enzymes [1]. In generating the double knockout cell lines we targeted the PKD1 loci in a PKD3−/− cell line that expressed a Flag-PKD3 transgene under the control of a doxycycline-inducible promoter. Hence, in the presence of doxycycline, Flag-PKD3 expression in PKD1/3 double knockout cells is comparable to endogenous PKD3 present in wild-type DT40 cells and removal of doxycycline from the culture media for 5 days results in a completely null PKD phenotype (Fig. 1A). Previously, we have demonstrated that phosphorylation and nuclear exclusion of class II histone deacetylases (HDACs) during BCR engagement is defective in PKD1/3−/− B cells and can restored upon re-expression of a single PKD isoform [1]. The small heat shock protein HSP27 has recently been proposed as a PKD1 substrate [24] and we accordingly assessed whether PKD-null DT40 cells have defective phosphorylation of HSP27 on serine 82, the proposed PKD1 substrate sequence. We initially investigated the regulation of HSP27 phosphorylation in single knockout DT40 B cells lacking either PKD1 or PKD3. As shown in Fig. 1B, activation of the BCR or treatment with the DAG-mimetic PdBu increased the levels of HSP27 phosphorylation at S82 in wild-type DT40 B cells. BCR and phorbol ester signals were also able to increase HSP27 phosphorylation in PKD1 or PKD3 single knockout DT40 B cells (Fig. 1B). However, BCR- and phorbol ester-induced phosphorylation of HSP27 on S82 was abolished in B cells that lacked both PKD1 and PKD3 (Fig. 1C). Significantly, doxycycline-induced expression of the Flag-PKD3 transgene in the double knockout cells was sufficient to restore normal regulation of HSP27 phosphorylation (Fig. 1C). In contrast, expression of a kinase-deficient PKD3 mutant protein in the double knockout cells was not able to restore BCR- or phorbol ester-induced HSP27 phosphorylation (Fig. 1D). Hence, PKD3 as well as PKD1 can regulate HSP27 phosphorylation and in DT40 B cells they are functionally redundant as HSP27 kinases. 3.2 Cellular
T5031 0-8949 NN denotes Protein kinase D enzymes are dispensable for proliferation, survival and antigen receptor-regulated NFκB activity in vertebrate B-cells Abstract To investigate the importance of protein kinase D (PKD) enzymes we generated a PKD-null DT40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell culture, transient transfections and cell stimulation The generation, culture and activation of PKD1−/−, PKD3−/− and PKD1/3−/− knockout DT40 B cell lines have been described previously [1]. Cells were lysed and protein extracts were analysed in Western blotting experiments as previously described [1]. Chloramphenicol acetyl transferase assays have been described previously [29]. 2.2 sIgM staining DT40 B cells (2 × 106 cells per point) were resuspended in 200 μl buffer (RPMI 1640 media, 1% foetal calf serum) containing anti-chicken M1 monoclonal antibody conjugated to FITC for 20 min on ice. The cells were washed twice and fluorescent intensity was analysed by flow cytometry. All results shown are representative of at two to four independent experiments unless otherwise indicated. 3 Results 3.1 Loss of HSP27 phosphorylation in DT40 B cells lacking expression of PKD family kinases DT40 B cells express two PKD isoforms, PKD1 and PKD3, and as previously described we have recently generated DT40 B cell lines that lack expression of either PKD1 or PKD3 or both enzymes [1]. In generating the double knockout cell lines we targeted the PKD1 loci in a PKD3−/− cell line that expressed a Flag-PKD3 transgene under the control of a doxycycline-inducible promoter. Hence, in the presence of doxycycline, Flag-PKD3 expression in PKD1/3 double knockout cells is comparable to endogenous PKD3 present in wild-type DT40 cells and removal of doxycycline from the culture media for 5 days results in a completely null PKD phenotype (Fig. 1A). Previously, we have demonstrated that phosphorylation and nuclear exclusion of class II histone deacetylases (HDACs) during BCR engagement is defective in PKD1/3−/− B cells and can restored upon re-expression of a single PKD isoform [1]. The small heat shock protein HSP27 has recently been proposed as a PKD1 substrate [24] and we accordingly assessed whether PKD-null DT40 cells have defective phosphorylation of HSP27 on serine 82, the proposed PKD1 substrate sequence. We initially investigated the regulation of HSP27 phosphorylation in single knockout DT40 B cells lacking either PKD1 or PKD3. As shown in Fig. 1B, activation of the BCR or treatment with the DAG-mimetic PdBu increased the levels of HSP27 phosphorylation at S82 in wild-type DT40 B cells. BCR and phorbol ester signals were also able to increase HSP27 phosphorylation in PKD1 or PKD3 single knockout DT40 B cells (Fig. 1B). However, BCR- and phorbol ester-induced phosphorylation of HSP27 on S82 was abolished in B cells that lacked both PKD1 and PKD3 (Fig. 1C). Significantly, doxycycline-induced expression of the Flag-PKD3 transgene in the double knockout cells was sufficient to restore normal regulation of HSP27 phosphorylation (Fig. 1C). In contrast, expression of a kinase-deficient PKD3 mutant protein in the double knockout cells was not able to restore BCR- or phorbol ester-induced HSP27 phosphorylation (Fig. 1D). Hence, PKD3 as well as PKD1 can regulate HSP27 phosphorylation and in DT40 B cells they are functionally redundant as HSP27 kinases. 3.2 Cellular proliferation and survival in DT40 B cells lacking expression of PKD family kinases PKD enzymes have previously been linked to the regulation of cell proliferation and survival (reviewed in [20]). To investigate the effect that loss of PKD kinases had on B cell survival and/or proliferation we cultured wild-type and PKD-null cells in the presence (PKD1/3−/−: Flag-PKD3+ve) or absence (PKD1/3−/−) of doxycycline and monitored exponential growth. As shown in Fig. 2A, PKD1/3−/− cells proliferated exponentially and re-expression of Flag-PKD3 in these cells had no impact on the rate of proliferation. Furthermore, the viability of PKD1/3−/− B cells during routine culturing was not significantly different from that of wild-type B cells (data not shown). It was noted that the population doubling time of PKD1/3−/− cells was slightly slower than that of wild type DT40 cells (12.7 ± 2.8 h versus 10.2 ± 0.4 h) but the failure of PKD3 re-expression to modify the proliferation rate of PKD1/3−/− cells suggests that these small differences were most likely the result of clonal variation and were not caused specifically by loss of PKD enzymes. Thus, PKD family enzymes are not essential for regulating basal survival and proliferation of DT40 B cells. PKD enzymes, specifically PKD1 and PKD2, have previously been linked to a protective role against oxidative stress-induced injury in 3T3 fibroblast, HeLa and epithelial cell lines [17,30–32]. We therefore addressed the role of PKD family kinases in regulating B cell survival in response to oxidative stress and other stress stimuli. As shown in Fig. 2B, loss of PKD1/3 expression had no significant impact on the survival of DT40 B cells in response to mitochondrial stress stimuli (H2O2 or serum deprivation); DNA damaging agents (etoposide or doxorubicin); ER pathway stress due to calcium overload (thapsigargin) or following prolonged treatment with phorbol esters or Trichostatin A, an inhibitor of class I/II HDACs. Thus, PKD kinases do not play an essential role in regulating B cell survival in response to a range of different stress stimuli. 3.3 Antigen
T27 8-14 NN denotes kinase
T28 15-16 NN denotes D
T29 17-24 NN denotes enzymes
T30 25-28 VB denotes are
T31 29-40 JJ denotes dispensable
T32 41-44 IN denotes for
T33 45-58 NN denotes proliferation
T34 58-59 -COMMA- denotes ,
T35 60-68 NN denotes survival
T36 69-72 CC denotes and
T37 73-80 NN denotes antigen
T38 81-99 JJ denotes receptor-regulated
T39 100-104 NN denotes NFκB
T40 105-113 NN denotes activity
T41 114-116 IN denotes in
T42 117-127 NN denotes vertebrate
T43 128-135 NN denotes B-cells
T44 147-149 TO denotes To
T45 150-161 VB denotes investigate
T46 162-165 DT denotes the
T47 166-176 NN denotes importance
T48 177-179 IN denotes of
T49 180-187 NN denotes protein
T50 188-194 NN denotes kinase
T51 195-196 NN denotes D
T52 197-198 -LRB- denotes (
T53 198-201 NN denotes PKD
T54 201-202 -RRB- denotes )
T55 203-210 NN denotes enzymes
T56 211-213 PRP denotes we
T57 214-223 VB denotes generated
T58 224-225 DT denotes a
T59 226-234 JJ denotes PKD-null
T60 235-239 NN denotes DT40
T7043 237-13173 NN denotes 40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell culture, transient transfections and cell stimulation The generation, culture and activation of PKD1−/−, PKD3−/− and PKD1/3−/− knockout DT40 B cell lines have been described previously [1]. Cells were lysed and protein extracts were analysed in Western blotting experiments as previously described [1]. Chloramphenicol acetyl transferase assays have been described previously [29]. 2.2 sIgM staining DT40 B cells (2 × 106 cells per point) were resuspended in 200 μl buffer (RPMI 1640 media, 1% foetal calf serum) containing anti-chicken M1 monoclonal antibody conjugated to FITC for 20 min on ice. The cells were washed twice and fluorescent intensity was analysed by flow cytometry. All results shown are representative of at two to four independent experiments unless otherwise indicated. 3 Results 3.1 Loss of HSP27 phosphorylation in DT40 B cells lacking expression of PKD family kinases DT40 B cells express two PKD isoforms, PKD1 and PKD3, and as previously described we have recently generated DT40 B cell lines that lack expression of either PKD1 or PKD3 or both enzymes [1]. In generating the double knockout cell lines we targeted the PKD1 loci in a PKD3−/− cell line that expressed a Flag-PKD3 transgene under the control of a doxycycline-inducible promoter. Hence, in the presence of doxycycline, Flag-PKD3 expression in PKD1/3 double knockout cells is comparable to endogenous PKD3 present in wild-type DT40 cells and removal of doxycycline from the culture media for 5 days results in a completely null PKD phenotype (Fig. 1A). Previously, we have demonstrated that phosphorylation and nuclear exclusion of class II histone deacetylases (HDACs) during BCR engagement is defective in PKD1/3−/− B cells and can restored upon re-expression of a single PKD isoform [1]. The small heat shock protein HSP27 has recently been proposed as a PKD1 substrate [24] and we accordingly assessed whether PKD-null DT40 cells have defective phosphorylation of HSP27 on serine 82, the proposed PKD1 substrate sequence. We initially investigated the regulation of HSP27 phosphorylation in single knockout DT40 B cells lacking either PKD1 or PKD3. As shown in Fig. 1B, activation of the BCR or treatment with the DAG-mimetic PdBu increased the levels of HSP27 phosphorylation at S82 in wild-type DT40 B cells. BCR and phorbol ester signals were also able to increase HSP27 phosphorylation in PKD1 or PKD3 single knockout DT40 B cells (Fig. 1B). However, BCR- and phorbol ester-induced phosphorylation of HSP27 on S82 was abolished in B cells that lacked both PKD1 and PKD3 (Fig. 1C). Significantly, doxycycline-induced expression of the Flag-PKD3 transgene in the double knockout cells was sufficient to restore normal regulation of HSP27 phosphorylation (Fig. 1C). In contrast, expression of a kinase-deficient PKD3 mutant protein in the double knockout cells was not able to restore BCR- or phorbol ester-induced HSP27 phosphorylation (Fig. 1D). Hence, PKD3 as well as PKD1 can regulate HSP27 phosphorylation and in DT40 B cells they are functionally redundant as HSP27 kinases. 3.2 Cellular proliferation and survival in DT40 B cells lacking expression of PKD family kinases PKD enzymes have previously been linked to the regulation of cell proliferation and survival (reviewed in [20]). To investigate the effect that loss of PKD kinases had on B cell survival and/or proliferation we cultured wild-type and PKD-null cells in the presence (PKD1/3−/−: Flag-PKD3+ve) or absence (PKD1/3−/−) of doxycycline and monitored exponential growth. As shown in Fig. 2A, PKD1/3−/− cells proliferated exponentially and re-expression of Flag-PKD3 in these cells had no impact on the rate of proliferation. Furthermore, the viability of PKD1/3−/− B cells during routine culturing was not significantly different from that of wild-type B cells (data not shown). It was noted that the population doubling time of PKD1/3−/− cells was slightly slower than that of wild type DT40 cells (12.7 ± 2.8 h versus 10.2 ± 0.4 h) but the failure of PKD3 re-expression to modify the proliferation rate of PKD1/3−/− cells suggests that these small differences were most likely the result of clonal variation and were not caused specifically by loss of PKD enzymes. Thus, PKD family enzymes are not essential for regulating basal survival and proliferation of DT40 B cells. PKD enzymes, specifically PKD1 and PKD2, have previously been linked to a protective role against oxidative stress-induced injury in 3T3 fibroblast, HeLa and epithelial cell lines [17,30–32]. We therefore addressed the role of PKD family kinases in regulating B cell survival in response to oxidative stress and other stress stimuli. As shown in Fig. 2B, loss of PKD1/3 expression had no significant impact on the survival of DT40 B cells in response to mitochondrial stress stimuli (H2O2 or serum deprivation); DNA damaging agents (etoposide or doxorubicin); ER pathway stress due to calcium overload (thapsigargin) or following prolonged treatment with phorbol esters or Trichostatin A, an inhibitor of class I/II HDACs. Thus, PKD kinases do not play an essential role in regulating B cell survival in response to a range of different stress stimuli. 3.3 Antigen receptor regulated signalling pathways in PKD-null DT40 B cells To further explore the contribution of PKD kinases to DT40 B cell biology we investigated whether specific BCR-regulated signalling events were defective in the PKD-null B cells. Initial experiments revealed that surface expression of the BCR was reduced in PKD1/3−/− (and in PKD1/3−/−:Flag-PKD3+ve) cells compared to wild-type DT40 B cells (Fig. 3A and data not shown). Nevertheless, BCR-crosslinking of PKD1/3−/− cells was sufficient to induce the activation of a number of signalling cascades, similar to that observed in wild-type cells (Fig. 3B). Hence, BCR-induced activation of the Akt, mTOR/p70 S6 kinase (as shown by S6 ribosomal protein phosphorylation) and MAPK signalling pathways was clearly detectable in PKD1/3-null B cells (Fig. 3B). Furthermore, enhanced tyrosine phosphorylation of multiple cellular proteins as well as an increase in intracellular calcium levels was also observed following BCR stimulation of PKD1/3-null B cells (data not shown). We did observe that the strength of BCR (but not phorbol ester)-induced regulation of the Erk1-RSK1 signalling pathway was reduced in PKD1/3−/− B cells compared to wild-type B cells (Fig. 3B). One interpretation of this data is that PKD enzymes may modulate Erk activation. Indeed, PKD enzymes have previously been linked to the growth factor-regulated Erk signalling in fibroblast and endothelial cell lines [33–35]. However, BCR-induced Erk phosphorylation was also reduced in PKD1/3−/−-Flag-PKD3+ B cells (data not shown) suggesting that reduced BCR levels on the surface of PKD1/3−/− (and PKD1/3−/−-Flag-PKD3+) B cells may itself impact on the strength of activation of this specific intracellular signalling pathway. To search for other potential PKD targets that may show defective regulation in PKD1/3−/− DT40 B cells, we used a PKD substrate phospho-antibody that recognises consensus phosphorylation sequences targeted by PKD enzymes (LxRxxpS/T) [36]. As shown in Fig. 3C, phorbol ester- and BCR-induced phosphorylation of cellular substrates detected by this phospho-antibody was similar in wild-type and PKD1/3−/− cells and is therefore independent of PKD enzymes. However, pretreatment of both wild-type and PKD1/3−/− DT40 B cells with GF109203X, a bisindoylmaleimide derivative that inhibits PKCs prevented the induction of proteins that contain phosphorylated LxRxxS/T motifs. Thus loss of PKD1/3 enzymes does not globally disrupt the phosphorylation of cellular proteins that contain LxRxxpS/T motifs. This result is perhaps not surprising as LxRxxS/T motifs also act as good substrates for other serine/threonine kinases such as MAPKAPK2. However these experiments do provide further evidence that phosphospecific antisera are not sufficiently selective to be designated kinase specific substrate antisera. BCR-induced signalling pathways culminate in the activation of gene transcription events that control B cell survival, proliferation and function. In this context, it has been proposed that PKD family members control of gene transcription through activation of the NFκB transcription factor. Thus, PKD-mediated activation of NFκB occurs downstream of a variety of different signals, including mROS/oxidative stress, lysophosphatidic acid and the Bcr-Abl oncogene [17,21,23,30,37]. Furthermore, expression of an activated PKD1 mutant enhances HPK1-mediated NFκB activation [38]. In B cells, NFκB is known to be regulated via DAG and PKCβ [39,40] but whether PKDs are key intermediaries for NFκB regulation has not been explored. The data (Fig. 4A) show that NFκB transcriptional activity was strongly induced in both wild-type and PKD1/3−/− DT40 B cells in response to either phorbol ester or BCR stimulation. In contrast, BCR and phorbol ester-induced NFκB transcriptional activity was abolished in PKCβ−/− DT40 B cells (Fig. 4A), although strong activation of PKD kinases (as assessed by autophosphorylation of PKD1 at S916) was observed in the PKCβ−/− cells (Fig. 4B). Thus, PKD kinases are neither essential nor sufficient to mediate BCR-induced NFκB activation in DT40 B cells and hence do not participate in DAG/PKC mediated control of NFκB. 4 Discussion Protein
T61 240-252 NN denotes B-lymphocyte
T62 253-257 NN denotes cell
T63 258-262 NN denotes line
T64 264-274 RB denotes Previously
T65 275-277 PRP denotes we
T66 278-282 VB denotes have
T67 283-288 VB denotes shown
T68 289-293 IN denotes that
T69 294-298 NN denotes PKDs
T70 299-303 VB denotes have
T71 304-306 DT denotes an
T72 307-316 JJ denotes essential
T73 317-321 NN denotes role
T74 322-324 IN denotes in
T75 325-335 VB denotes regulating
T76 336-341 NN denotes class
T77 342-344 CD denotes II
T78 345-352 NN denotes histone
T79 353-365 NN denotes deacetylases
T80 366-368 IN denotes in
T81 369-373 NN denotes DT40
T82 374-381 NN denotes B-cells
T83 382-383 -LRB- denotes [
T84 383-391 NNP denotes Matthews
T85 391-392 -COMMA- denotes ,
T86 393-397 NNP denotes S.A.
T87 397-398 -COMMA- denotes ,
T88 399-402 NNP denotes Liu
T89 402-403 -COMMA- denotes ,
T90 404-406 NNP denotes P.
T91 406-407 -COMMA- denotes ,
T92 408-416 NNP denotes Spitaler
T93 416-417 -COMMA- denotes ,
T94 418-420 NNP denotes M.
T95 420-421 -COMMA- denotes ,
T96 422-427 NNP denotes Olson
T97 427-428 -COMMA- denotes ,
T98 429-433 NNP denotes E.N.
T99 433-434 -COMMA- denotes ,
T100 435-443 NNP denotes McKinsey
T101 443-444 -COMMA- denotes ,
T102 445-449 NNP denotes T.A.
T103 449-450 -COMMA- denotes ,
T104 451-459 NNP denotes Cantrell
T105 459-460 -COMMA- denotes ,
T106 461-465 NNP denotes D.A.
T107 466-469 CC denotes and
T108 470-481 NNP denotes Scharenberg
T109 481-482 -COMMA- denotes ,
T110 483-487 NNP denotes A.M.
T111 488-489 -LRB- denotes (
T112 489-493 CD denotes 2006
T113 493-494 -RRB- denotes )
T114 495-504 JJ denotes Essential
T115 505-509 NN denotes role
T116 510-513 IN denotes for
T117 514-521 NN denotes protein
T118 522-528 NN denotes kinase
T119 529-530 NN denotes D
T120 531-537 NN denotes family
T121 538-545 NN denotes kinases
T122 546-548 IN denotes in
T123 549-552 DT denotes the
T124 553-563 NN denotes regulation
T125 564-566 IN denotes of
T126 567-572 NN denotes class
T127 573-575 CD denotes II
T128 576-583 NN denotes histone
T129 584-596 NN denotes deacetylases
T130 597-599 IN denotes in
T131 600-601 NN denotes B
T132 602-613 NN denotes lymphocytes
T133 615-619 NNP denotes Mol.
T134 620-624 NNP denotes Cell
T135 625-630 NNP denotes Biol.
T136 631-633 CD denotes 26
T137 633-634 -COMMA- denotes ,
T138 635-644 CD denotes 1569–1577
T532 635-1057 NN denotes 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The
T139 644-645 -RRB- denotes ]
T140 647-649 PRP denotes We
T141 650-653 RB denotes now
T142 654-658 VB denotes show
T143 659-663 IN denotes that
T144 664-668 NN denotes PKDs
T145 669-672 VB denotes are
T146 673-677 RB denotes also
T147 678-686 VB denotes required
T148 687-689 TO denotes to
T149 690-698 VB denotes regulate
T150 699-704 NN denotes HSP27
T151 705-720 NN denotes phosphorylation
T152 721-723 IN denotes in
T153 724-728 NN denotes DT40
T154 729-736 NN denotes B-cells
T155 738-745 RB denotes However
T156 745-746 -COMMA- denotes ,
T157 747-749 IN denotes in
T158 750-758 NN denotes contrast
T159 759-761 TO denotes to
T160 762-770 JJ denotes previous
T161 771-783 NN denotes observations
T162 784-786 IN denotes in
T163 787-792 JJ denotes other
T164 793-797 NN denotes cell
T165 798-803 NN denotes types
T166 803-804 -COMMA- denotes ,
T167 805-808 NN denotes PKD
T168 809-816 NN denotes enzymes
T169 817-819 VB denotes do
T170 820-823 RB denotes not
T171 824-832 VB denotes regulate
T172 833-838 JJ denotes basic
T173 839-847 JJ denotes cellular
T174 848-857 NN denotes processes
T175 858-862 JJ denotes such
T176 863-865 IN denotes as
T177 866-879 NN denotes proliferation
T178 880-882 CC denotes or
T179 883-891 NN denotes survival
T180 892-901 NN denotes responses
T181 901-902 -COMMA- denotes ,
T182 903-906 CC denotes nor
T183 907-911 NN denotes NFκB
T184 912-927 JJ denotes transcriptional
T185 928-936 NN denotes activity
T186 937-947 RB denotes downstream
T187 948-950 IN denotes of
T188 951-954 DT denotes the
T189 955-956 NN denotes B
T190 957-961 NN denotes cell
T191 962-969 NN denotes antigen
T192 970-978 NN denotes receptor
T193 980-984 RB denotes Thus
T194 984-985 -COMMA- denotes ,
T195 986-990 NN denotes PKDs
T196 991-995 VB denotes have
T197 996-997 DT denotes a
T198 998-1007 JJ denotes selective
T199 1008-1012 NN denotes role
T200 1013-1015 IN denotes in
T201 1016-1020 NN denotes DT40
T202 1021-1027 NN denotes B-cell
T203 1028-1035 NN denotes biology
T533 1058-1065 NN denotes protein
T534 1066-1072 NN denotes kinase
T535 1073-1074 NN denotes D
T536 1075-1076 -LRB- denotes (
T537 1076-1079 NN denotes PKD
T538 1079-1080 -RRB- denotes )
T539 1081-1097 NN denotes serine/threonine
T540 1098-1104 NN denotes kinase
T541 1105-1111 NN denotes family
T542 1112-1115 VB denotes has
T543 1116-1121 CD denotes three
T544 1122-1129 NN denotes members
T545 1129-1130 -COLON- denotes :
T546 1131-1135 NN denotes PKD1
T547 1135-1136 -COMMA- denotes ,
T548 1137-1141 NN denotes PKD2
T549 1142-1145 CC denotes and
T550 1146-1150 NN denotes PKD3
T551 1152-1156 JJ denotes Most
T552 1157-1161 NN denotes cell
T553 1162-1167 NN denotes types
T554 1168-1175 VB denotes express
T555 1176-1178 IN denotes at
T556 1179-1184 JJ denotes least
T557 1185-1188 CD denotes two
T558 1189-1192 NN denotes PKD
T559 1193-1201 NN denotes isoforms
T560 1202-1205 CC denotes but
T561 1206-1209 NN denotes PKD
T562 1210-1217 NN denotes enzymes
T563 1218-1221 VB denotes are
T564 1222-1232 RB denotes especially
T565 1233-1239 RB denotes highly
T566 1240-1249 VB denotes expressed
T567 1250-1252 IN denotes in
T568 1253-1267 JJ denotes haematopoietic
T569 1268-1273 NN denotes cells
T570 1273-1274 -COMMA- denotes ,
T571 1275-1280 WRB denotes where
T572 1281-1285 PRP denotes they
T573 1286-1289 VB denotes are
T574 1290-1299 VB denotes activated
T575 1300-1302 IN denotes in
T576 1303-1311 NN denotes response
T577 1312-1314 TO denotes to
T578 1315-1322 NN denotes antigen
T579 1323-1332 NN denotes receptors
T580 1333-1344 NN denotes stimulation
T581 1345-1346 -LRB- denotes [
T582 1346-1349 CD denotes 2,3
T583 1349-1350 -RRB- denotes ]
T584 1352-1353 DT denotes A
T585 1354-1363 VB denotes conserved
T586 1364-1374 NN denotes signalling
T587 1375-1382 NN denotes pathway
T588 1383-1390 VB denotes linking
T589 1391-1398 NN denotes antigen
T590 1399-1408 NN denotes receptors
T591 1409-1411 TO denotes to
T592 1412-1416 NN denotes PKDs
T593 1417-1425 VB denotes involves
T594 1426-1429 DT denotes the
T595 1430-1440 NN denotes activation
T596 1441-1443 IN denotes of
T597 1444-1448 NN denotes PLCγ
T598 1449-1452 CC denotes and
T599 1453-1456 DT denotes the
T600 1457-1467 JJ denotes subsequent
T601 1468-1478 NN denotes production
T602 1479-1481 IN denotes of
T603 1482-1496 NN denotes diacylglycerol
T604 1497-1498 -LRB- denotes (
T605 1498-1501 NN denotes DAG
T606 1501-1502 -RRB- denotes )
T607 1503-1508 WDT denotes which
T608 1509-1519 VB denotes stimulates
T609 1520-1529 JJ denotes classical
T610 1530-1536 CC denotes and/or
T611 1537-1542 JJ denotes novel
T612 1543-1550 NN denotes protein
T613 1551-1557 NN denotes kinase
T614 1558-1560 NN denotes Cs
T615 1561-1562 -LRB- denotes (
T616 1562-1565 NN denotes PKC
T617 1565-1566 -RRB- denotes )
T618 1567-1571 WDT denotes that
T619 1572-1585 VB denotes phosphorylate
T620 1586-1589 CD denotes two
T621 1590-1593 JJ denotes key
T622 1594-1604 JJ denotes regulatory
T623 1605-1611 NN denotes serine
T624 1612-1620 NN denotes residues
T625 1621-1623 IN denotes in
T626 1624-1627 DT denotes the
T627 1628-1638 NN denotes activation
T628 1639-1643 NN denotes loop
T629 1644-1646 IN denotes of
T630 1647-1650 NN denotes PKD
T631 1651-1658 NN denotes kinases
T632 1659-1660 -LRB- denotes [
T633 1660-1663 CD denotes 3–6
T634 1663-1664 -RRB- denotes ]
T635 1666-1669 DT denotes The
T636 1670-1680 JJ denotes N-terminal
T637 1681-1691 JJ denotes regulatory
T638 1692-1698 NN denotes region
T639 1699-1701 IN denotes of
T640 1702-1705 NN denotes PKD
T641 1706-1713 NN denotes enzymes
T642 1714-1722 VB denotes contains
T643 1723-1724 DT denotes a
T644 1725-1728 NN denotes DAG
T645 1729-1736 NN denotes binding
T646 1737-1743 NN denotes domain
T647 1744-1747 CC denotes and
T648 1748-1754 JJ denotes direct
T649 1755-1762 NN denotes binding
T650 1763-1765 IN denotes of
T651 1766-1769 NN denotes DAG
T652 1770-1774 RB denotes also
T653 1775-1786 VB denotes contributes
T654 1787-1789 TO denotes to
T655 1790-1794 NN denotes PKD1
T656 1795-1805 NN denotes activation
T657 1806-1807 -LRB- denotes [
T658 1807-1808 CD denotes 7
T659 1808-1809 -RRB- denotes ]
T660 1810-1812 RB denotes as
T661 1813-1817 RB denotes well
T662 1818-1820 IN denotes as
T663 1821-1831 VB denotes regulating
T664 1832-1835 DT denotes the
T665 1836-1843 JJ denotes spatial
T666 1844-1852 NN denotes location
T667 1853-1855 IN denotes of
T668 1856-1859 NN denotes PKD
T669 1860-1867 NN denotes enzymes
T670 1868-1874 IN denotes within
T671 1875-1880 NN denotes cells
T672 1881-1882 -LRB- denotes [
T673 1882-1886 CD denotes 8–12
T674 1886-1887 -RRB- denotes ]
T675 1889-1892 NN denotes PKD
T676 1893-1900 NN denotes enzymes
T677 1901-1905 VB denotes have
T678 1906-1910 VB denotes been
T679 1911-1919 VB denotes proposed
T680 1920-1922 TO denotes to
T681 1923-1931 VB denotes regulate
T682 1932-1940 JJ denotes numerous
T683 1941-1949 JJ denotes cellular
T684 1950-1959 NN denotes functions
T685 1959-1960 -COMMA- denotes ,
T686 1961-1970 VB denotes including
T687 1971-1975 NN denotes cell
T688 1976-1989 NN denotes proliferation
T689 1990-1991 -LRB- denotes [
T690 1991-1996 CD denotes 13–16
T691 1996-1997 -RRB- denotes ]
T692 1997-1998 -COMMA- denotes ,
T693 1999-2013 JJ denotes anti-apoptotic
T694 2014-2021 NN denotes signals
T695 2022-2023 -LRB- denotes [
T696 2023-2028 CD denotes 17,18
T697 2028-2029 -RRB- denotes ]
T698 2030-2033 CC denotes and
T699 2034-2043 NN denotes thymocyte
T700 2044-2055 NN denotes development
T701 2056-2057 -LRB- denotes [
T702 2057-2059 CD denotes 19
T703 2059-2060 -RRB- denotes ]
T704 2062-2072 NN denotes Expression
T705 2073-2075 IN denotes of
T706 2076-2082 JJ denotes mutant
T707 2083-2096 RB denotes catalytically
T708 2097-2105 JJ denotes inactive
T709 2106-2109 CC denotes and
T710 2110-2124 RB denotes constitutively
T711 2125-2134 VB denotes activated
T712 2135-2139 NN denotes PKDs
T713 2140-2143 MD denotes can
T714 2144-2148 RB denotes also
T715 2149-2155 VB denotes modify
T716 2156-2161 NNP denotes Golgi
T717 2162-2170 NN denotes function
T718 2170-2171 -COMMA- denotes ,
T719 2172-2176 NN denotes cell
T720 2177-2185 NN denotes adhesion
T721 2186-2189 CC denotes and
T722 2190-2194 NN denotes cell
T723 2195-2203 NN denotes motility
T724 2204-2205 -LRB- denotes (
T725 2205-2213 VB denotes reviewed
T726 2214-2216 IN denotes in
T727 2217-2218 -LRB- denotes [
T728 2218-2220 CD denotes 20
T729 2220-2221 -RRB- denotes ]
T730 2221-2222 -RRB- denotes )
T731 2224-2226 IN denotes In
T732 2227-2237 JJ denotes particular
T733 2237-2238 -COMMA- denotes ,
T734 2239-2243 NN denotes PKDs
T735 2244-2248 VB denotes have
T736 2249-2253 VB denotes been
T737 2254-2260 RB denotes widely
T738 2261-2267 VB denotes linked
T739 2268-2270 TO denotes to
T740 2271-2274 DT denotes the
T741 2275-2285 NN denotes activation
T742 2286-2288 IN denotes of
T743 2289-2292 DT denotes the
T744 2293-2297 NN denotes NFκB
T745 2298-2311 NN denotes transcription
T746 2312-2318 NN denotes factor
T747 2319-2322 CC denotes and
T748 2323-2325 IN denotes in
T749 2326-2336 VB denotes regulating
T750 2337-2341 NN denotes cell
T751 2342-2350 NN denotes survival
T752 2351-2357 IN denotes during
T753 2358-2367 JJ denotes oxidative
T754 2368-2374 NN denotes stress
T755 2375-2376 -LRB- denotes [
T756 2376-2384 CD denotes 17,21–23
T757 2384-2385 -RRB- denotes ]
T758 2387-2394 DT denotes Another
T759 2395-2403 RB denotes recently
T760 2404-2412 VB denotes proposed
T761 2413-2417 NN denotes PKD1
T762 2418-2427 NN denotes substrate
T763 2428-2430 VB denotes is
T764 2431-2436 NN denotes HSP27
T765 2437-2438 -LRB- denotes [
T766 2438-2440 CD denotes 24
T767 2440-2441 -RRB- denotes ]
T768 2441-2442 -COMMA- denotes ,
T769 2443-2444 DT denotes a
T770 2445-2450 JJ denotes small
T771 2451-2455 NN denotes heat
T772 2456-2461 NN denotes shock
T773 2462-2469 NN denotes protein
T774 2470-2478 VB denotes involved
T775 2479-2481 IN denotes in
T776 2482-2492 VB denotes regulating
T777 2493-2497 NN denotes cell
T778 2498-2507 NN denotes migration
T779 2508-2511 CC denotes and
T780 2512-2516 NN denotes cell
T781 2517-2525 NN denotes survival
T782 2526-2527 -LRB- denotes [
T783 2527-2529 CD denotes 25
T784 2529-2530 -RRB- denotes ]
T785 2532-2534 DT denotes An
T786 2535-2544 JJ denotes essential
T787 2545-2549 NN denotes role
T788 2550-2553 IN denotes for
T789 2554-2557 NN denotes PKD
T790 2558-2565 NN denotes enzymes
T791 2566-2568 IN denotes in
T792 2569-2579 VB denotes regulating
T793 2580-2585 NN denotes class
T794 2586-2588 CD denotes II
T795 2589-2596 NN denotes histone
T796 2597-2609 NN denotes deacetylases
T797 2610-2611 -LRB- denotes (
T798 2611-2616 NN denotes HDACs
T799 2616-2617 -RRB- denotes )
T800 2617-2618 -COMMA- denotes ,
T801 2619-2626 NN denotes enzymes
T802 2627-2631 WDT denotes that
T803 2632-2639 VB denotes repress
T804 2640-2654 JJ denotes MEF2-dependent
T805 2655-2659 NN denotes gene
T806 2660-2673 NN denotes transcription
T807 2673-2674 -COMMA- denotes ,
T808 2675-2678 VB denotes has
T809 2679-2683 RB denotes also
T810 2684-2688 VB denotes been
T811 2689-2701 VB denotes demonstrated
T812 2702-2703 -LRB- denotes [
T813 2703-2710 CD denotes 1,26–28
T814 2710-2711 -RRB- denotes ]
T815 2713-2715 TO denotes To
T816 2716-2727 VB denotes investigate
T817 2728-2731 DT denotes the
T818 2732-2742 JJ denotes biological
T819 2743-2747 NN denotes role
T820 2748-2750 IN denotes of
T821 2751-2755 NN denotes PKDs
T822 2756-2758 PRP denotes we
T823 2759-2763 VB denotes have
T824 2764-2773 VB denotes generated
T825 2774-2778 NN denotes DT40
T826 2779-2780 NN denotes B
T827 2781-2785 NN denotes cell
T828 2786-2791 NN denotes lines
T829 2792-2796 WDT denotes that
T830 2797-2801 VB denotes lack
T831 2802-2812 NN denotes expression
T832 2813-2815 IN denotes of
T833 2816-2819 CD denotes one
T834 2820-2822 CC denotes or
T835 2823-2827 JJ denotes more
T836 2828-2835 NN denotes members
T837 2836-2838 IN denotes of
T838 2839-2842 DT denotes the
T839 2843-2846 NN denotes PKD
T840 2847-2853 NN denotes family
T841 2854-2855 -LRB- denotes [
T842 2855-2856 CD denotes 1
T843 2856-2857 -RRB- denotes ]
T844 2857-2858 -COMMA- denotes ,
T845 2859-2867 VB denotes allowing
T846 2868-2870 PRP denotes us
T847 2871-2873 TO denotes to
T848 2874-2885 VB denotes investigate
T849 2886-2889 DT denotes the
T850 2890-2898 NN denotes function
T851 2898-2899 -LRB- denotes (
T852 2899-2900 NN denotes s
T853 2900-2901 -RRB- denotes )
T854 2902-2904 IN denotes of
T855 2905-2908 NN denotes PKD
T856 2909-2917 NN denotes isoforms
T857 2918-2927 VB denotes following
T858 2928-2929 NN denotes B
T859 2930-2934 NN denotes cell
T860 2935-2942 NN denotes antigen
T861 2943-2951 NN denotes receptor
T862 2952-2953 -LRB- denotes (
T863 2953-2956 NN denotes BCR
T864 2956-2957 -RRB- denotes )
T865 2958-2969 NN denotes stimulation
T866 2969-2970 -COMMA- denotes ,
T867 2971-2973 RB denotes as
T868 2974-2978 RB denotes well
T869 2979-2989 VB denotes addressing
T870 2990-2993 DT denotes the
T871 2994-2999 NN denotes issue
T872 3000-3002 IN denotes of
T873 3003-3013 JJ denotes functional
T874 3014-3024 NN denotes redundancy
T875 3025-3032 IN denotes between
T876 3033-3036 DT denotes the
T877 3037-3046 JJ denotes different
T878 3047-3050 NN denotes PKD
T879 3051-3057 NN denotes family
T880 3058-3065 NN denotes members
T881 3067-3075 JJ denotes Previous
T882 3076-3083 NN denotes studies
T883 3084-3088 VB denotes have
T884 3089-3094 VB denotes shown
T885 3095-3099 IN denotes that
T886 3100-3104 NN denotes PKDs
T887 3105-3108 VB denotes are
T888 3109-3122 JJ denotes indispensable
T889 3123-3126 IN denotes for
T890 3127-3131 NN denotes HDAC
T891 3132-3142 NN denotes regulation
T892 3143-3145 IN denotes in
T893 3146-3147 NN denotes B
T894 3148-3153 NN denotes cells
T895 3154-3155 -LRB- denotes [
T896 3155-3156 CD denotes 1
T897 3156-3157 -RRB- denotes ]
T898 3159-3165 RB denotes Herein
T899 3166-3168 PRP denotes we
T900 3169-3173 VB denotes show
T901 3174-3178 IN denotes that
T902 3179-3183 NN denotes PKDs
T903 3184-3187 VB denotes are
T904 3188-3192 RB denotes also
T905 3193-3206 JJ denotes indispensable
T906 3207-3210 IN denotes for
T907 3211-3216 NN denotes HSP27
T908 3217-3232 NN denotes phosphorylation
T909 3233-3235 IN denotes in
T910 3236-3237 NN denotes B
T911 3238-3243 NN denotes cells
T912 3245-3252 RB denotes However
T913 3252-3253 -COMMA- denotes ,
T914 3254-3262 JJ denotes PKD-null
T915 3263-3267 NN denotes DT40
T916 3268-3269 NN denotes B
T917 3270-3275 NN denotes cells
T918 3276-3279 VB denotes are
T919 3280-3286 JJ denotes viable
T920 3287-3290 CC denotes and
T921 3291-3302 VB denotes proliferate
T922 3303-3311 RB denotes normally
T923 3313-3321 RB denotes Moreover
T924 3321-3322 -COMMA- denotes ,
T925 3323-3327 NN denotes loss
T926 3328-3330 IN denotes of
T927 3331-3334 DT denotes the
T928 3335-3341 JJ denotes entire
T929 3342-3350 JJ denotes cellular
T930 3351-3355 NN denotes pool
T931 3356-3358 IN denotes of
T932 3359-3362 NN denotes PKD
T933 3363-3367 VB denotes does
T934 3368-3371 RB denotes not
T935 3372-3382 RB denotes critically
T936 3383-3389 VB denotes affect
T937 3390-3399 JJ denotes oxidative
T938 3400-3406 NN denotes stress
T939 3407-3416 NN denotes responses
T940 3417-3419 IN denotes in
T941 3420-3421 NN denotes B
T942 3422-3427 NN denotes cells
T943 3428-3431 CC denotes nor
T944 3432-3434 VB denotes do
T945 3435-3438 NN denotes PKD
T946 3439-3446 NN denotes kinases
T947 3447-3451 VB denotes play
T948 3452-3454 DT denotes an
T949 3455-3464 JJ denotes essential
T950 3465-3469 NN denotes role
T951 3470-3472 IN denotes in
T952 3473-3483 VB denotes regulating
T953 3484-3488 NN denotes NFκB
T954 3489-3504 JJ denotes transcriptional
T955 3505-3513 NN denotes activity
T956 3515-3523 RB denotes Together
T957 3523-3524 -COMMA- denotes ,
T958 3525-3530 DT denotes these
T959 3531-3539 NN denotes findings
T960 3540-3546 VB denotes reveal
T961 3547-3551 IN denotes that
T962 3552-3554 IN denotes in
T963 3555-3556 NN denotes B
T964 3557-3568 NN denotes lymphocytes
T965 3568-3569 -COMMA- denotes ,
T966 3570-3573 NN denotes PKD
T967 3574-3581 NN denotes kinases
T968 3582-3585 VB denotes are
T969 3586-3589 RB denotes not
T970 3590-3598 JJ denotes critical
T971 3599-3609 NN denotes regulators
T972 3610-3612 IN denotes of
T973 3613-3617 JJ denotes many
T974 3618-3620 IN denotes of
T975 3621-3624 DT denotes the
T976 3625-3633 JJ denotes cellular
T977 3634-3643 NN denotes processes
T978 3644-3654 RB denotes previously
T979 3655-3663 VB denotes ascribed
T980 3664-3666 TO denotes to
T981 3667-3671 PRP denotes them
T982 3672-3674 IN denotes in
T983 3675-3680 JJ denotes other
T984 3681-3689 JJ denotes cellular
T985 3690-3697 NN denotes systems
T1675 3736-3743 NN denotes culture
T1676 3743-3744 -COMMA- denotes ,
T1677 3745-3754 JJ denotes transient
T1678 3755-3768 NN denotes transfections
T1679 3769-3772 CC denotes and
T1680 3773-3777 NN denotes cell
T1681 3778-3789 NN denotes stimulation
T1682 3790-3793 DT denotes The
T1683 3794-3804 NN denotes generation
T1684 3804-3805 -COMMA- denotes ,
T1685 3806-3813 NN denotes culture
T1686 3814-3817 CC denotes and
T1687 3818-3828 NN denotes activation
T1688 3829-3831 IN denotes of
T1689 3832-3839 NN denotes PKD1−/−
T1690 3839-3840 -COMMA- denotes ,
T1691 3841-3848 NN denotes PKD3−/−
T1692 3849-3852 CC denotes and
T1693 3853-3862 NN denotes PKD1/3−/−
T1694 3863-3871 NN denotes knockout
T1695 3872-3876 NN denotes DT40
T1696 3877-3878 NN denotes B
T1697 3879-3883 NN denotes cell
T1698 3884-3889 NN denotes lines
T1699 3890-3894 VB denotes have
T1700 3895-3899 VB denotes been
T1701 3900-3909 VB denotes described
T1702 3910-3920 RB denotes previously
T1703 3921-3922 -LRB- denotes [
T1704 3922-3923 CD denotes 1
T1705 3923-3924 -RRB- denotes ]
T1706 3926-3931 NN denotes Cells
T1707 3932-3936 VB denotes were
T1708 3937-3942 VB denotes lysed
T1709 3943-3946 CC denotes and
T1710 3947-3954 NN denotes protein
T1711 3955-3963 NN denotes extracts
T1712 3964-3968 VB denotes were
T1713 3969-3977 VB denotes analysed
T1714 3978-3980 IN denotes in
T1715 3981-3988 JJ denotes Western
T1716 3989-3997 NN denotes blotting
T1717 3998-4009 NN denotes experiments
T1718 4010-4012 IN denotes as
T1719 4013-4023 RB denotes previously
T1720 4024-4033 VB denotes described
T1721 4034-4035 -LRB- denotes [
T1722 4035-4036 CD denotes 1
T1723 4036-4037 -RRB- denotes ]
T1724 4039-4054 NN denotes Chloramphenicol
T1725 4055-4061 NN denotes acetyl
T1726 4062-4073 NN denotes transferase
T1727 4074-4080 NN denotes assays
T1728 4081-4085 VB denotes have
T1729 4086-4090 VB denotes been
T1730 4091-4100 VB denotes described
T1731 4101-4111 RB denotes previously
T1732 4112-4113 -LRB- denotes [
T1733 4113-4115 CD denotes 29
T1734 4115-4116 -RRB- denotes ]
T1869 4129-4137 NN denotes staining
T1870 4138-4142 NN denotes DT40
T1871 4143-4144 NN denotes B
T1872 4145-4150 NN denotes cells
T1873 4151-4152 -LRB- denotes (
T1874 4152-4159 CD denotes 2 × 106
T1875 4160-4165 NN denotes cells
T1876 4166-4169 IN denotes per
T1877 4170-4175 NN denotes point
T1878 4175-4176 -RRB- denotes )
T1879 4177-4181 VB denotes were
T1880 4182-4193 VB denotes resuspended
T1881 4194-4196 IN denotes in
T1882 4197-4203 NN denotes 200 μl
T1883 4204-4210 NN denotes buffer
T1884 4211-4212 -LRB- denotes (
T1885 4212-4216 NN denotes RPMI
T1886 4217-4221 CD denotes 1640
T1887 4222-4227 NN denotes media
T1888 4227-4228 -COMMA- denotes ,
T1889 4229-4230 CD denotes 1
T1890 4230-4231 NN denotes %
T1891 4232-4238 JJ denotes foetal
T1892 4239-4243 NN denotes calf
T1893 4244-4249 NN denotes serum
T1894 4249-4250 -RRB- denotes )
T1895 4251-4261 VB denotes containing
T1896 4262-4274 JJ denotes anti-chicken
T1897 4275-4277 NN denotes M1
T1898 4278-4288 JJ denotes monoclonal
T1899 4289-4297 NN denotes antibody
T1900 4298-4308 VB denotes conjugated
T1901 4309-4311 TO denotes to
T1902 4312-4316 NN denotes FITC
T1903 4317-4320 IN denotes for
T1904 4321-4327 NN denotes 20 min
T1905 4328-4330 IN denotes on
T1906 4331-4334 NN denotes ice
T1907 4336-4339 DT denotes The
T1908 4340-4345 NN denotes cells
T1909 4346-4350 VB denotes were
T1910 4351-4357 VB denotes washed
T1911 4358-4363 RB denotes twice
T1912 4364-4367 CC denotes and
T1913 4368-4379 JJ denotes fluorescent
T1914 4380-4389 NN denotes intensity
T1915 4390-4393 VB denotes was
T1916 4394-4402 VB denotes analysed
T1917 4403-4405 IN denotes by
T1918 4406-4410 NN denotes flow
T1919 4411-4420 NN denotes cytometry
T1920 4422-4425 DT denotes All
T1921 4426-4433 NN denotes results
T1922 4434-4439 VB denotes shown
T1923 4440-4443 VB denotes are
T1924 4444-4458 JJ denotes representative
T1925 4459-4461 IN denotes of
T1926 4462-4464 IN denotes at
T1927 4465-4468 CD denotes two
T1928 4469-4471 TO denotes to
T1929 4472-4476 CD denotes four
T1930 4477-4488 JJ denotes independent
T1931 4489-4500 NN denotes experiments
T1932 4501-4507 IN denotes unless
T1933 4508-4517 RB denotes otherwise
T1934 4518-4527 VB denotes indicated
T2289 4552-4554 IN denotes of
T2290 4555-4560 NN denotes HSP27
T2291 4561-4576 NN denotes phosphorylation
T2292 4577-4579 IN denotes in
T2293 4580-4584 NN denotes DT40
T2294 4585-4586 NN denotes B
T2295 4587-4592 NN denotes cells
T2296 4593-4600 VB denotes lacking
T2297 4601-4611 NN denotes expression
T2298 4612-4614 IN denotes of
T2299 4615-4618 NN denotes PKD
T2300 4619-4625 NN denotes family
T2301 4626-4633 NN denotes kinases
T2302 4634-4638 NN denotes DT40
T2303 4639-4640 NN denotes B
T2304 4641-4646 NN denotes cells
T2305 4647-4654 VB denotes express
T2306 4655-4658 CD denotes two
T2307 4659-4662 NN denotes PKD
T2308 4663-4671 NN denotes isoforms
T2309 4671-4672 -COMMA- denotes ,
T2310 4673-4677 NN denotes PKD1
T2311 4678-4681 CC denotes and
T2312 4682-4686 NN denotes PKD3
T2313 4686-4687 -COMMA- denotes ,
T2314 4688-4691 CC denotes and
T2315 4692-4694 IN denotes as
T2316 4695-4705 RB denotes previously
T2317 4706-4715 VB denotes described
T2318 4716-4718 PRP denotes we
T2319 4719-4723 VB denotes have
T2320 4724-4732 RB denotes recently
T2321 4733-4742 VB denotes generated
T2322 4743-4747 NN denotes DT40
T2323 4748-4749 NN denotes B
T2324 4750-4754 NN denotes cell
T2325 4755-4760 NN denotes lines
T2326 4761-4765 WDT denotes that
T2327 4766-4770 VB denotes lack
T2328 4771-4781 NN denotes expression
T2329 4782-4784 IN denotes of
T2330 4785-4791 CC denotes either
T2331 4792-4796 NN denotes PKD1
T2332 4797-4799 CC denotes or
T2333 4800-4804 NN denotes PKD3
T2334 4805-4807 CC denotes or
T2335 4808-4812 DT denotes both
T2336 4813-4820 NN denotes enzymes
T2337 4821-4822 -LRB- denotes [
T2338 4822-4823 CD denotes 1
T2339 4823-4824 -RRB- denotes ]
T2340 4826-4828 IN denotes In
T2341 4829-4839 VB denotes generating
T2342 4840-4843 DT denotes the
T2343 4844-4850 JJ denotes double
T2344 4851-4859 NN denotes knockout
T2345 4860-4864 NN denotes cell
T2346 4865-4870 NN denotes lines
T2347 4871-4873 PRP denotes we
T2348 4874-4882 VB denotes targeted
T2349 4883-4886 DT denotes the
T2350 4887-4891 NN denotes PKD1
T2351 4892-4896 NN denotes loci
T2352 4897-4899 IN denotes in
T2353 4900-4901 DT denotes a
T2354 4902-4909 NN denotes PKD3−/−
T2355 4910-4914 NN denotes cell
T2356 4915-4919 NN denotes line
T2357 4920-4924 WDT denotes that
T2358 4925-4934 VB denotes expressed
T2359 4935-4936 DT denotes a
T2360 4937-4946 NN denotes Flag-PKD3
T2361 4947-4956 NN denotes transgene
T2362 4957-4962 IN denotes under
T2363 4963-4966 DT denotes the
T2364 4967-4974 NN denotes control
T2365 4975-4977 IN denotes of
T2366 4978-4979 DT denotes a
T2367 4980-5001 JJ denotes doxycycline-inducible
T2368 5002-5010 NN denotes promoter
T2369 5012-5017 RB denotes Hence
T2370 5017-5018 -COMMA- denotes ,
T2371 5019-5021 IN denotes in
T2372 5022-5025 DT denotes the
T2373 5026-5034 NN denotes presence
T2374 5035-5037 IN denotes of
T2375 5038-5049 NN denotes doxycycline
T2376 5049-5050 -COMMA- denotes ,
T2377 5051-5060 NN denotes Flag-PKD3
T2378 5061-5071 NN denotes expression
T2379 5072-5074 IN denotes in
T2380 5075-5081 NN denotes PKD1/3
T2381 5082-5088 JJ denotes double
T2382 5089-5097 JJ denotes knockout
T2383 5098-5103 NN denotes cells
T2384 5104-5106 VB denotes is
T2385 5107-5117 JJ denotes comparable
T2386 5118-5120 TO denotes to
T2387 5121-5131 JJ denotes endogenous
T2388 5132-5136 NN denotes PKD3
T2389 5137-5144 JJ denotes present
T2390 5145-5147 IN denotes in
T2391 5148-5157 JJ denotes wild-type
T2392 5158-5162 NN denotes DT40
T2393 5163-5168 NN denotes cells
T2394 5169-5172 CC denotes and
T2395 5173-5180 NN denotes removal
T2396 5181-5183 IN denotes of
T2397 5184-5195 NN denotes doxycycline
T2398 5196-5200 IN denotes from
T2399 5201-5204 DT denotes the
T2400 5205-5212 NN denotes culture
T2401 5213-5218 NN denotes media
T2402 5219-5222 IN denotes for
T2403 5223-5224 CD denotes 5
T2404 5225-5229 NN denotes days
T2405 5230-5237 VB denotes results
T2406 5238-5240 IN denotes in
T2407 5241-5242 DT denotes a
T2408 5243-5253 RB denotes completely
T2409 5254-5258 JJ denotes null
T2410 5259-5262 NN denotes PKD
T2411 5263-5272 NN denotes phenotype
T2412 5273-5274 -LRB- denotes (
T2413 5274-5278 NN denotes Fig.
T2414 5279-5281 NN denotes 1A
T2415 5281-5282 -RRB- denotes )
T2416 5284-5294 RB denotes Previously
T2417 5294-5295 -COMMA- denotes ,
T2418 5296-5298 PRP denotes we
T2419 5299-5303 VB denotes have
T2420 5304-5316 VB denotes demonstrated
T2421 5317-5321 IN denotes that
T2422 5322-5337 NN denotes phosphorylation
T2423 5338-5341 CC denotes and
T2424 5342-5349 JJ denotes nuclear
T2425 5350-5359 NN denotes exclusion
T2426 5360-5362 IN denotes of
T2427 5363-5368 NN denotes class
T2428 5369-5371 CD denotes II
T2429 5372-5379 NN denotes histone
T2430 5380-5392 NN denotes deacetylases
T2431 5393-5394 -LRB- denotes (
T2432 5394-5399 NN denotes HDACs
T2433 5399-5400 -RRB- denotes )
T2434 5401-5407 IN denotes during
T2435 5408-5411 NN denotes BCR
T2436 5412-5422 NN denotes engagement
T2437 5423-5425 VB denotes is
T2438 5426-5435 JJ denotes defective
T2439 5436-5438 IN denotes in
T2440 5439-5448 NN denotes PKD1/3−/−
T2441 5449-5450 NN denotes B
T2442 5451-5456 NN denotes cells
T2443 5457-5460 CC denotes and
T2444 5461-5464 MD denotes can
T2445 5465-5473 VB denotes restored
T2446 5474-5478 IN denotes upon
T2447 5479-5492 NN denotes re-expression
T2448 5493-5495 IN denotes of
T2449 5496-5497 DT denotes a
T2450 5498-5504 JJ denotes single
T2451 5505-5508 NN denotes PKD
T2452 5509-5516 NN denotes isoform
T2453 5517-5518 -LRB- denotes [
T2454 5518-5519 CD denotes 1
T2455 5519-5520 -RRB- denotes ]
T2456 5522-5525 DT denotes The
T2457 5526-5531 JJ denotes small
T2458 5532-5536 NN denotes heat
T2459 5537-5542 NN denotes shock
T2460 5543-5550 NN denotes protein
T2461 5551-5556 NN denotes HSP27
T2462 5557-5560 VB denotes has
T2463 5561-5569 RB denotes recently
T2464 5570-5574 VB denotes been
T2465 5575-5583 VB denotes proposed
T2466 5584-5586 IN denotes as
T2467 5587-5588 DT denotes a
T2468 5589-5593 NN denotes PKD1
T2469 5594-5603 NN denotes substrate
T2470 5604-5605 -LRB- denotes [
T2471 5605-5607 CD denotes 24
T2472 5607-5608 -RRB- denotes ]
T2473 5609-5612 CC denotes and
T2474 5613-5615 PRP denotes we
T2475 5616-5627 RB denotes accordingly
T2476 5628-5636 VB denotes assessed
T2477 5637-5644 IN denotes whether
T2478 5645-5653 JJ denotes PKD-null
T2479 5654-5658 NN denotes DT40
T2480 5659-5664 NN denotes cells
T2481 5665-5669 VB denotes have
T2482 5670-5679 JJ denotes defective
T2483 5680-5695 NN denotes phosphorylation
T2484 5696-5698 IN denotes of
T2485 5699-5704 NN denotes HSP27
T2486 5705-5707 IN denotes on
T2487 5708-5714 NN denotes serine
T2488 5715-5717 CD denotes 82
T2489 5717-5718 -COMMA- denotes ,
T2490 5719-5722 DT denotes the
T2491 5723-5731 VB denotes proposed
T2492 5732-5736 NN denotes PKD1
T2493 5737-5746 NN denotes substrate
T2494 5747-5755 NN denotes sequence
T2495 5757-5759 PRP denotes We
T2496 5760-5769 RB denotes initially
T2497 5770-5782 VB denotes investigated
T2498 5783-5786 DT denotes the
T2499 5787-5797 NN denotes regulation
T2500 5798-5800 IN denotes of
T2501 5801-5806 NN denotes HSP27
T2502 5807-5822 NN denotes phosphorylation
T2503 5823-5825 IN denotes in
T2504 5826-5832 JJ denotes single
T2505 5833-5841 NN denotes knockout
T2506 5842-5846 NN denotes DT40
T2507 5847-5848 NN denotes B
T2508 5849-5854 NN denotes cells
T2509 5855-5862 VB denotes lacking
T2510 5863-5869 CC denotes either
T2511 5870-5874 NN denotes PKD1
T2512 5875-5877 CC denotes or
T2513 5878-5882 NN denotes PKD3
T2514 5884-5886 IN denotes As
T2515 5887-5892 VB denotes shown
T2516 5893-5895 IN denotes in
T2517 5896-5900 NNP denotes Fig.
T2518 5901-5903 NN denotes 1B
T2519 5903-5904 -COMMA- denotes ,
T2520 5905-5915 NN denotes activation
T2521 5916-5918 IN denotes of
T2522 5919-5922 DT denotes the
T2523 5923-5926 NN denotes BCR
T2524 5927-5929 CC denotes or
T2525 5930-5939 NN denotes treatment
T2526 5940-5944 IN denotes with
T2527 5945-5948 DT denotes the
T2528 5949-5960 JJ denotes DAG-mimetic
T2529 5961-5965 NN denotes PdBu
T2530 5966-5975 VB denotes increased
T2531 5976-5979 DT denotes the
T2532 5980-5986 NN denotes levels
T2533 5987-5989 IN denotes of
T2534 5990-5995 NN denotes HSP27
T2535 5996-6011 NN denotes phosphorylation
T2536 6012-6014 IN denotes at
T2537 6015-6018 NN denotes S82
T2538 6019-6021 IN denotes in
T2539 6022-6031 JJ denotes wild-type
T2540 6032-6036 NN denotes DT40
T2541 6037-6038 NN denotes B
T2542 6039-6044 NN denotes cells
T2543 6046-6049 NN denotes BCR
T2544 6050-6053 CC denotes and
T2545 6054-6061 NN denotes phorbol
T2546 6062-6067 NN denotes ester
T2547 6068-6075 NN denotes signals
T2548 6076-6080 VB denotes were
T2549 6081-6085 RB denotes also
T2550 6086-6090 JJ denotes able
T2551 6091-6093 TO denotes to
T2552 6094-6102 VB denotes increase
T2553 6103-6108 NN denotes HSP27
T2554 6109-6124 NN denotes phosphorylation
T2555 6125-6127 IN denotes in
T2556 6128-6132 NN denotes PKD1
T2557 6133-6135 CC denotes or
T2558 6136-6140 NN denotes PKD3
T2559 6141-6147 JJ denotes single
T2560 6148-6156 NN denotes knockout
T2561 6157-6161 NN denotes DT40
T2562 6162-6163 NN denotes B
T2563 6164-6169 NN denotes cells
T2564 6170-6171 -LRB- denotes (
T2565 6171-6175 NN denotes Fig.
T2566 6176-6178 NN denotes 1B
T2567 6178-6179 -RRB- denotes )
T2568 6181-6188 RB denotes However
T2569 6188-6189 -COMMA- denotes ,
T2570 6190-6194 NN denotes BCR-
T2571 6195-6198 CC denotes and
T2572 6199-6206 NN denotes phorbol
T2573 6207-6220 JJ denotes ester-induced
T2574 6221-6236 NN denotes phosphorylation
T2575 6237-6239 IN denotes of
T2576 6240-6245 NN denotes HSP27
T2577 6246-6248 IN denotes on
T2578 6249-6252 NN denotes S82
T2579 6253-6256 VB denotes was
T2580 6257-6266 VB denotes abolished
T2581 6267-6269 IN denotes in
T2582 6270-6271 NN denotes B
T2583 6272-6277 NN denotes cells
T2584 6278-6282 WDT denotes that
T2585 6283-6289 VB denotes lacked
T2586 6290-6294 CC denotes both
T2587 6295-6299 NN denotes PKD1
T2588 6300-6303 CC denotes and
T2589 6304-6308 NN denotes PKD3
T2590 6309-6310 -LRB- denotes (
T2591 6310-6314 NN denotes Fig.
T2592 6315-6317 NN denotes 1C
T2593 6317-6318 -RRB- denotes )
T2594 6320-6333 RB denotes Significantly
T2595 6333-6334 -COMMA- denotes ,
T2596 6335-6354 JJ denotes doxycycline-induced
T2597 6355-6365 NN denotes expression
T2598 6366-6368 IN denotes of
T2599 6369-6372 DT denotes the
T2600 6373-6382 NN denotes Flag-PKD3
T2601 6383-6392 NN denotes transgene
T2602 6393-6395 IN denotes in
T2603 6396-6399 DT denotes the
T2604 6400-6406 JJ denotes double
T2605 6407-6415 NN denotes knockout
T2606 6416-6421 NN denotes cells
T2607 6422-6425 VB denotes was
T2608 6426-6436 JJ denotes sufficient
T2609 6437-6439 TO denotes to
T2610 6440-6447 VB denotes restore
T2611 6448-6454 JJ denotes normal
T2612 6455-6465 NN denotes regulation
T2613 6466-6468 IN denotes of
T2614 6469-6474 NN denotes HSP27
T2615 6475-6490 NN denotes phosphorylation
T2616 6491-6492 -LRB- denotes (
T2617 6492-6496 NN denotes Fig.
T2618 6497-6499 NN denotes 1C
T2619 6499-6500 -RRB- denotes )
T2620 6502-6504 IN denotes In
T2621 6505-6513 NN denotes contrast
T2622 6513-6514 -COMMA- denotes ,
T2623 6515-6525 NN denotes expression
T2624 6526-6528 IN denotes of
T2625 6529-6530 DT denotes a
T2626 6531-6547 JJ denotes kinase-deficient
T2627 6548-6552 NN denotes PKD3
T2628 6553-6559 JJ denotes mutant
T2629 6560-6567 NN denotes protein
T2630 6568-6570 IN denotes in
T2631 6571-6574 DT denotes the
T2632 6575-6581 JJ denotes double
T2633 6582-6590 NN denotes knockout
T2634 6591-6596 NN denotes cells
T2635 6597-6600 VB denotes was
T2636 6601-6604 RB denotes not
T2637 6605-6609 JJ denotes able
T2638 6610-6612 TO denotes to
T2639 6613-6620 VB denotes restore
T2640 6621-6625 NN denotes BCR-
T2641 6626-6628 CC denotes or
T2642 6629-6636 NN denotes phorbol
T2643 6637-6650 JJ denotes ester-induced
T2644 6651-6656 NN denotes HSP27
T2645 6657-6672 NN denotes phosphorylation
T2646 6673-6674 -LRB- denotes (
T2647 6674-6678 NN denotes Fig.
T2648 6679-6681 NN denotes 1D
T2649 6681-6682 -RRB- denotes )
T2650 6684-6689 RB denotes Hence
T2651 6689-6690 -COMMA- denotes ,
T2652 6691-6695 NN denotes PKD3
T2653 6696-6698 RB denotes as
T2654 6699-6703 RB denotes well
T2655 6704-6706 IN denotes as
T2656 6707-6711 NN denotes PKD1
T2657 6712-6715 MD denotes can
T2658 6716-6724 VB denotes regulate
T2659 6725-6730 NN denotes HSP27
T2660 6731-6746 NN denotes phosphorylation
T2661 6747-6750 CC denotes and
T2662 6751-6753 IN denotes in
T2663 6754-6758 NN denotes DT40
T2664 6759-6760 NN denotes B
T2665 6761-6766 NN denotes cells
T2666 6767-6771 PRP denotes they
T2667 6772-6775 VB denotes are
T2668 6776-6788 RB denotes functionally
T2669 6789-6798 JJ denotes redundant
T2670 6799-6801 IN denotes as
T2671 6802-6807 NN denotes HSP27
T2672 6808-6815 NN denotes kinases
T3837 6832-6845 NN denotes proliferation
T3838 6846-6849 CC denotes and
T3839 6850-6858 NN denotes survival
T3840 6859-6861 IN denotes in
T3841 6862-6866 NN denotes DT40
T3842 6867-6868 NN denotes B
T3843 6869-6874 NN denotes cells
T3844 6875-6882 VB denotes lacking
T3845 6883-6893 NN denotes expression
T3846 6894-6896 IN denotes of
T3847 6897-6900 NN denotes PKD
T3848 6901-6907 NN denotes family
T3849 6908-6915 NN denotes kinases
T3850 6916-6919 NN denotes PKD
T3851 6920-6927 NN denotes enzymes
T3852 6928-6932 VB denotes have
T3853 6933-6943 RB denotes previously
T3854 6944-6948 VB denotes been
T3855 6949-6955 VB denotes linked
T3856 6956-6958 TO denotes to
T3857 6959-6962 DT denotes the
T3858 6963-6973 NN denotes regulation
T3859 6974-6976 IN denotes of
T3860 6977-6981 NN denotes cell
T3861 6982-6995 NN denotes proliferation
T3862 6996-6999 CC denotes and
T3863 7000-7008 NN denotes survival
T3864 7009-7010 -LRB- denotes (
T3865 7010-7018 VB denotes reviewed
T3866 7019-7021 IN denotes in
T3867 7022-7023 -LRB- denotes [
T3868 7023-7025 CD denotes 20
T3869 7025-7026 -RRB- denotes ]
T3870 7026-7027 -RRB- denotes )
T3871 7029-7031 TO denotes To
T3872 7032-7043 VB denotes investigate
T3873 7044-7047 DT denotes the
T3874 7048-7054 NN denotes effect
T3875 7055-7059 IN denotes that
T3876 7060-7064 NN denotes loss
T3877 7065-7067 IN denotes of
T3878 7068-7071 NN denotes PKD
T3879 7072-7079 NN denotes kinases
T3880 7080-7083 VB denotes had
T3881 7084-7086 IN denotes on
T3882 7087-7088 NN denotes B
T3883 7089-7093 NN denotes cell
T3884 7094-7102 NN denotes survival
T3885 7103-7109 CC denotes and/or
T3886 7110-7123 NN denotes proliferation
T3887 7124-7126 PRP denotes we
T3888 7127-7135 VB denotes cultured
T3889 7136-7145 JJ denotes wild-type
T3890 7146-7149 CC denotes and
T3891 7150-7158 JJ denotes PKD-null
T3892 7159-7164 NN denotes cells
T3893 7165-7167 IN denotes in
T3894 7168-7171 DT denotes the
T3895 7172-7180 NN denotes presence
T3896 7181-7182 -LRB- denotes (
T3897 7182-7191 NN denotes PKD1/3−/−
T3898 7191-7192 -COLON- denotes :
T3899 7193-7205 NN denotes Flag-PKD3+ve
T3900 7205-7206 -RRB- denotes )
T3901 7207-7209 CC denotes or
T3902 7210-7217 NN denotes absence
T3903 7218-7219 -LRB- denotes (
T3904 7219-7228 NN denotes PKD1/3−/−
T3905 7228-7229 -RRB- denotes )
T3906 7230-7232 IN denotes of
T3907 7233-7244 NN denotes doxycycline
T3908 7245-7248 CC denotes and
T3909 7249-7258 VB denotes monitored
T3910 7259-7270 JJ denotes exponential
T3911 7271-7277 NN denotes growth
T3912 7279-7281 IN denotes As
T3913 7282-7287 VB denotes shown
T3914 7288-7290 IN denotes in
T3915 7291-7295 NNP denotes Fig.
T3916 7296-7298 NN denotes 2A
T3917 7298-7299 -COMMA- denotes ,
T3918 7300-7309 NN denotes PKD1/3−/−
T3919 7310-7315 NN denotes cells
T3920 7316-7328 VB denotes proliferated
T3921 7329-7342 RB denotes exponentially
T3922 7343-7346 CC denotes and
T3923 7347-7360 NN denotes re-expression
T3924 7361-7363 IN denotes of
T3925 7364-7373 NN denotes Flag-PKD3
T3926 7374-7376 IN denotes in
T3927 7377-7382 DT denotes these
T3928 7383-7388 NN denotes cells
T3929 7389-7392 VB denotes had
T3930 7393-7395 DT denotes no
T3931 7396-7402 NN denotes impact
T3932 7403-7405 IN denotes on
T3933 7406-7409 DT denotes the
T3934 7410-7414 NN denotes rate
T3935 7415-7417 IN denotes of
T3936 7418-7431 NN denotes proliferation
T3937 7433-7444 RB denotes Furthermore
T3938 7444-7445 -COMMA- denotes ,
T3939 7446-7449 DT denotes the
T3940 7450-7459 NN denotes viability
T3941 7460-7462 IN denotes of
T3942 7463-7472 NN denotes PKD1/3−/−
T3943 7473-7474 NN denotes B
T3944 7475-7480 NN denotes cells
T3945 7481-7487 IN denotes during
T3946 7488-7495 JJ denotes routine
T3947 7496-7505 NN denotes culturing
T3948 7506-7509 VB denotes was
T3949 7510-7513 RB denotes not
T3950 7514-7527 RB denotes significantly
T3951 7528-7537 JJ denotes different
T3952 7538-7542 IN denotes from
T3953 7543-7547 DT denotes that
T3954 7548-7550 IN denotes of
T3955 7551-7560 JJ denotes wild-type
T3956 7561-7562 NN denotes B
T3957 7563-7568 NN denotes cells
T3958 7569-7570 -LRB- denotes (
T3959 7570-7574 NN denotes data
T3960 7575-7578 RB denotes not
T3961 7579-7584 VB denotes shown
T3962 7584-7585 -RRB- denotes )
T3963 7587-7589 PRP denotes It
T3964 7590-7593 VB denotes was
T3965 7594-7599 VB denotes noted
T3966 7600-7604 IN denotes that
T3967 7605-7608 DT denotes the
T3968 7609-7619 NN denotes population
T3969 7620-7628 NN denotes doubling
T3970 7629-7633 NN denotes time
T3971 7634-7636 IN denotes of
T3972 7637-7646 NN denotes PKD1/3−/−
T3973 7647-7652 NN denotes cells
T3974 7653-7656 VB denotes was
T3975 7657-7665 RB denotes slightly
T3976 7666-7672 JJ denotes slower
T3977 7673-7677 IN denotes than
T3978 7678-7682 DT denotes that
T3979 7683-7685 IN denotes of
T3980 7686-7690 JJ denotes wild
T3981 7691-7695 NN denotes type
T3982 7696-7700 NN denotes DT40
T3983 7701-7706 NN denotes cells
T3984 7707-7708 -LRB- denotes (
T3985 7708-7720 CD denotes 12.7 ± 2.8 h
T3986 7721-7727 IN denotes versus
T3987 7728-7740 CD denotes 10.2 ± 0.4 h
T3988 7740-7741 -RRB- denotes )
T3989 7742-7745 CC denotes but
T3990 7746-7749 DT denotes the
T3991 7750-7757 NN denotes failure
T3992 7758-7760 IN denotes of
T3993 7761-7765 NN denotes PKD3
T3994 7766-7779 NN denotes re-expression
T3995 7780-7782 TO denotes to
T3996 7783-7789 VB denotes modify
T3997 7790-7793 DT denotes the
T3998 7794-7807 NN denotes proliferation
T3999 7808-7812 NN denotes rate
T4000 7813-7815 IN denotes of
T4001 7816-7825 NN denotes PKD1/3−/−
T4002 7826-7831 NN denotes cells
T4003 7832-7840 VB denotes suggests
T4004 7841-7845 IN denotes that
T4005 7846-7851 DT denotes these
T4006 7852-7857 JJ denotes small
T4007 7858-7869 NN denotes differences
T4008 7870-7874 VB denotes were
T4009 7875-7879 RB denotes most
T4010 7880-7886 RB denotes likely
T4011 7887-7890 DT denotes the
T4012 7891-7897 NN denotes result
T4013 7898-7900 IN denotes of
T4014 7901-7907 JJ denotes clonal
T4015 7908-7917 NN denotes variation
T4016 7918-7921 CC denotes and
T4017 7922-7926 VB denotes were
T4018 7927-7930 RB denotes not
T4019 7931-7937 VB denotes caused
T4020 7938-7950 RB denotes specifically
T4021 7951-7953 IN denotes by
T4022 7954-7958 NN denotes loss
T4023 7959-7961 IN denotes of
T4024 7962-7965 NN denotes PKD
T4025 7966-7973 NN denotes enzymes
T4026 7975-7979 RB denotes Thus
T4027 7979-7980 -COMMA- denotes ,
T4028 7981-7984 NN denotes PKD
T4029 7985-7991 NN denotes family
T4030 7992-7999 NN denotes enzymes
T4031 8000-8003 VB denotes are
T4032 8004-8007 RB denotes not
T4033 8008-8017 JJ denotes essential
T4034 8018-8021 IN denotes for
T4035 8022-8032 VB denotes regulating
T4036 8033-8038 JJ denotes basal
T4037 8039-8047 NN denotes survival
T4038 8048-8051 CC denotes and
T4039 8052-8065 NN denotes proliferation
T4040 8066-8068 IN denotes of
T4041 8069-8073 NN denotes DT40
T4042 8074-8075 NN denotes B
T4043 8076-8081 NN denotes cells
T4044 8083-8086 NN denotes PKD
T4045 8087-8094 NN denotes enzymes
T4046 8094-8095 -COMMA- denotes ,
T4047 8096-8108 RB denotes specifically
T4048 8109-8113 NN denotes PKD1
T4049 8114-8117 CC denotes and
T4050 8118-8122 NN denotes PKD2
T4051 8122-8123 -COMMA- denotes ,
T4052 8124-8128 VB denotes have
T4053 8129-8139 RB denotes previously
T4054 8140-8144 VB denotes been
T4055 8145-8151 VB denotes linked
T4056 8152-8154 TO denotes to
T4057 8155-8156 DT denotes a
T4058 8157-8167 JJ denotes protective
T4059 8168-8172 NN denotes role
T4060 8173-8180 IN denotes against
T4061 8181-8190 JJ denotes oxidative
T4062 8191-8205 JJ denotes stress-induced
T4063 8206-8212 NN denotes injury
T4064 8213-8215 IN denotes in
T4065 8216-8219 NN denotes 3T3
T4066 8220-8230 NN denotes fibroblast
T4067 8230-8231 -COMMA- denotes ,
T4068 8232-8236 NN denotes HeLa
T4069 8237-8240 CC denotes and
T4070 8241-8251 JJ denotes epithelial
T4071 8252-8256 NN denotes cell
T4072 8257-8262 NN denotes lines
T4073 8263-8264 -LRB- denotes [
T4074 8264-8272 CD denotes 17,30–32
T4075 8272-8273 -RRB- denotes ]
T4076 8275-8277 PRP denotes We
T4077 8278-8287 RB denotes therefore
T4078 8288-8297 VB denotes addressed
T4079 8298-8301 DT denotes the
T4080 8302-8306 NN denotes role
T4081 8307-8309 IN denotes of
T4082 8310-8313 NN denotes PKD
T4083 8314-8320 NN denotes family
T4084 8321-8328 NN denotes kinases
T4085 8329-8331 IN denotes in
T4086 8332-8342 VB denotes regulating
T4087 8343-8344 NN denotes B
T4088 8345-8349 NN denotes cell
T4089 8350-8358 NN denotes survival
T4090 8359-8361 IN denotes in
T4091 8362-8370 NN denotes response
T4092 8371-8373 TO denotes to
T4093 8374-8383 JJ denotes oxidative
T4094 8384-8390 NN denotes stress
T4095 8391-8394 CC denotes and
T4096 8395-8400 JJ denotes other
T4097 8401-8407 NN denotes stress
T4098 8408-8415 NN denotes stimuli
T4099 8417-8419 IN denotes As
T4100 8420-8425 VB denotes shown
T4101 8426-8428 IN denotes in
T4102 8429-8433 NNP denotes Fig.
T4103 8434-8436 NN denotes 2B
T4104 8436-8437 -COMMA- denotes ,
T4105 8438-8442 NN denotes loss
T4106 8443-8445 IN denotes of
T4107 8446-8452 NN denotes PKD1/3
T4108 8453-8463 NN denotes expression
T4109 8464-8467 VB denotes had
T4110 8468-8470 DT denotes no
T4111 8471-8482 JJ denotes significant
T4112 8483-8489 NN denotes impact
T4113 8490-8492 IN denotes on
T4114 8493-8496 DT denotes the
T4115 8497-8505 NN denotes survival
T4116 8506-8508 IN denotes of
T4117 8509-8513 NN denotes DT40
T4118 8514-8515 NN denotes B
T4119 8516-8521 NN denotes cells
T4120 8522-8524 IN denotes in
T4121 8525-8533 NN denotes response
T4122 8534-8536 TO denotes to
T4123 8537-8550 JJ denotes mitochondrial
T4124 8551-8557 NN denotes stress
T4125 8558-8565 NN denotes stimuli
T4126 8566-8567 -LRB- denotes (
T4127 8567-8571 NN denotes H2O2
T4128 8572-8574 CC denotes or
T4129 8575-8580 NN denotes serum
T4130 8581-8592 NN denotes deprivation
T4131 8592-8593 -RRB- denotes )
T4132 8593-8594 -COLON- denotes ;
T4133 8595-8598 NN denotes DNA
T4134 8599-8607 NN denotes damaging
T4135 8608-8614 NN denotes agents
T4136 8615-8616 -LRB- denotes (
T4137 8616-8625 NN denotes etoposide
T4138 8626-8628 CC denotes or
T4139 8629-8640 NN denotes doxorubicin
T4140 8640-8641 -RRB- denotes )
T4141 8641-8642 -COLON- denotes ;
T4142 8643-8645 NN denotes ER
T4143 8646-8653 NN denotes pathway
T4144 8654-8660 NN denotes stress
T4145 8661-8664 IN denotes due
T4146 8665-8667 TO denotes to
T4147 8668-8675 NN denotes calcium
T4148 8676-8684 NN denotes overload
T4149 8685-8686 -LRB- denotes (
T4150 8686-8698 NN denotes thapsigargin
T4151 8698-8699 -RRB- denotes )
T4152 8700-8702 CC denotes or
T4153 8703-8712 VB denotes following
T4154 8713-8722 VB denotes prolonged
T4155 8723-8732 NN denotes treatment
T4156 8733-8737 IN denotes with
T4157 8738-8745 NN denotes phorbol
T4158 8746-8752 NN denotes esters
T4159 8753-8755 CC denotes or
T4160 8756-8768 NN denotes Trichostatin
T4161 8769-8770 NN denotes A
T4162 8770-8771 -COMMA- denotes ,
T4163 8772-8774 DT denotes an
T4164 8775-8784 NN denotes inhibitor
T4165 8785-8787 IN denotes of
T4166 8788-8793 NN denotes class
T4167 8794-8798 NN denotes I/II
T4168 8799-8804 NN denotes HDACs
T4169 8806-8810 RB denotes Thus
T4170 8810-8811 -COMMA- denotes ,
T4171 8812-8815 NN denotes PKD
T4172 8816-8823 NN denotes kinases
T4173 8824-8826 VB denotes do
T4174 8827-8830 RB denotes not
T4175 8831-8835 VB denotes play
T4176 8836-8838 DT denotes an
T4177 8839-8848 JJ denotes essential
T4178 8849-8853 NN denotes role
T4179 8854-8856 IN denotes in
T4180 8857-8867 VB denotes regulating
T4181 8868-8869 NN denotes B
T4182 8870-8874 NN denotes cell
T4183 8875-8883 NN denotes survival
T4184 8884-8886 IN denotes in
T4185 8887-8895 NN denotes response
T4186 8896-8898 TO denotes to
T4187 8899-8900 DT denotes a
T4188 8901-8906 NN denotes range
T4189 8907-8909 IN denotes of
T4190 8910-8919 JJ denotes different
T4191 8920-8926 NN denotes stress
T4192 8927-8934 NN denotes stimuli
T5032 8950-8958 NN denotes receptor
T5033 8959-8968 VB denotes regulated
T5034 8969-8979 NN denotes signalling
T5035 8980-8988 NN denotes pathways
T5036 8989-8991 IN denotes in
T5037 8992-9000 JJ denotes PKD-null
T5038 9001-9005 NN denotes DT40
T5039 9006-9007 NN denotes B
T5040 9008-9013 NN denotes cells
T5041 9014-9016 TO denotes To
T5042 9017-9024 RB denotes further
T5043 9025-9032 VB denotes explore
T5044 9033-9036 DT denotes the
T5045 9037-9049 NN denotes contribution
T5046 9050-9052 IN denotes of
T5047 9053-9056 NN denotes PKD
T5048 9057-9064 NN denotes kinases
T5049 9065-9067 TO denotes to
T5050 9068-9072 NN denotes DT40
T5051 9073-9074 NN denotes B
T5052 9075-9079 NN denotes cell
T5053 9080-9087 NN denotes biology
T5054 9088-9090 PRP denotes we
T5055 9091-9103 VB denotes investigated
T5056 9104-9111 IN denotes whether
T5057 9112-9120 JJ denotes specific
T5058 9121-9134 JJ denotes BCR-regulated
T5059 9135-9145 NN denotes signalling
T5060 9146-9152 NN denotes events
T5061 9153-9157 VB denotes were
T5062 9158-9167 JJ denotes defective
T5063 9168-9170 IN denotes in
T5064 9171-9174 DT denotes the
T5065 9175-9183 JJ denotes PKD-null
T5066 9184-9185 NN denotes B
T5067 9186-9191 NN denotes cells
T5068 9193-9200 JJ denotes Initial
T5069 9201-9212 NN denotes experiments
T5070 9213-9221 VB denotes revealed
T5071 9222-9226 IN denotes that
T5072 9227-9234 NN denotes surface
T5073 9235-9245 NN denotes expression
T5074 9246-9248 IN denotes of
T5075 9249-9252 DT denotes the
T5076 9253-9256 NN denotes BCR
T5077 9257-9260 VB denotes was
T5078 9261-9268 VB denotes reduced
T5079 9269-9271 IN denotes in
T5080 9272-9281 NN denotes PKD1/3−/−
T5081 9282-9283 -LRB- denotes (
T5082 9283-9286 CC denotes and
T5083 9287-9289 IN denotes in
T5084 9290-9299 NN denotes PKD1/3−/−
T5085 9299-9300 -COLON- denotes :
T5086 9300-9312 NN denotes Flag-PKD3+ve
T5087 9312-9313 -RRB- denotes )
T5088 9314-9319 NN denotes cells
T5089 9320-9328 VB denotes compared
T5090 9329-9331 TO denotes to
T5091 9332-9341 JJ denotes wild-type
T5092 9342-9346 NN denotes DT40
T5093 9347-9348 NN denotes B
T5094 9349-9354 NN denotes cells
T5095 9355-9356 -LRB- denotes (
T5096 9356-9360 NN denotes Fig.
T5097 9361-9363 NN denotes 3A
T5098 9364-9367 CC denotes and
T5099 9368-9372 NN denotes data
T5100 9373-9376 RB denotes not
T5101 9377-9382 VB denotes shown
T5102 9382-9383 -RRB- denotes )
T5103 9385-9397 RB denotes Nevertheless
T5104 9397-9398 -COMMA- denotes ,
T5105 9399-9415 NN denotes BCR-crosslinking
T5106 9416-9418 IN denotes of
T5107 9419-9428 NN denotes PKD1/3−/−
T5108 9429-9434 NN denotes cells
T5109 9435-9438 VB denotes was
T5110 9439-9449 JJ denotes sufficient
T5111 9450-9452 TO denotes to
T5112 9453-9459 VB denotes induce
T5113 9460-9463 DT denotes the
T5114 9464-9474 NN denotes activation
T5115 9475-9477 IN denotes of
T5116 9478-9479 DT denotes a
T5117 9480-9486 NN denotes number
T5118 9487-9489 IN denotes of
T5119 9490-9500 NN denotes signalling
T5120 9501-9509 NN denotes cascades
T5121 9509-9510 -COMMA- denotes ,
T5122 9511-9518 JJ denotes similar
T5123 9519-9521 TO denotes to
T5124 9522-9526 DT denotes that
T5125 9527-9535 VB denotes observed
T5126 9536-9538 IN denotes in
T5127 9539-9548 JJ denotes wild-type
T5128 9549-9554 NN denotes cells
T5129 9555-9556 -LRB- denotes (
T5130 9556-9560 NN denotes Fig.
T5131 9561-9563 NN denotes 3B
T5132 9563-9564 -RRB- denotes )
T5133 9566-9571 RB denotes Hence
T5134 9571-9572 -COMMA- denotes ,
T5135 9573-9584 JJ denotes BCR-induced
T5136 9585-9595 NN denotes activation
T5137 9596-9598 IN denotes of
T5138 9599-9602 DT denotes the
T5139 9603-9606 NN denotes Akt
T5140 9606-9607 -COMMA- denotes ,
T5141 9608-9616 NN denotes mTOR/p70
T5142 9617-9619 NN denotes S6
T5143 9620-9626 NN denotes kinase
T5144 9627-9628 -LRB- denotes (
T5145 9628-9630 IN denotes as
T5146 9631-9636 VB denotes shown
T5147 9637-9639 IN denotes by
T5148 9640-9642 NN denotes S6
T5149 9643-9652 JJ denotes ribosomal
T5150 9653-9660 NN denotes protein
T5151 9661-9676 NN denotes phosphorylation
T5152 9676-9677 -RRB- denotes )
T5153 9678-9681 CC denotes and
T5154 9682-9686 NN denotes MAPK
T5155 9687-9697 NN denotes signalling
T5156 9698-9706 NN denotes pathways
T5157 9707-9710 VB denotes was
T5158 9711-9718 RB denotes clearly
T5159 9719-9729 JJ denotes detectable
T5160 9730-9732 IN denotes in
T5161 9733-9744 JJ denotes PKD1/3-null
T5162 9745-9746 NN denotes B
T5163 9747-9752 NN denotes cells
T5164 9753-9754 -LRB- denotes (
T5165 9754-9758 NN denotes Fig.
T5166 9759-9761 NN denotes 3B
T5167 9761-9762 -RRB- denotes )
T5168 9764-9775 RB denotes Furthermore
T5169 9775-9776 -COMMA- denotes ,
T5170 9777-9785 VB denotes enhanced
T5171 9786-9794 NN denotes tyrosine
T5172 9795-9810 NN denotes phosphorylation
T5173 9811-9813 IN denotes of
T5174 9814-9822 JJ denotes multiple
T5175 9823-9831 JJ denotes cellular
T5176 9832-9840 NN denotes proteins
T5177 9841-9843 RB denotes as
T5178 9844-9848 RB denotes well
T5179 9849-9851 IN denotes as
T5180 9852-9854 DT denotes an
T5181 9855-9863 NN denotes increase
T5182 9864-9866 IN denotes in
T5183 9867-9880 JJ denotes intracellular
T5184 9881-9888 NN denotes calcium
T5185 9889-9895 NN denotes levels
T5186 9896-9899 VB denotes was
T5187 9900-9904 RB denotes also
T5188 9905-9913 VB denotes observed
T5189 9914-9923 VB denotes following
T5190 9924-9927 NN denotes BCR
T5191 9928-9939 NN denotes stimulation
T5192 9940-9942 IN denotes of
T5193 9943-9954 JJ denotes PKD1/3-null
T5194 9955-9956 NN denotes B
T5195 9957-9962 NN denotes cells
T5196 9963-9964 -LRB- denotes (
T5197 9964-9968 NN denotes data
T5198 9969-9972 RB denotes not
T5199 9973-9978 VB denotes shown
T5200 9978-9979 -RRB- denotes )
T5201 9981-9983 PRP denotes We
T5202 9984-9987 VB denotes did
T5203 9988-9995 VB denotes observe
T5204 9996-10000 IN denotes that
T5205 10001-10004 DT denotes the
T5206 10005-10013 NN denotes strength
T5207 10014-10016 IN denotes of
T5208 10017-10020 NN denotes BCR
T5209 10021-10022 -LRB- denotes (
T5210 10022-10025 CC denotes but
T5211 10026-10029 RB denotes not
T5212 10030-10037 NN denotes phorbol
T5213 10038-10043 NN denotes ester
T5214 10043-10044 -RRB- denotes )
T5215 10044-10052 JJ denotes -induced
T5216 10053-10063 NN denotes regulation
T5217 10064-10066 IN denotes of
T5218 10067-10070 DT denotes the
T5219 10071-10080 NN denotes Erk1-RSK1
T5220 10081-10091 NN denotes signalling
T5221 10092-10099 NN denotes pathway
T5222 10100-10103 VB denotes was
T5223 10104-10111 VB denotes reduced
T5224 10112-10114 IN denotes in
T5225 10115-10124 NN denotes PKD1/3−/−
T5226 10125-10126 NN denotes B
T5227 10127-10132 NN denotes cells
T5228 10133-10141 VB denotes compared
T5229 10142-10144 TO denotes to
T5230 10145-10154 JJ denotes wild-type
T5231 10155-10156 NN denotes B
T5232 10157-10162 NN denotes cells
T5233 10163-10164 -LRB- denotes (
T5234 10164-10168 NN denotes Fig.
T5235 10169-10171 NN denotes 3B
T5236 10171-10172 -RRB- denotes )
T5237 10174-10177 CD denotes One
T5238 10178-10192 NN denotes interpretation
T5239 10193-10195 IN denotes of
T5240 10196-10200 DT denotes this
T5241 10201-10205 NN denotes data
T5242 10206-10208 VB denotes is
T5243 10209-10213 IN denotes that
T5244 10214-10217 NN denotes PKD
T5245 10218-10225 NN denotes enzymes
T5246 10226-10229 MD denotes may
T5247 10230-10238 VB denotes modulate
T5248 10239-10242 NN denotes Erk
T5249 10243-10253 NN denotes activation
T5250 10255-10261 RB denotes Indeed
T5251 10261-10262 -COMMA- denotes ,
T5252 10263-10266 NN denotes PKD
T5253 10267-10274 NN denotes enzymes
T5254 10275-10279 VB denotes have
T5255 10280-10290 RB denotes previously
T5256 10291-10295 VB denotes been
T5257 10296-10302 VB denotes linked
T5258 10303-10305 TO denotes to
T5259 10306-10309 DT denotes the
T5260 10310-10316 NN denotes growth
T5261 10317-10333 JJ denotes factor-regulated
T5262 10334-10337 NN denotes Erk
T5263 10338-10348 NN denotes signalling
T5264 10349-10351 IN denotes in
T5265 10352-10362 NN denotes fibroblast
T5266 10363-10366 CC denotes and
T5267 10367-10378 JJ denotes endothelial
T5268 10379-10383 NN denotes cell
T5269 10384-10389 NN denotes lines
T5270 10390-10391 -LRB- denotes [
T5271 10391-10396 CD denotes 33–35
T5272 10396-10397 -RRB- denotes ]
T5273 10399-10406 RB denotes However
T5274 10406-10407 -COMMA- denotes ,
T5275 10408-10419 JJ denotes BCR-induced
T5276 10420-10423 NN denotes Erk
T5277 10424-10439 NN denotes phosphorylation
T5278 10440-10443 VB denotes was
T5279 10444-10448 RB denotes also
T5280 10449-10456 VB denotes reduced
T5281 10457-10459 IN denotes in
T5282 10460-10480 JJ denotes PKD1/3−/−-Flag-PKD3+
T5283 10481-10482 NN denotes B
T5284 10483-10488 NN denotes cells
T5285 10489-10490 -LRB- denotes (
T5286 10490-10494 NN denotes data
T5287 10495-10498 RB denotes not
T5288 10499-10504 VB denotes shown
T5289 10504-10505 -RRB- denotes )
T5290 10506-10516 VB denotes suggesting
T5291 10517-10521 IN denotes that
T5292 10522-10529 VB denotes reduced
T5293 10530-10533 NN denotes BCR
T5294 10534-10540 NN denotes levels
T5295 10541-10543 IN denotes on
T5296 10544-10547 DT denotes the
T5297 10548-10555 NN denotes surface
T5298 10556-10558 IN denotes of
T5299 10559-10568 NN denotes PKD1/3−/−
T5300 10569-10570 -LRB- denotes (
T5301 10570-10573 CC denotes and
T5302 10574-10594 JJ denotes PKD1/3−/−-Flag-PKD3+
T5303 10594-10595 -RRB- denotes )
T5304 10596-10597 NN denotes B
T5305 10598-10603 NN denotes cells
T5306 10604-10607 MD denotes may
T5307 10608-10614 PRP denotes itself
T5308 10615-10621 VB denotes impact
T5309 10622-10624 IN denotes on
T5310 10625-10628 DT denotes the
T5311 10629-10637 NN denotes strength
T5312 10638-10640 IN denotes of
T5313 10641-10651 NN denotes activation
T5314 10652-10654 IN denotes of
T5315 10655-10659 DT denotes this
T5316 10660-10668 JJ denotes specific
T5317 10669-10682 JJ denotes intracellular
T5318 10683-10693 NN denotes signalling
T5319 10694-10701 NN denotes pathway
T5320 10703-10705 TO denotes To
T5321 10706-10712 VB denotes search
T5322 10713-10716 IN denotes for
T5323 10717-10722 JJ denotes other
T5324 10723-10732 JJ denotes potential
T5325 10733-10736 NN denotes PKD
T5326 10737-10744 NN denotes targets
T5327 10745-10749 WDT denotes that
T5328 10750-10753 MD denotes may
T5329 10754-10758 VB denotes show
T5330 10759-10768 JJ denotes defective
T5331 10769-10779 NN denotes regulation
T5332 10780-10782 IN denotes in
T5333 10783-10792 NN denotes PKD1/3−/−
T5334 10793-10797 NN denotes DT40
T5335 10798-10799 NN denotes B
T5336 10800-10805 NN denotes cells
T5337 10805-10806 -COMMA- denotes ,
T5338 10807-10809 PRP denotes we
T5339 10810-10814 VB denotes used
T5340 10815-10816 DT denotes a
T5341 10817-10820 NN denotes PKD
T5342 10821-10830 NN denotes substrate
T5343 10831-10847 NN denotes phospho-antibody
T5344 10848-10852 WDT denotes that
T5345 10853-10863 VB denotes recognises
T5346 10864-10873 NN denotes consensus
T5347 10874-10889 NN denotes phosphorylation
T5348 10890-10899 NN denotes sequences
T5349 10900-10908 VB denotes targeted
T5350 10909-10911 IN denotes by
T5351 10912-10915 NN denotes PKD
T5352 10916-10923 NN denotes enzymes
T5353 10924-10925 -LRB- denotes (
T5354 10925-10934 NN denotes LxRxxpS/T
T5355 10934-10935 -RRB- denotes )
T5356 10936-10937 -LRB- denotes [
T5357 10937-10939 CD denotes 36
T5358 10939-10940 -RRB- denotes ]
T5359 10942-10944 IN denotes As
T5360 10945-10950 VB denotes shown
T5361 10951-10953 IN denotes in
T5362 10954-10958 NNP denotes Fig.
T5363 10959-10961 NNP denotes 3C
T5364 10961-10962 -COMMA- denotes ,
T5365 10963-10970 NN denotes phorbol
T5366 10971-10977 NN denotes ester-
T5367 10978-10981 CC denotes and
T5368 10982-10993 JJ denotes BCR-induced
T5369 10994-11009 NN denotes phosphorylation
T5370 11010-11012 IN denotes of
T5371 11013-11021 JJ denotes cellular
T5372 11022-11032 NN denotes substrates
T5373 11033-11041 VB denotes detected
T5374 11042-11044 IN denotes by
T5375 11045-11049 DT denotes this
T5376 11050-11066 NN denotes phospho-antibody
T5377 11067-11070 VB denotes was
T5378 11071-11078 JJ denotes similar
T5379 11079-11081 IN denotes in
T5380 11082-11091 JJ denotes wild-type
T5381 11092-11095 CC denotes and
T5382 11096-11105 NN denotes PKD1/3−/−
T5383 11106-11111 NN denotes cells
T5384 11112-11115 CC denotes and
T5385 11116-11118 VB denotes is
T5386 11119-11128 RB denotes therefore
T5387 11129-11140 JJ denotes independent
T5388 11141-11143 IN denotes of
T5389 11144-11147 NN denotes PKD
T5390 11148-11155 NN denotes enzymes
T5391 11157-11164 RB denotes However
T5392 11164-11165 -COMMA- denotes ,
T5393 11166-11178 NN denotes pretreatment
T5394 11179-11181 IN denotes of
T5395 11182-11186 CC denotes both
T5396 11187-11196 JJ denotes wild-type
T5397 11197-11200 CC denotes and
T5398 11201-11210 NN denotes PKD1/3−/−
T5399 11211-11215 NN denotes DT40
T5400 11216-11217 NN denotes B
T5401 11218-11223 NN denotes cells
T5402 11224-11228 IN denotes with
T5403 11229-11238 NN denotes GF109203X
T5404 11238-11239 -COMMA- denotes ,
T5405 11240-11241 DT denotes a
T5406 11242-11260 NN denotes bisindoylmaleimide
T5407 11261-11271 NN denotes derivative
T5408 11272-11276 WDT denotes that
T5409 11277-11285 VB denotes inhibits
T5410 11286-11290 NN denotes PKCs
T5411 11291-11300 VB denotes prevented
T5412 11301-11304 DT denotes the
T5413 11305-11314 NN denotes induction
T5414 11315-11317 IN denotes of
T5415 11318-11326 NN denotes proteins
T5416 11327-11331 WDT denotes that
T5417 11332-11339 VB denotes contain
T5418 11340-11354 VB denotes phosphorylated
T5419 11355-11363 NN denotes LxRxxS/T
T5420 11364-11370 NN denotes motifs
T5421 11372-11376 RB denotes Thus
T5422 11377-11381 NN denotes loss
T5423 11382-11384 IN denotes of
T5424 11385-11391 NN denotes PKD1/3
T5425 11392-11399 NN denotes enzymes
T5426 11400-11404 VB denotes does
T5427 11405-11408 RB denotes not
T5428 11409-11417 RB denotes globally
T5429 11418-11425 VB denotes disrupt
T5430 11426-11429 DT denotes the
T5431 11430-11445 NN denotes phosphorylation
T5432 11446-11448 IN denotes of
T5433 11449-11457 JJ denotes cellular
T5434 11458-11466 NN denotes proteins
T5435 11467-11471 WDT denotes that
T5436 11472-11479 VB denotes contain
T5437 11480-11489 NN denotes LxRxxpS/T
T5438 11490-11496 NN denotes motifs
T5439 11498-11502 DT denotes This
T5440 11503-11509 NN denotes result
T5441 11510-11512 VB denotes is
T5442 11513-11520 RB denotes perhaps
T5443 11521-11524 RB denotes not
T5444 11525-11535 JJ denotes surprising
T5445 11536-11538 IN denotes as
T5446 11539-11547 NN denotes LxRxxS/T
T5447 11548-11554 NN denotes motifs
T5448 11555-11559 RB denotes also
T5449 11560-11563 VB denotes act
T5450 11564-11566 IN denotes as
T5451 11567-11571 JJ denotes good
T5452 11572-11582 NN denotes substrates
T5453 11583-11586 IN denotes for
T5454 11587-11592 JJ denotes other
T5455 11593-11609 NN denotes serine/threonine
T5456 11610-11617 NN denotes kinases
T5457 11618-11622 JJ denotes such
T5458 11623-11625 IN denotes as
T5459 11626-11634 NN denotes MAPKAPK2
T5460 11636-11643 RB denotes However
T5461 11644-11649 DT denotes these
T5462 11650-11661 NN denotes experiments
T5463 11662-11664 VB denotes do
T5464 11665-11672 VB denotes provide
T5465 11673-11680 JJ denotes further
T5466 11681-11689 NN denotes evidence
T5467 11690-11694 IN denotes that
T5468 11695-11710 JJ denotes phosphospecific
T5469 11711-11719 NN denotes antisera
T5470 11720-11723 VB denotes are
T5471 11724-11727 RB denotes not
T5472 11728-11740 RB denotes sufficiently
T5473 11741-11750 JJ denotes selective
T5474 11751-11753 TO denotes to
T5475 11754-11756 VB denotes be
T5476 11757-11767 VB denotes designated
T5477 11768-11774 NN denotes kinase
T5478 11775-11783 JJ denotes specific
T5479 11784-11793 NN denotes substrate
T5480 11794-11802 NN denotes antisera
T5481 11804-11815 JJ denotes BCR-induced
T5482 11816-11826 NN denotes signalling
T5483 11827-11835 NN denotes pathways
T5484 11836-11845 VB denotes culminate
T5485 11846-11848 IN denotes in
T5486 11849-11852 DT denotes the
T5487 11853-11863 NN denotes activation
T5488 11864-11866 IN denotes of
T5489 11867-11871 NN denotes gene
T5490 11872-11885 NN denotes transcription
T5491 11886-11892 NN denotes events
T5492 11893-11897 WDT denotes that
T5493 11898-11905 VB denotes control
T5494 11906-11907 NN denotes B
T5495 11908-11912 NN denotes cell
T5496 11913-11921 NN denotes survival
T5497 11921-11922 -COMMA- denotes ,
T5498 11923-11936 NN denotes proliferation
T5499 11937-11940 CC denotes and
T5500 11941-11949 NN denotes function
T5501 11951-11953 IN denotes In
T5502 11954-11958 DT denotes this
T5503 11959-11966 NN denotes context
T5504 11966-11967 -COMMA- denotes ,
T5505 11968-11970 PRP denotes it
T5506 11971-11974 VB denotes has
T5507 11975-11979 VB denotes been
T5508 11980-11988 VB denotes proposed
T5509 11989-11993 IN denotes that
T5510 11994-11997 NN denotes PKD
T5511 11998-12004 NN denotes family
T5512 12005-12012 NN denotes members
T5513 12013-12020 NN denotes control
T5514 12021-12023 IN denotes of
T5515 12024-12028 NN denotes gene
T5516 12029-12042 NN denotes transcription
T5517 12043-12050 IN denotes through
T5518 12051-12061 NN denotes activation
T5519 12062-12064 IN denotes of
T5520 12065-12068 DT denotes the
T5521 12069-12073 NN denotes NFκB
T5522 12074-12087 NN denotes transcription
T5523 12088-12094 NN denotes factor
T5524 12096-12100 RB denotes Thus
T5525 12100-12101 -COMMA- denotes ,
T5526 12102-12114 JJ denotes PKD-mediated
T5527 12115-12125 NN denotes activation
T5528 12126-12128 IN denotes of
T5529 12129-12133 NN denotes NFκB
T5530 12134-12140 VB denotes occurs
T5531 12141-12151 RB denotes downstream
T5532 12152-12154 IN denotes of
T5533 12155-12156 DT denotes a
T5534 12157-12164 NN denotes variety
T5535 12165-12167 IN denotes of
T5536 12168-12177 JJ denotes different
T5537 12178-12185 NN denotes signals
T5538 12185-12186 -COMMA- denotes ,
T5539 12187-12196 VB denotes including
T5540 12197-12211 JJ denotes mROS/oxidative
T5541 12212-12218 NN denotes stress
T5542 12218-12219 -COMMA- denotes ,
T5543 12220-12236 JJ denotes lysophosphatidic
T5544 12237-12241 NN denotes acid
T5545 12242-12245 CC denotes and
T5546 12246-12249 DT denotes the
T5547 12250-12257 NN denotes Bcr-Abl
T5548 12258-12266 NN denotes oncogene
T5549 12267-12268 -LRB- denotes [
T5550 12268-12282 CD denotes 17,21,23,30,37
T5551 12282-12283 -RRB- denotes ]
T5552 12285-12296 RB denotes Furthermore
T5553 12296-12297 -COMMA- denotes ,
T5554 12298-12308 NN denotes expression
T5555 12309-12311 IN denotes of
T5556 12312-12314 DT denotes an
T5557 12315-12324 VB denotes activated
T5558 12325-12329 NN denotes PKD1
T5559 12330-12336 NN denotes mutant
T5560 12337-12345 VB denotes enhances
T5561 12346-12359 JJ denotes HPK1-mediated
T5562 12360-12364 NN denotes NFκB
T5563 12365-12375 NN denotes activation
T5564 12376-12377 -LRB- denotes [
T5565 12377-12379 CD denotes 38
T5566 12379-12380 -RRB- denotes ]
T5567 12382-12384 IN denotes In
T5568 12385-12386 NN denotes B
T5569 12387-12392 NN denotes cells
T5570 12392-12393 -COMMA- denotes ,
T5571 12394-12398 NN denotes NFκB
T5572 12399-12401 VB denotes is
T5573 12402-12407 VB denotes known
T5574 12408-12410 TO denotes to
T5575 12411-12413 VB denotes be
T5576 12414-12423 VB denotes regulated
T5577 12424-12427 IN denotes via
T5578 12428-12431 NN denotes DAG
T5579 12432-12435 CC denotes and
T5580 12436-12440 NN denotes PKCβ
T5581 12441-12442 -LRB- denotes [
T5582 12442-12447 CD denotes 39,40
T5583 12447-12448 -RRB- denotes ]
T5584 12449-12452 CC denotes but
T5585 12453-12460 IN denotes whether
T5586 12461-12465 NN denotes PKDs
T5587 12466-12469 VB denotes are
T5588 12470-12473 JJ denotes key
T5589 12474-12488 NN denotes intermediaries
T5590 12489-12492 IN denotes for
T5591 12493-12497 NN denotes NFκB
T5592 12498-12508 NN denotes regulation
T5593 12509-12512 VB denotes has
T5594 12513-12516 RB denotes not
T5595 12517-12521 VB denotes been
T5596 12522-12530 VB denotes explored
T5597 12532-12535 DT denotes The
T5598 12536-12540 NN denotes data
T5599 12541-12542 -LRB- denotes (
T5600 12542-12546 NNP denotes Fig.
T5601 12547-12549 NN denotes 4A
T5602 12549-12550 -RRB- denotes )
T5603 12551-12555 VB denotes show
T5604 12556-12560 IN denotes that
T5605 12561-12565 NN denotes NFκB
T5606 12566-12581 JJ denotes transcriptional
T5607 12582-12590 NN denotes activity
T5608 12591-12594 VB denotes was
T5609 12595-12603 RB denotes strongly
T5610 12604-12611 VB denotes induced
T5611 12612-12614 IN denotes in
T5612 12615-12619 CC denotes both
T5613 12620-12629 JJ denotes wild-type
T5614 12630-12633 CC denotes and
T5615 12634-12643 NN denotes PKD1/3−/−
T5616 12644-12648 NN denotes DT40
T5617 12649-12650 NN denotes B
T5618 12651-12656 NN denotes cells
T5619 12657-12659 IN denotes in
T5620 12660-12668 NN denotes response
T5621 12669-12671 TO denotes to
T5622 12672-12678 CC denotes either
T5623 12679-12686 NN denotes phorbol
T5624 12687-12692 NN denotes ester
T5625 12693-12695 CC denotes or
T5626 12696-12699 NN denotes BCR
T5627 12700-12711 NN denotes stimulation
T5628 12713-12715 IN denotes In
T5629 12716-12724 NN denotes contrast
T5630 12724-12725 -COMMA- denotes ,
T5631 12726-12729 NN denotes BCR
T5632 12730-12733 CC denotes and
T5633 12734-12741 NN denotes phorbol
T5634 12742-12755 JJ denotes ester-induced
T5635 12756-12760 NN denotes NFκB
T5636 12761-12776 JJ denotes transcriptional
T5637 12777-12785 NN denotes activity
T5638 12786-12789 VB denotes was
T5639 12790-12799 VB denotes abolished
T5640 12800-12802 IN denotes in
T5641 12803-12810 NN denotes PKCβ−/−
T5642 12811-12815 NN denotes DT40
T5643 12816-12817 NN denotes B
T5644 12818-12823 NN denotes cells
T5645 12824-12825 -LRB- denotes (
T5646 12825-12829 NN denotes Fig.
T5647 12830-12832 NN denotes 4A
T5648 12832-12833 -RRB- denotes )
T5649 12833-12834 -COMMA- denotes ,
T5650 12835-12843 IN denotes although
T5651 12844-12850 JJ denotes strong
T5652 12851-12861 NN denotes activation
T5653 12862-12864 IN denotes of
T5654 12865-12868 NN denotes PKD
T5655 12869-12876 NN denotes kinases
T5656 12877-12878 -LRB- denotes (
T5657 12878-12880 IN denotes as
T5658 12881-12889 VB denotes assessed
T5659 12890-12892 IN denotes by
T5660 12893-12912 NN denotes autophosphorylation
T5661 12913-12915 IN denotes of
T5662 12916-12920 NN denotes PKD1
T5663 12921-12923 IN denotes at
T5664 12924-12928 NN denotes S916
T5665 12928-12929 -RRB- denotes )
T5666 12930-12933 VB denotes was
T5667 12934-12942 VB denotes observed
T5668 12943-12945 IN denotes in
T5669 12946-12949 DT denotes the
T5670 12950-12957 NN denotes PKCβ−/−
T5671 12958-12963 NN denotes cells
T5672 12964-12965 -LRB- denotes (
T5673 12965-12969 NN denotes Fig.
T5674 12970-12972 NN denotes 4B
T5675 12972-12973 -RRB- denotes )
T5676 12975-12979 RB denotes Thus
T5677 12979-12980 -COMMA- denotes ,
T5678 12981-12984 NN denotes PKD
T5679 12985-12992 NN denotes kinases
T5680 12993-12996 VB denotes are
T5681 12997-13004 DT denotes neither
T5682 13005-13014 JJ denotes essential
T5683 13015-13018 CC denotes nor
T5684 13019-13029 JJ denotes sufficient
T5685 13030-13032 TO denotes to
T5686 13033-13040 VB denotes mediate
T5687 13041-13052 JJ denotes BCR-induced
T5688 13053-13057 NN denotes NFκB
T5689 13058-13068 NN denotes activation
T5690 13069-13071 IN denotes in
T5691 13072-13076 NN denotes DT40
T5692 13077-13078 NN denotes B
T5693 13079-13084 NN denotes cells
T5694 13085-13088 CC denotes and
T5695 13089-13094 RB denotes hence
T5696 13095-13097 VB denotes do
T5697 13098-13101 RB denotes not
T5698 13102-13113 VB denotes participate
T5699 13114-13116 IN denotes in
T5700 13117-13124 NN denotes DAG/PKC
T5701 13125-13133 VB denotes mediated
T5702 13134-13141 NN denotes control
T5703 13142-13144 IN denotes of
T5704 13145-13149 NN denotes NFκB
T7044 13174-13180 NN denotes kinase
T7045 13181-13182 NN denotes D
T7046 13183-13189 NN denotes serine
T7047 13190-13197 NN denotes kinases
T7048 13198-13202 VB denotes have
T7049 13203-13207 VB denotes been
T7050 13208-13216 VB denotes proposed
T7051 13217-13219 TO denotes to
T7052 13220-13228 VB denotes regulate
T7053 13229-13236 JJ denotes diverse
T7054 13237-13245 JJ denotes cellular
T7055 13246-13255 NN denotes functions
T7056 13256-13265 VB denotes including
T7057 13266-13269 DT denotes the
T7058 13270-13285 NN denotes phosphorylation
T7059 13286-13289 CC denotes and
T7060 13290-13297 JJ denotes nuclear
T7061 13298-13310 NN denotes localisation
T7062 13311-13313 IN denotes of
T7063 13314-13319 NN denotes class
T7064 13320-13322 CD denotes II
T7065 13323-13328 NN denotes HDACs
T7066 13329-13332 CC denotes and
T7067 13333-13336 DT denotes the
T7068 13337-13352 NN denotes phosphorylation
T7069 13353-13355 IN denotes of
T7070 13356-13361 NN denotes HSP27
T7071 13363-13365 PRP denotes It
T7072 13366-13369 VB denotes has
T7073 13370-13374 RB denotes also
T7074 13375-13379 VB denotes been
T7075 13380-13389 VB denotes suggested
T7076 13390-13394 IN denotes that
T7077 13395-13399 NN denotes PKDs
T7078 13400-13403 VB denotes act
T7079 13404-13406 IN denotes as
T7080 13407-13420 JJ denotes mitochondrial
T7081 13421-13428 NN denotes sensors
T7082 13429-13432 IN denotes for
T7083 13433-13442 JJ denotes oxidative
T7084 13443-13449 NN denotes stress
T7085 13450-13453 CC denotes and
T7086 13454-13458 VB denotes play
T7087 13459-13460 DT denotes a
T7088 13461-13465 NN denotes role
T7089 13466-13468 IN denotes in
T7090 13469-13479 VB denotes regulating
T7091 13480-13484 NN denotes NFκB
T7092 13485-13498 NN denotes transcription
T7093 13499-13506 NN denotes factors
T7094 13507-13508 -LRB- denotes [
T7095 13508-13510 CD denotes 41
T7096 13510-13511 -RRB- denotes ]
T7097 13513-13517 JJ denotes Most
T7098 13518-13520 IN denotes of
T7099 13521-13524 DT denotes the
T7100 13525-13529 NN denotes data
T7101 13530-13535 IN denotes about
T7102 13536-13539 DT denotes the
T7103 13540-13548 NN denotes function
T7104 13549-13551 IN denotes of
T7105 13552-13556 NN denotes PKDs
T7106 13557-13560 VB denotes has
T7107 13561-13565 VB denotes come
T7108 13566-13570 IN denotes from
T7109 13571-13582 NN denotes experiments
T7110 13583-13587 WDT denotes that
T7111 13588-13599 RB denotes ectopically
T7112 13600-13607 VB denotes express
T7113 13608-13614 JJ denotes active
T7114 13615-13617 CC denotes or
T7115 13618-13628 JJ denotes inhibitory
T7116 13629-13632 NN denotes PKD
T7117 13633-13640 NN denotes mutants
T7118 13641-13643 CC denotes or
T7119 13644-13648 WDT denotes that
T7120 13649-13652 VB denotes use
T7121 13653-13657 NN denotes RNAi
T7122 13658-13660 TO denotes to
T7123 13661-13667 VB denotes reduce
T7124 13668-13671 NN denotes PKD
T7125 13672-13682 NN denotes expression
T7126 13684-13686 PRP denotes We
T7127 13687-13691 VB denotes have
T7128 13692-13696 VB denotes used
T7129 13697-13701 NN denotes gene
T7130 13702-13711 VB denotes targeting
T7131 13712-13714 TO denotes to
T7132 13715-13727 RB denotes specifically
T7133 13728-13734 VB denotes delete
T7134 13735-13738 NN denotes PKD
T7135 13739-13746 NN denotes alleles
T7136 13747-13749 IN denotes in
T7137 13750-13754 NN denotes DT40
T7138 13755-13762 NN denotes chicken
T7139 13763-13764 NN denotes B
T7140 13765-13770 NN denotes cells
T7141 13771-13774 CC denotes and
T7142 13775-13778 MD denotes can
T7143 13779-13783 RB denotes thus
T7144 13784-13787 VB denotes use
T7145 13788-13796 JJ denotes PKD-null
T7146 13797-13801 NN denotes DT40
T7147 13802-13807 NN denotes cells
T7148 13808-13810 TO denotes to
T7149 13811-13817 VB denotes assess
T7150 13818-13821 DT denotes the
T7151 13822-13830 JJ denotes relative
T7152 13831-13843 NN denotes contribution
T7153 13844-13846 IN denotes of
T7154 13847-13857 JJ denotes individual
T7155 13858-13861 NN denotes PKD
T7156 13862-13870 NN denotes isoforms
T7157 13871-13873 IN denotes in
T7158 13874-13879 NN denotes class
T7159 13880-13882 CD denotes II
T7160 13883-13887 NN denotes HDAC
T7161 13888-13895 NN denotes control
T7162 13896-13902 IN denotes versus
T7163 13903-13912 JJ denotes oxidative
T7164 13913-13919 NN denotes stress
T7165 13920-13929 NN denotes responses
T7166 13930-13933 CC denotes and
T7167 13934-13938 NN denotes NFκB
T7168 13939-13949 NN denotes regulation
T7169 13950-13952 IN denotes in
T7170 13953-13964 NN denotes lymphocytes
T7171 13966-13968 PRP denotes We
T7172 13969-13973 VB denotes have
T7173 13974-13984 RB denotes previously
T7174 13985-13989 VB denotes used
T7175 13990-13995 DT denotes these
T7176 13996-14004 JJ denotes PKD-null
T7177 14005-14009 NN denotes DT40
T7178 14010-14015 NN denotes cells
T7179 14016-14018 TO denotes to
T7180 14019-14025 VB denotes define
T7181 14026-14028 DT denotes an
T7182 14029-14038 JJ denotes essential
T7183 14039-14043 NN denotes role
T7184 14044-14047 IN denotes for
T7185 14048-14052 NN denotes PKDs
T7186 14053-14055 IN denotes in
T7187 14056-14066 NN denotes regulation
T7188 14067-14069 IN denotes of
T7189 14070-14075 NN denotes class
T7190 14076-14078 CD denotes II
T7191 14079-14084 NN denotes HDACs
T7192 14084-14085 -COMMA- denotes ,
T7193 14086-14089 DT denotes the
T7194 14090-14097 JJ denotes present
T7195 14098-14104 NN denotes report
T7196 14105-14108 RB denotes now
T7197 14109-14118 VB denotes describes
T7198 14119-14121 DT denotes an
T7199 14122-14135 JJ denotes indispensable
T7200 14136-14140 NN denotes role
T7201 14141-14144 IN denotes for
T7202 14145-14149 NN denotes PKDs
T7203 14150-14152 IN denotes in
T7204 14153-14163 VB denotes regulating
T7205 14164-14167 DT denotes the
T7206 14168-14183 NN denotes phosphorylation
T7207 14184-14186 IN denotes of
T7208 14187-14192 NN denotes HSP27
T7209 14193-14195 IN denotes on
T7210 14196-14202 NN denotes serine
T7211 14203-14205 CD denotes 82
T7212 14205-14206 -COMMA- denotes ,
T7213 14207-14208 DT denotes a
T7214 14209-14213 NN denotes site
T7215 14214-14224 RB denotes previously
T7216 14225-14235 VB denotes identified
T7217 14236-14238 IN denotes as
T7218 14239-14240 DT denotes a
T7219 14241-14247 NN denotes target
T7220 14248-14251 IN denotes for
T7221 14252-14255 DT denotes the
T7222 14256-14268 NN denotes p38-MAPKAPK2
T7223 14269-14279 NN denotes signalling
T7224 14280-14287 NN denotes cascade
T7225 14288-14289 -LRB- denotes [
T7226 14289-14291 CD denotes 42
T7227 14291-14292 -RRB- denotes ]
T7228 14294-14301 RB denotes However
T7229 14301-14302 -COMMA- denotes ,
T7230 14303-14310 NN denotes studies
T7231 14311-14313 IN denotes of
T7232 14314-14322 JJ denotes PKD-null
T7233 14323-14327 NN denotes DT40
T7234 14328-14333 NN denotes cells
T7235 14334-14340 VB denotes reveal
T7236 14341-14345 IN denotes that
T7237 14346-14349 NN denotes PKD
T7238 14350-14356 NN denotes family
T7239 14357-14364 NN denotes kinases
T7240 14365-14368 VB denotes are
T7241 14369-14372 RB denotes not
T7242 14373-14382 JJ denotes essential
T7243 14383-14386 IN denotes for
T7244 14387-14396 JJ denotes oxidative
T7245 14397-14403 NN denotes stress
T7246 14404-14412 NN denotes survival
T7247 14413-14422 NN denotes responses
T7248 14423-14426 CC denotes nor
T7249 14427-14430 VB denotes are
T7250 14431-14435 PRP denotes they
T7251 14436-14444 VB denotes required
T7252 14445-14448 IN denotes for
T7253 14449-14459 NN denotes activation
T7254 14460-14462 IN denotes of
T7255 14463-14467 NN denotes NFκB
T7256 14468-14481 NN denotes transcription
T7257 14482-14489 NN denotes factors
T7258 14491-14496 DT denotes These
T7259 14497-14503 JJ denotes latter
T7260 14504-14512 NN denotes findings
T7261 14513-14516 VB denotes are
T7262 14517-14519 IN denotes in
T7263 14520-14528 JJ denotes striking
T7264 14529-14537 NN denotes contrast
T7265 14538-14540 TO denotes to
T7266 14541-14549 JJ denotes previous
T7267 14550-14562 NN denotes observations
T7268 14563-14565 IN denotes in
T7269 14566-14570 NN denotes HeLa
T7270 14571-14574 CC denotes and
T7271 14575-14585 JJ denotes epithelial
T7272 14586-14590 NN denotes cell
T7273 14591-14596 NN denotes lines
T7274 14597-14602 WRB denotes where
T7275 14603-14622 NN denotes overexpression/RNAi
T7276 14623-14633 NN denotes approaches
T7277 14634-14638 VB denotes have
T7278 14639-14649 VB denotes implicated
T7279 14650-14656 NN denotes PKD1/2
T7280 14657-14659 IN denotes in
T7281 14660-14663 DT denotes the
T7282 14664-14671 NN denotes control
T7283 14672-14674 IN denotes of
T7284 14675-14688 NN denotes proliferation
T7285 14688-14689 -COMMA- denotes ,
T7286 14690-14698 NN denotes survival
T7287 14699-14702 CC denotes and
T7288 14703-14707 NN denotes NFκB
T7289 14708-14718 NN denotes activation
T7290 14719-14720 -LRB- denotes [
T7291 14720-14725 CD denotes 20,23
T7292 14725-14726 -RRB- denotes ]
T7293 14728-14733 RB denotes Hence
T7294 14733-14734 -COMMA- denotes ,
T7295 14735-14738 DT denotes the
T7296 14739-14746 JJ denotes present
T7297 14747-14753 NN denotes report
T7298 14754-14759 VB denotes shows
T7299 14760-14764 IN denotes that
T7300 14765-14768 DT denotes the
T7301 14769-14777 VB denotes proposed
T7302 14778-14783 NN denotes roles
T7303 14784-14787 IN denotes for
T7304 14788-14792 NN denotes PKDs
T7305 14793-14795 IN denotes as
T7306 14796-14799 JJ denotes key
T7307 14800-14807 NN denotes sensors
T7308 14808-14812 WDT denotes that
T7309 14813-14821 VB denotes modulate
T7310 14822-14830 NN denotes survival
T7311 14831-14839 NN denotes pathways
T7312 14840-14842 IN denotes in
T7313 14843-14851 NN denotes response
T7314 14852-14854 TO denotes to
T7315 14855-14864 JJ denotes oxidative
T7316 14865-14871 NN denotes stress
T7317 14872-14875 CC denotes and
T7318 14876-14884 VB denotes regulate
T7319 14885-14889 NN denotes cell
T7320 14890-14898 NN denotes survival
T7321 14899-14902 CC denotes and
T7322 14903-14916 NN denotes proliferation
T7323 14917-14920 VB denotes are
T7324 14921-14924 RB denotes not
T7325 14925-14935 JJ denotes ubiquitous
T7326 14936-14939 CC denotes and
T7327 14940-14943 MD denotes may
T7328 14944-14946 VB denotes be
T7329 14947-14957 JJ denotes restricted
T7330 14958-14960 TO denotes to
T7331 14961-14968 JJ denotes certain
T7332 14969-14973 NN denotes cell
T7333 14974-14982 NN denotes lineages
T7334 14984-14989 VB denotes Taken
T7335 14990-14998 RB denotes together
T7336 14998-14999 -COMMA- denotes ,
T7337 15000-15005 DT denotes these
T7338 15006-15010 NN denotes data
T7339 15011-15019 VB denotes indicate
T7340 15020-15024 IN denotes that
T7341 15025-15029 NN denotes loss
T7342 15030-15032 IN denotes of
T7343 15033-15043 NN denotes expression
T7344 15044-15046 IN denotes of
T7345 15047-15050 NN denotes PKD
T7346 15051-15057 NN denotes family
T7347 15058-15065 NN denotes members
T7348 15066-15070 VB denotes does
T7349 15071-15074 RB denotes not
T7350 15075-15083 RB denotes globally
T7351 15084-15090 NN denotes impact
T7352 15091-15093 IN denotes on
T7353 15094-15099 JJ denotes early
T7354 15100-15113 JJ denotes BCR-regulated
T7355 15114-15124 NN denotes signalling
T7356 15125-15133 NN denotes pathways
R10 T53 T52 arg2Of PKD,(
R100 T129 T127 arg1Of deacetylases,II
R101 T129 T128 arg1Of deacetylases,histone
R102 T129 T130 arg1Of deacetylases,in
R103 T132 T130 arg2Of lymphocytes,in
R104 T132 T131 arg1Of lymphocytes,B
R105 T135 T133 arg1Of Biol.,Mol.
R106 T135 T134 arg1Of Biol.,Cell
R107 T135 T136 arg1Of Biol.,26
R108 T135 T137 arg1Of Biol.,","
R109 T138 T137 arg2Of 1569–1577,","
R11 T54 T52 arg3Of ),(
R110 T138 T139 arg1Of 1569–1577,]
R111 T140 T142 arg1Of We,show
R112 T142 T141 arg1Of show,now
R113 T144 T145 arg1Of PKDs,are
R114 T144 T147 arg2Of PKDs,required
R115 T144 T149 arg1Of PKDs,regulate
R116 T147 T142 arg2Of required,show
R117 T147 T143 arg1Of required,that
R118 T147 T145 arg2Of required,are
R119 T147 T146 arg1Of required,also
R12 T55 T48 arg2Of enzymes,of
R120 T149 T147 arg3Of regulate,required
R121 T149 T148 arg1Of regulate,to
R122 T149 T152 arg1Of regulate,in
R123 T151 T149 arg2Of phosphorylation,regulate
R124 T151 T150 arg1Of phosphorylation,HSP27
R125 T154 T152 arg2Of B-cells,in
R126 T154 T153 arg1Of B-cells,DT40
R127 T158 T157 arg2Of contrast,in
R128 T158 T159 arg1Of contrast,to
R129 T161 T159 arg2Of observations,to
R13 T55 T51 arg1Of enzymes,D
R130 T161 T160 arg1Of observations,previous
R131 T161 T162 arg1Of observations,in
R132 T165 T162 arg2Of types,in
R133 T165 T163 arg1Of types,other
R134 T165 T164 arg1Of types,cell
R135 T168 T167 arg1Of enzymes,PKD
R136 T168 T169 arg1Of enzymes,do
R137 T168 T171 arg1Of enzymes,regulate
R138 T171 T155 arg1Of regulate,However
R139 T171 T156 arg1Of regulate,","
R14 T56 T45 arg1Of we,investigate
R140 T171 T157 arg1Of regulate,in
R141 T171 T166 arg1Of regulate,","
R142 T171 T169 arg2Of regulate,do
R143 T171 T170 arg1Of regulate,not
R1437 T1675 T1674 arg1Of culture,"Protein kinase D enzymes are dispensable for proliferation, survival and antigen receptor-regulated NFκB activity in vertebrate B-cells Abstract To investigate the importance of protein kinase D (PKD) enzymes we generated a PKD-null DT40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell"
R1438 T1675 T1676 arg1Of culture,","
R1439 T1676 T1679 arg1Of ",",and
R144 T174 T171 arg2Of processes,regulate
R1440 T1678 T1676 arg2Of transfections,","
R1441 T1678 T1677 arg1Of transfections,transient
R1442 T1681 T1679 arg2Of stimulation,and
R1443 T1681 T1680 arg1Of stimulation,cell
R1444 T1683 T1684 arg1Of generation,","
R1445 T1684 T1686 arg1Of ",",and
R1446 T1685 T1684 arg2Of culture,","
R1447 T1686 T1682 arg1Of and,The
R1448 T1686 T1688 arg1Of and,of
R1449 T1686 T1699 arg1Of and,have
R145 T174 T172 arg1Of processes,basic
R1450 T1686 T1700 arg1Of and,been
R1451 T1686 T1701 arg2Of and,described
R1452 T1687 T1686 arg2Of activation,and
R1453 T1689 T1690 arg1Of PKD1−/−,","
R1454 T1690 T1692 arg1Of ",",and
R1455 T1691 T1690 arg2Of PKD3−/−,","
R1456 T1693 T1692 arg2Of PKD1/3−/−,and
R1457 T1698 T1688 arg2Of lines,of
R1458 T1698 T1689 arg1Of lines,PKD1−/−
R1459 T1698 T1691 arg1Of lines,PKD3−/−
R146 T174 T173 arg1Of processes,cellular
R1460 T1698 T1693 arg1Of lines,PKD1/3−/−
R1461 T1698 T1694 arg1Of lines,knockout
R1462 T1698 T1695 arg1Of lines,DT40
R1463 T1698 T1696 arg1Of lines,B
R1464 T1698 T1697 arg1Of lines,cell
R1465 T1701 T1699 arg2Of described,have
R1466 T1701 T1700 arg2Of described,been
R1467 T1701 T1702 arg1Of described,previously
R1468 T1701 T1703 arg1Of described,[
R1469 T1704 T1703 arg2Of 1,[
R147 T174 T176 arg1Of processes,as
R1470 T1705 T1703 arg3Of ],[
R1471 T1706 T1707 arg1Of Cells,were
R1472 T1706 T1708 arg2Of Cells,lysed
R1473 T1708 T1707 arg2Of lysed,were
R1474 T1708 T1709 arg1Of lysed,and
R1475 T1711 T1710 arg1Of extracts,protein
R1476 T1711 T1712 arg1Of extracts,were
R1477 T1711 T1713 arg2Of extracts,analysed
R1478 T1713 T1709 arg2Of analysed,and
R1479 T1713 T1712 arg2Of analysed,were
R148 T176 T175 arg1Of as,such
R1480 T1713 T1714 arg1Of analysed,in
R1481 T1713 T1718 arg1Of analysed,as
R1482 T1717 T1714 arg2Of experiments,in
R1483 T1717 T1715 arg1Of experiments,Western
R1484 T1717 T1716 arg1Of experiments,blotting
R1485 T1720 T1719 arg1Of described,previously
R1486 T1722 T1718 arg2Of 1,as
R1487 T1722 T1720 arg1Of 1,described
R1488 T1722 T1721 arg2Of 1,[
R1489 T1723 T1721 arg3Of ],[
R149 T177 T178 arg1Of proliferation,or
R1490 T1727 T1724 arg1Of assays,Chloramphenicol
R1491 T1727 T1725 arg1Of assays,acetyl
R1492 T1727 T1726 arg1Of assays,transferase
R1493 T1727 T1728 arg1Of assays,have
R1494 T1727 T1729 arg1Of assays,been
R1495 T1727 T1730 arg2Of assays,described
R1496 T1730 T1728 arg2Of described,have
R1497 T1730 T1729 arg2Of described,been
R1498 T1730 T1731 arg1Of described,previously
R1499 T1730 T1732 arg1Of described,[
R15 T56 T57 arg1Of we,generated
R150 T178 T182 arg1Of or,nor
R1500 T1733 T1732 arg2Of 29,[
R1501 T1734 T1732 arg3Of ],[
R151 T180 T178 arg2Of responses,or
R152 T180 T179 arg1Of responses,survival
R153 T182 T176 arg2Of nor,as
R154 T182 T181 arg1Of nor,","
R155 T185 T182 arg2Of activity,nor
R156 T185 T183 arg1Of activity,NFκB
R157 T185 T184 arg1Of activity,transcriptional
R158 T185 T186 arg1Of activity,downstream
R159 T186 T187 arg1Of downstream,of
R1596 T1869 T1868 arg1Of staining,"Protein kinase D enzymes are dispensable for proliferation, survival and antigen receptor-regulated NFκB activity in vertebrate B-cells Abstract To investigate the importance of protein kinase D (PKD) enzymes we generated a PKD-null DT40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell culture, transient transfections and cell stimulation The generation, culture and activation of PKD1−/−, PKD3−/− and PKD1/3−/− knockout DT40 B cell lines have been described previously [1]. Cells were lysed and protein extracts were analysed in Western blotting experiments as previously described [1]. Chloramphenicol acetyl transferase assays have been described previously [29]. 2.2 sIgM"
R1597 T1872 T1879 arg1Of cells,were
R1598 T1872 T1870 arg1Of cells,DT40
R1599 T1872 T1871 arg1Of cells,B
R16 T57 T44 modOf generated,To
R160 T192 T187 arg2Of receptor,of
R1600 T1872 T1873 arg1Of cells,(
R1601 T1872 T1880 arg2Of cells,resuspended
R1602 T1875 T1874 arg1Of cells,2 × 106
R1603 T1875 T1876 arg1Of cells,per
R1604 T1875 T1873 arg2Of cells,(
R1605 T1877 T1876 arg2Of point,per
R1606 T1878 T1873 arg3Of ),(
R1607 T1880 T1879 arg2Of resuspended,were
R1608 T1880 T1881 arg1Of resuspended,in
R1609 T1883 T1881 arg2Of buffer,in
R161 T192 T188 arg1Of receptor,the
R1610 T1883 T1882 arg1Of buffer,200 μl
R1611 T1883 T1884 arg1Of buffer,(
R1612 T1883 T1895 arg1Of buffer,containing
R1613 T1887 T1884 arg2Of media,(
R1614 T1887 T1885 arg1Of media,RPMI
R1615 T1887 T1886 arg1Of media,1640
R1616 T1887 T1888 arg1Of media,","
R1617 T1889 T1890 arg1Of 1,%
R1618 T1893 T1888 arg2Of serum,","
R1619 T1893 T1889 arg1Of serum,1
R162 T192 T189 arg1Of receptor,B
R1620 T1893 T1891 arg1Of serum,foetal
R1621 T1893 T1892 arg1Of serum,calf
R1622 T1894 T1884 arg3Of ),(
R1623 T1899 T1895 arg2Of antibody,containing
R1624 T1899 T1896 arg1Of antibody,anti-chicken
R1625 T1899 T1897 arg1Of antibody,M1
R1626 T1899 T1898 arg1Of antibody,monoclonal
R1627 T1899 T1900 arg2Of antibody,conjugated
R1628 T1900 T1901 arg1Of conjugated,to
R1629 T1902 T1901 arg2Of FITC,to
R163 T192 T190 arg1Of receptor,cell
R1630 T1902 T1903 arg1Of FITC,for
R1631 T1904 T1903 arg2Of 20 min,for
R1632 T1904 T1905 arg1Of 20 min,on
R1633 T1906 T1905 arg2Of ice,on
R1634 T1908 T1907 arg1Of cells,The
R1635 T1908 T1909 arg1Of cells,were
R1636 T1908 T1910 arg2Of cells,washed
R1637 T1910 T1909 arg2Of washed,were
R1638 T1910 T1911 arg1Of washed,twice
R1639 T1910 T1912 arg1Of washed,and
R164 T192 T191 arg1Of receptor,antigen
R1640 T1914 T1913 arg1Of intensity,fluorescent
R1641 T1914 T1915 arg1Of intensity,was
R1642 T1914 T1916 arg2Of intensity,analysed
R1643 T1916 T1912 arg2Of analysed,and
R1644 T1916 T1915 arg2Of analysed,was
R1645 T1919 T1916 arg1Of cytometry,analysed
R1646 T1919 T1917 arg2Of cytometry,by
R1647 T1919 T1918 arg1Of cytometry,flow
R1648 T1921 T1920 arg1Of results,All
R1649 T1921 T1922 arg2Of results,shown
R165 T195 T196 arg1Of PKDs,have
R1650 T1921 T1923 arg1Of results,are
R1651 T1921 T1924 arg1Of results,representative
R1652 T1923 T1932 arg1Of are,unless
R1653 T1924 T1923 arg2Of representative,are
R1654 T1924 T1926 arg1Of representative,at
R1655 T1926 T1925 arg1Of at,of
R1656 T1927 T1928 arg1Of two,to
R1657 T1929 T1928 arg2Of four,to
R1658 T1931 T1926 arg2Of experiments,at
R1659 T1931 T1927 arg1Of experiments,two
R166 T196 T193 arg1Of have,Thus
R1660 T1931 T1930 arg1Of experiments,independent
R1661 T1934 T1932 arg2Of indicated,unless
R1662 T1934 T1933 arg1Of indicated,otherwise
R167 T196 T194 arg1Of have,","
R168 T196 T200 arg1Of have,in
R169 T199 T196 arg2Of role,have
R17 T63 T57 arg2Of line,generated
R170 T199 T197 arg1Of role,a
R171 T199 T198 arg1Of role,selective
R172 T203 T200 arg2Of biology,in
R173 T203 T201 arg1Of biology,DT40
R174 T203 T202 arg1Of biology,B-cell
R18 T63 T58 arg1Of line,a
R1887 T2288 T2289 arg1Of "Protein kinase D enzymes are dispensable for proliferation, survival and antigen receptor-regulated NFκB activity in vertebrate B-cells Abstract To investigate the importance of protein kinase D (PKD) enzymes we generated a PKD-null DT40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell culture, transient transfections and cell stimulation The generation, culture and activation of PKD1−/−, PKD3−/− and PKD1/3−/− knockout DT40 B cell lines have been described previously [1]. Cells were lysed and protein extracts were analysed in Western blotting experiments as previously described [1]. Chloramphenicol acetyl transferase assays have been described previously [29]. 2.2 sIgM staining DT40 B cells (2 × 106 cells per point) were resuspended in 200 μl buffer (RPMI 1640 media, 1% foetal calf serum) containing anti-chicken M1 monoclonal antibody conjugated to FITC for 20 min on ice. The cells were washed twice and fluorescent intensity was analysed by flow cytometry. All results shown are representative of at two to four independent experiments unless otherwise indicated. 3 Results 3.1 Loss",of
R1888 T2288 T2292 arg1Of "Protein kinase D enzymes are dispensable for proliferation, survival and antigen receptor-regulated NFκB activity in vertebrate B-cells Abstract To investigate the importance of protein kinase D (PKD) enzymes we generated a PKD-null DT40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell culture, transient transfections and cell stimulation The generation, culture and activation of PKD1−/−, PKD3−/− and PKD1/3−/− knockout DT40 B cell lines have been described previously [1]. Cells were lysed and protein extracts were analysed in Western blotting experiments as previously described [1]. Chloramphenicol acetyl transferase assays have been described previously [29]. 2.2 sIgM staining DT40 B cells (2 × 106 cells per point) were resuspended in 200 μl buffer (RPMI 1640 media, 1% foetal calf serum) containing anti-chicken M1 monoclonal antibody conjugated to FITC for 20 min on ice. The cells were washed twice and fluorescent intensity was analysed by flow cytometry. All results shown are representative of at two to four independent experiments unless otherwise indicated. 3 Results 3.1 Loss",in
R1889 T2291 T2289 arg2Of phosphorylation,of
R1890 T2291 T2290 arg1Of phosphorylation,HSP27
R1891 T2295 T2292 arg2Of cells,in
R1892 T2295 T2293 arg1Of cells,DT40
R1893 T2295 T2294 arg1Of cells,B
R1894 T2295 T2296 arg1Of cells,lacking
R1895 T2297 T2296 arg2Of expression,lacking
R1896 T2297 T2298 arg1Of expression,of
R1897 T2301 T2298 arg2Of kinases,of
R1898 T2301 T2299 arg1Of kinases,PKD
R1899 T2301 T2300 arg1Of kinases,family
R19 T63 T59 arg1Of line,PKD-null
R1900 T2304 T2302 arg1Of cells,DT40
R1901 T2304 T2303 arg1Of cells,B
R1902 T2304 T2305 arg1Of cells,express
R1903 T2308 T2305 arg2Of isoforms,express
R1904 T2308 T2306 arg1Of isoforms,two
R1905 T2308 T2307 arg1Of isoforms,PKD
R1906 T2308 T2309 arg1Of isoforms,","
R1907 T2310 T2311 arg1Of PKD1,and
R1908 T2311 T2309 arg2Of and,","
R1909 T2311 T2314 arg1Of and,and
R1910 T2311 T2315 arg1Of and,as
R1911 T2312 T2311 arg2Of PKD3,and
R1912 T2314 T2313 arg1Of and,","
R1913 T2317 T2315 arg2Of described,as
R1914 T2317 T2316 arg1Of described,previously
R1915 T2318 T2319 arg1Of we,have
R1916 T2318 T2321 arg1Of we,generated
R1917 T2321 T2317 arg3Of generated,described
R1918 T2321 T2319 arg2Of generated,have
R1919 T2321 T2320 arg1Of generated,recently
R1920 T2321 T2337 arg1Of generated,[
R1921 T2325 T2321 arg2Of lines,generated
R1922 T2325 T2322 arg1Of lines,DT40
R1923 T2325 T2323 arg1Of lines,B
R1924 T2325 T2324 arg1Of lines,cell
R1925 T2325 T2326 arg1Of lines,that
R1926 T2325 T2327 arg1Of lines,lack
R1927 T2328 T2329 arg1Of expression,of
R1928 T2328 T2334 arg1Of expression,or
R1929 T2331 T2332 arg1Of PKD1,or
R1930 T2332 T2329 arg2Of or,of
R1931 T2332 T2330 arg1Of or,either
R1932 T2333 T2332 arg2Of PKD3,or
R1933 T2334 T2327 arg2Of or,lack
R1934 T2336 T2334 arg2Of enzymes,or
R1935 T2336 T2335 arg1Of enzymes,both
R1936 T2338 T2337 arg2Of 1,[
R1937 T2339 T2337 arg3Of ],[
R1938 T2341 T2340 arg2Of generating,In
R1939 T2346 T2341 arg2Of lines,generating
R1940 T2346 T2342 arg1Of lines,the
R1941 T2346 T2343 arg1Of lines,double
R1942 T2346 T2344 arg1Of lines,knockout
R1943 T2346 T2345 arg1Of lines,cell
R1944 T2347 T2348 arg1Of we,targeted
R1945 T2348 T2340 arg1Of targeted,In
R1946 T2348 T2352 arg1Of targeted,in
R1947 T2351 T2348 arg2Of loci,targeted
R1948 T2351 T2349 arg1Of loci,the
R1949 T2351 T2350 arg1Of loci,PKD1
R1950 T2356 T2352 arg2Of line,in
R1951 T2356 T2353 arg1Of line,a
R1952 T2356 T2354 arg1Of line,PKD3−/−
R1953 T2356 T2355 arg1Of line,cell
R1954 T2356 T2357 arg1Of line,that
R1955 T2356 T2358 arg1Of line,expressed
R1956 T2358 T2362 arg1Of expressed,under
R1957 T2361 T2358 arg2Of transgene,expressed
R1958 T2361 T2359 arg1Of transgene,a
R1959 T2361 T2360 arg1Of transgene,Flag-PKD3
R1960 T2364 T2362 arg2Of control,under
R1961 T2364 T2363 arg1Of control,the
R1962 T2364 T2365 arg1Of control,of
R1963 T2368 T2365 arg2Of promoter,of
R1964 T2368 T2366 arg1Of promoter,a
R1965 T2368 T2367 arg1Of promoter,doxycycline-inducible
R1966 T2373 T2371 arg2Of presence,in
R1967 T2373 T2372 arg1Of presence,the
R1968 T2373 T2374 arg1Of presence,of
R1969 T2375 T2374 arg2Of doxycycline,of
R1970 T2378 T2377 arg1Of expression,Flag-PKD3
R1971 T2378 T2379 arg1Of expression,in
R1972 T2378 T2384 arg1Of expression,is
R1973 T2378 T2385 arg1Of expression,comparable
R1974 T2383 T2379 arg2Of cells,in
R1975 T2383 T2380 arg1Of cells,PKD1/3
R1976 T2383 T2381 arg1Of cells,double
R1977 T2383 T2382 arg1Of cells,knockout
R1978 T2384 T2394 arg1Of is,and
R1979 T2385 T2384 arg2Of comparable,is
R1980 T2385 T2386 arg1Of comparable,to
R1981 T2385 T2390 arg1Of comparable,in
R1982 T2388 T2386 arg2Of PKD3,to
R1983 T2388 T2387 arg1Of PKD3,endogenous
R1984 T2388 T2389 arg1Of PKD3,present
R1985 T2393 T2390 arg2Of cells,in
R1986 T2393 T2391 arg1Of cells,wild-type
R1987 T2393 T2392 arg1Of cells,DT40
R1988 T2394 T2369 arg1Of and,Hence
R1989 T2394 T2370 arg1Of and,","
R1990 T2394 T2371 arg1Of and,in
R1991 T2394 T2376 arg1Of and,","
R1992 T2395 T2396 arg1Of removal,of
R1993 T2395 T2405 arg1Of removal,results
R1994 T2397 T2396 arg2Of doxycycline,of
R1995 T2397 T2398 arg1Of doxycycline,from
R1996 T2397 T2402 arg1Of doxycycline,for
R1997 T2401 T2398 arg2Of media,from
R1998 T2401 T2399 arg1Of media,the
R1999 T2401 T2400 arg1Of media,culture
R20 T63 T60 arg1Of line,DT40
R2000 T2404 T2402 arg2Of days,for
R2001 T2404 T2403 arg1Of days,5
R2002 T2405 T2394 arg2Of results,and
R2003 T2405 T2406 arg1Of results,in
R2004 T2409 T2408 arg1Of null,completely
R2005 T2411 T2406 arg2Of phenotype,in
R2006 T2411 T2407 arg1Of phenotype,a
R2007 T2411 T2409 arg1Of phenotype,null
R2008 T2411 T2410 arg1Of phenotype,PKD
R2009 T2411 T2412 arg1Of phenotype,(
R2010 T2414 T2412 arg2Of 1A,(
R2011 T2414 T2413 arg1Of 1A,Fig.
R2012 T2415 T2412 arg3Of ),(
R2013 T2418 T2419 arg1Of we,have
R2014 T2418 T2420 arg1Of we,demonstrated
R2015 T2420 T2416 arg1Of demonstrated,Previously
R2016 T2420 T2417 arg1Of demonstrated,","
R2017 T2420 T2419 arg2Of demonstrated,have
R2018 T2422 T2423 arg1Of phosphorylation,and
R2019 T2423 T2426 arg1Of and,of
R2020 T2423 T2437 arg1Of and,is
R2021 T2423 T2438 arg1Of and,defective
R2022 T2423 T2444 arg1Of and,can
R2023 T2423 T2445 arg1Of and,restored
R2024 T2425 T2423 arg2Of exclusion,and
R2025 T2425 T2424 arg1Of exclusion,nuclear
R2026 T2430 T2426 arg2Of deacetylases,of
R2027 T2430 T2427 arg1Of deacetylases,class
R2028 T2430 T2428 arg1Of deacetylases,II
R2029 T2430 T2429 arg1Of deacetylases,histone
R2030 T2430 T2431 arg1Of deacetylases,(
R2031 T2430 T2434 arg1Of deacetylases,during
R2032 T2432 T2431 arg2Of HDACs,(
R2033 T2433 T2431 arg3Of ),(
R2034 T2436 T2434 arg2Of engagement,during
R2035 T2436 T2435 arg1Of engagement,BCR
R2036 T2437 T2443 arg1Of is,and
R2037 T2438 T2437 arg2Of defective,is
R2038 T2438 T2439 arg1Of defective,in
R2039 T2442 T2439 arg2Of cells,in
R2040 T2442 T2440 arg1Of cells,PKD1/3−/−
R2041 T2442 T2441 arg1Of cells,B
R2042 T2443 T2420 arg2Of and,demonstrated
R2043 T2443 T2421 arg1Of and,that
R2044 T2445 T2443 arg2Of restored,and
R2045 T2445 T2444 arg2Of restored,can
R2046 T2445 T2446 arg1Of restored,upon
R2047 T2447 T2446 arg2Of re-expression,upon
R2048 T2447 T2448 arg1Of re-expression,of
R2049 T2452 T2448 arg2Of isoform,of
R2050 T2452 T2449 arg1Of isoform,a
R2051 T2452 T2450 arg1Of isoform,single
R2052 T2452 T2451 arg1Of isoform,PKD
R2053 T2452 T2453 arg1Of isoform,[
R2054 T2454 T2453 arg2Of 1,[
R2055 T2455 T2453 arg3Of ],[
R2056 T2461 T2456 arg1Of HSP27,The
R2057 T2461 T2457 arg1Of HSP27,small
R2058 T2461 T2458 arg1Of HSP27,heat
R2059 T2461 T2459 arg1Of HSP27,shock
R2060 T2461 T2460 arg1Of HSP27,protein
R2061 T2461 T2462 arg1Of HSP27,has
R2062 T2461 T2464 arg1Of HSP27,been
R2063 T2461 T2465 arg2Of HSP27,proposed
R2064 T2465 T2462 arg2Of proposed,has
R2065 T2465 T2463 arg1Of proposed,recently
R2066 T2465 T2464 arg2Of proposed,been
R2067 T2465 T2466 arg1Of proposed,as
R2068 T2465 T2470 arg1Of proposed,[
R2069 T2465 T2473 arg1Of proposed,and
R2070 T2469 T2466 arg2Of substrate,as
R2071 T2469 T2467 arg1Of substrate,a
R2072 T2469 T2468 arg1Of substrate,PKD1
R2073 T2471 T2470 arg2Of 24,[
R2074 T2472 T2470 arg3Of ],[
R2075 T2474 T2476 arg1Of we,assessed
R2076 T2476 T2473 arg2Of assessed,and
R2077 T2476 T2475 arg1Of assessed,accordingly
R2078 T2480 T2478 arg1Of cells,PKD-null
R2079 T2480 T2479 arg1Of cells,DT40
R2080 T2480 T2481 arg1Of cells,have
R2081 T2481 T2476 arg2Of have,assessed
R2082 T2481 T2477 arg1Of have,whether
R2083 T2483 T2481 arg2Of phosphorylation,have
R2084 T2483 T2482 arg1Of phosphorylation,defective
R2085 T2483 T2484 arg1Of phosphorylation,of
R2086 T2485 T2484 arg2Of HSP27,of
R2087 T2485 T2486 arg1Of HSP27,on
R2088 T2485 T2489 arg1Of HSP27,","
R2089 T2487 T2486 arg2Of serine,on
R2090 T2487 T2488 arg1Of serine,82
R2091 T2494 T2489 arg2Of sequence,","
R2092 T2494 T2490 arg1Of sequence,the
R2093 T2494 T2491 arg2Of sequence,proposed
R2094 T2494 T2492 arg1Of sequence,PKD1
R2095 T2494 T2493 arg1Of sequence,substrate
R2096 T2495 T2497 arg1Of We,investigated
R2097 T2497 T2496 arg1Of investigated,initially
R2098 T2499 T2497 arg2Of regulation,investigated
R2099 T2499 T2498 arg1Of regulation,the
R21 T63 T61 arg1Of line,B-lymphocyte
R2100 T2499 T2500 arg1Of regulation,of
R2101 T2499 T2503 arg1Of regulation,in
R2102 T2502 T2500 arg2Of phosphorylation,of
R2103 T2502 T2501 arg1Of phosphorylation,HSP27
R2104 T2508 T2503 arg2Of cells,in
R2105 T2508 T2504 arg1Of cells,single
R2106 T2508 T2505 arg1Of cells,knockout
R2107 T2508 T2506 arg1Of cells,DT40
R2108 T2508 T2507 arg1Of cells,B
R2109 T2508 T2509 arg1Of cells,lacking
R2110 T2511 T2512 arg1Of PKD1,or
R2111 T2512 T2509 arg2Of or,lacking
R2112 T2512 T2510 arg1Of or,either
R2113 T2513 T2512 arg2Of PKD3,or
R2114 T2515 T2514 arg2Of shown,As
R2115 T2515 T2516 arg1Of shown,in
R2116 T2518 T2516 arg2Of 1B,in
R2117 T2518 T2517 arg1Of 1B,Fig.
R2118 T2520 T2521 arg1Of activation,of
R2119 T2520 T2524 arg1Of activation,or
R2120 T2523 T2521 arg2Of BCR,of
R2121 T2523 T2522 arg1Of BCR,the
R2122 T2524 T2530 arg1Of or,increased
R2123 T2525 T2524 arg2Of treatment,or
R2124 T2525 T2526 arg1Of treatment,with
R2125 T2529 T2526 arg2Of PdBu,with
R2126 T2529 T2527 arg1Of PdBu,the
R2127 T2529 T2528 arg1Of PdBu,DAG-mimetic
R2128 T2530 T2514 arg1Of increased,As
R2129 T2530 T2519 arg1Of increased,","
R2130 T2532 T2530 arg2Of levels,increased
R2131 T2532 T2531 arg1Of levels,the
R2132 T2532 T2533 arg1Of levels,of
R2133 T2535 T2533 arg2Of phosphorylation,of
R2134 T2535 T2534 arg1Of phosphorylation,HSP27
R2135 T2535 T2536 arg1Of phosphorylation,at
R2136 T2537 T2536 arg2Of S82,at
R2137 T2537 T2538 arg1Of S82,in
R2138 T2542 T2538 arg2Of cells,in
R2139 T2542 T2539 arg1Of cells,wild-type
R2140 T2542 T2540 arg1Of cells,DT40
R2141 T2542 T2541 arg1Of cells,B
R2142 T2543 T2544 arg1Of BCR,and
R2143 T2545 T2544 arg2Of phorbol,and
R2144 T2547 T2543 arg1Of signals,BCR
R2145 T2547 T2545 arg1Of signals,phorbol
R2146 T2547 T2546 arg1Of signals,ester
R2147 T2547 T2548 arg1Of signals,were
R2148 T2547 T2550 arg1Of signals,able
R2149 T2547 T2552 arg1Of signals,increase
R2150 T2548 T2549 arg1Of were,also
R2151 T2550 T2548 arg2Of able,were
R2152 T2552 T2550 arg2Of increase,able
R2153 T2552 T2551 arg1Of increase,to
R2154 T2554 T2552 arg2Of phosphorylation,increase
R2155 T2554 T2553 arg1Of phosphorylation,HSP27
R2156 T2554 T2555 arg1Of phosphorylation,in
R2157 T2556 T2557 arg1Of PKD1,or
R2158 T2558 T2557 arg2Of PKD3,or
R2159 T2563 T2555 arg2Of cells,in
R2160 T2563 T2556 arg1Of cells,PKD1
R2161 T2563 T2558 arg1Of cells,PKD3
R2162 T2563 T2559 arg1Of cells,single
R2163 T2563 T2560 arg1Of cells,knockout
R2164 T2563 T2561 arg1Of cells,DT40
R2165 T2563 T2562 arg1Of cells,B
R2166 T2563 T2564 arg1Of cells,(
R2167 T2566 T2564 arg2Of 1B,(
R2168 T2566 T2565 arg1Of 1B,Fig.
R2169 T2567 T2564 arg3Of ),(
R2170 T2570 T2571 arg1Of BCR-,and
R2171 T2571 T2577 arg1Of and,on
R2172 T2571 T2579 arg1Of and,was
R2173 T2571 T2580 arg2Of and,abolished
R2174 T2573 T2572 arg1Of ester-induced,phorbol
R2175 T2574 T2571 arg2Of phosphorylation,and
R2176 T2574 T2573 arg1Of phosphorylation,ester-induced
R2177 T2574 T2575 arg1Of phosphorylation,of
R2178 T2576 T2575 arg2Of HSP27,of
R2179 T2578 T2577 arg2Of S82,on
R2180 T2580 T2568 arg1Of abolished,However
R2181 T2580 T2569 arg1Of abolished,","
R2182 T2580 T2579 arg2Of abolished,was
R2183 T2580 T2581 arg1Of abolished,in
R2184 T2583 T2581 arg2Of cells,in
R2185 T2583 T2582 arg1Of cells,B
R2186 T2583 T2584 arg1Of cells,that
R2187 T2583 T2585 arg1Of cells,lacked
R2188 T2587 T2588 arg1Of PKD1,and
R2189 T2588 T2585 arg2Of and,lacked
R2190 T2588 T2586 arg1Of and,both
R2191 T2588 T2590 arg1Of and,(
R2192 T2589 T2588 arg2Of PKD3,and
R2193 T2592 T2590 arg2Of 1C,(
R2194 T2592 T2591 arg1Of 1C,Fig.
R2195 T2593 T2590 arg3Of ),(
R2196 T2597 T2596 arg1Of expression,doxycycline-induced
R2197 T2597 T2598 arg1Of expression,of
R2198 T2597 T2602 arg1Of expression,in
R2199 T2597 T2607 arg1Of expression,was
R22 T63 T62 arg1Of line,cell
R2200 T2597 T2608 arg1Of expression,sufficient
R2201 T2601 T2598 arg2Of transgene,of
R2202 T2601 T2599 arg1Of transgene,the
R2203 T2601 T2600 arg1Of transgene,Flag-PKD3
R2204 T2606 T2602 arg2Of cells,in
R2205 T2606 T2603 arg1Of cells,the
R2206 T2606 T2604 arg1Of cells,double
R2207 T2606 T2605 arg1Of cells,knockout
R2208 T2607 T2594 arg1Of was,Significantly
R2209 T2607 T2595 arg1Of was,","
R2210 T2607 T2609 modOf was,to
R2211 T2608 T2607 arg2Of sufficient,was
R2212 T2610 T2609 arg1Of restore,to
R2213 T2612 T2610 arg2Of regulation,restore
R2214 T2612 T2611 arg1Of regulation,normal
R2215 T2612 T2613 arg1Of regulation,of
R2216 T2615 T2613 arg2Of phosphorylation,of
R2217 T2615 T2614 arg1Of phosphorylation,HSP27
R2218 T2615 T2616 arg1Of phosphorylation,(
R2219 T2618 T2616 arg2Of 1C,(
R2220 T2618 T2617 arg1Of 1C,Fig.
R2221 T2619 T2616 arg3Of ),(
R2222 T2621 T2620 arg2Of contrast,In
R2223 T2623 T2624 arg1Of expression,of
R2224 T2623 T2630 arg1Of expression,in
R2225 T2623 T2635 arg1Of expression,was
R2226 T2623 T2637 arg1Of expression,able
R2227 T2623 T2639 arg1Of expression,restore
R2228 T2629 T2624 arg2Of protein,of
R2229 T2629 T2625 arg1Of protein,a
R2230 T2629 T2626 arg1Of protein,kinase-deficient
R2231 T2629 T2627 arg1Of protein,PKD3
R2232 T2629 T2628 arg1Of protein,mutant
R2233 T2634 T2630 arg2Of cells,in
R2234 T2634 T2631 arg1Of cells,the
R2235 T2634 T2632 arg1Of cells,double
R2236 T2634 T2633 arg1Of cells,knockout
R2237 T2635 T2620 arg1Of was,In
R2238 T2635 T2622 arg1Of was,","
R2239 T2635 T2636 arg1Of was,not
R2240 T2637 T2635 arg2Of able,was
R2241 T2639 T2637 arg2Of restore,able
R2242 T2639 T2638 arg1Of restore,to
R2243 T2640 T2641 arg1Of BCR-,or
R2244 T2641 T2639 arg2Of or,restore
R2245 T2645 T2641 arg2Of phosphorylation,or
R2246 T2645 T2642 arg1Of phosphorylation,phorbol
R2247 T2645 T2643 arg1Of phosphorylation,ester-induced
R2248 T2645 T2644 arg1Of phosphorylation,HSP27
R2249 T2645 T2646 arg1Of phosphorylation,(
R2250 T2648 T2646 arg2Of 1D,(
R2251 T2648 T2647 arg1Of 1D,Fig.
R2252 T2649 T2646 arg3Of ),(
R2253 T2652 T2655 arg1Of PKD3,as
R2254 T2655 T2653 arg1Of as,as
R2255 T2655 T2654 arg1Of as,well
R2256 T2655 T2657 arg1Of as,can
R2257 T2655 T2658 arg1Of as,regulate
R2258 T2656 T2655 arg2Of PKD1,as
R2259 T2658 T2657 arg2Of regulate,can
R2260 T2658 T2661 arg1Of regulate,and
R2261 T2660 T2658 arg2Of phosphorylation,regulate
R2262 T2660 T2659 arg1Of phosphorylation,HSP27
R2263 T2661 T2650 arg1Of and,Hence
R2264 T2661 T2651 arg1Of and,","
R2265 T2665 T2662 arg2Of cells,in
R2266 T2665 T2663 arg1Of cells,DT40
R2267 T2665 T2664 arg1Of cells,B
R2268 T2666 T2667 arg1Of they,are
R2269 T2666 T2669 arg2Of they,redundant
R2270 T2669 T2661 arg2Of redundant,and
R2271 T2669 T2662 arg1Of redundant,in
R2272 T2669 T2667 arg2Of redundant,are
R2273 T2669 T2668 arg1Of redundant,functionally
R2274 T2669 T2670 arg1Of redundant,as
R2275 T2672 T2670 arg2Of kinases,as
R2276 T2672 T2671 arg1Of kinases,HSP27
R23 T65 T66 arg1Of we,have
R24 T65 T67 arg1Of we,shown
R25 T67 T64 arg1Of shown,Previously
R26 T67 T66 arg2Of shown,have
R27 T69 T70 arg1Of PKDs,have
R28 T70 T67 arg2Of have,shown
R29 T70 T68 arg1Of have,that
R30 T70 T74 arg1Of have,in
R3056 T3837 T3838 arg1Of proliferation,and
R3057 T3838 T3836 arg1Of and,"Protein kinase D enzymes are dispensable for proliferation, survival and antigen receptor-regulated NFκB activity in vertebrate B-cells Abstract To investigate the importance of protein kinase D (PKD) enzymes we generated a PKD-null DT40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell culture, transient transfections and cell stimulation The generation, culture and activation of PKD1−/−, PKD3−/− and PKD1/3−/− knockout DT40 B cell lines have been described previously [1]. Cells were lysed and protein extracts were analysed in Western blotting experiments as previously described [1]. Chloramphenicol acetyl transferase assays have been described previously [29]. 2.2 sIgM staining DT40 B cells (2 × 106 cells per point) were resuspended in 200 μl buffer (RPMI 1640 media, 1% foetal calf serum) containing anti-chicken M1 monoclonal antibody conjugated to FITC for 20 min on ice. The cells were washed twice and fluorescent intensity was analysed by flow cytometry. All results shown are representative of at two to four independent experiments unless otherwise indicated. 3 Results 3.1 Loss of HSP27 phosphorylation in DT40 B cells lacking expression of PKD family kinases DT40 B cells express two PKD isoforms, PKD1 and PKD3, and as previously described we have recently generated DT40 B cell lines that lack expression of either PKD1 or PKD3 or both enzymes [1]. In generating the double knockout cell lines we targeted the PKD1 loci in a PKD3−/− cell line that expressed a Flag-PKD3 transgene under the control of a doxycycline-inducible promoter. Hence, in the presence of doxycycline, Flag-PKD3 expression in PKD1/3 double knockout cells is comparable to endogenous PKD3 present in wild-type DT40 cells and removal of doxycycline from the culture media for 5 days results in a completely null PKD phenotype (Fig. 1A). Previously, we have demonstrated that phosphorylation and nuclear exclusion of class II histone deacetylases (HDACs) during BCR engagement is defective in PKD1/3−/− B cells and can restored upon re-expression of a single PKD isoform [1]. The small heat shock protein HSP27 has recently been proposed as a PKD1 substrate [24] and we accordingly assessed whether PKD-null DT40 cells have defective phosphorylation of HSP27 on serine 82, the proposed PKD1 substrate sequence. We initially investigated the regulation of HSP27 phosphorylation in single knockout DT40 B cells lacking either PKD1 or PKD3. As shown in Fig. 1B, activation of the BCR or treatment with the DAG-mimetic PdBu increased the levels of HSP27 phosphorylation at S82 in wild-type DT40 B cells. BCR and phorbol ester signals were also able to increase HSP27 phosphorylation in PKD1 or PKD3 single knockout DT40 B cells (Fig. 1B). However, BCR- and phorbol ester-induced phosphorylation of HSP27 on S82 was abolished in B cells that lacked both PKD1 and PKD3 (Fig. 1C). Significantly, doxycycline-induced expression of the Flag-PKD3 transgene in the double knockout cells was sufficient to restore normal regulation of HSP27 phosphorylation (Fig. 1C). In contrast, expression of a kinase-deficient PKD3 mutant protein in the double knockout cells was not able to restore BCR- or phorbol ester-induced HSP27 phosphorylation (Fig. 1D). Hence, PKD3 as well as PKD1 can regulate HSP27 phosphorylation and in DT40 B cells they are functionally redundant as HSP27 kinases. 3.2 Cellular"
R3058 T3838 T3840 arg1Of and,in
R3059 T3839 T3838 arg2Of survival,and
R3060 T3843 T3840 arg2Of cells,in
R3061 T3843 T3841 arg1Of cells,DT40
R3062 T3843 T3842 arg1Of cells,B
R3063 T3843 T3844 arg1Of cells,lacking
R3064 T3845 T3844 arg2Of expression,lacking
R3065 T3845 T3846 arg1Of expression,of
R3066 T3849 T3846 arg2Of kinases,of
R3067 T3849 T3847 arg1Of kinases,PKD
R3068 T3849 T3848 arg1Of kinases,family
R3069 T3851 T3850 arg1Of enzymes,PKD
R3070 T3851 T3852 arg1Of enzymes,have
R3071 T3851 T3854 arg1Of enzymes,been
R3072 T3851 T3855 arg2Of enzymes,linked
R3073 T3855 T3852 arg2Of linked,have
R3074 T3855 T3853 arg1Of linked,previously
R3075 T3855 T3854 arg2Of linked,been
R3076 T3855 T3856 arg1Of linked,to
R3077 T3858 T3856 arg2Of regulation,to
R3078 T3858 T3857 arg1Of regulation,the
R3079 T3858 T3859 arg1Of regulation,of
R3080 T3861 T3862 arg1Of proliferation,and
R3081 T3862 T3859 arg2Of and,of
R3082 T3862 T3860 arg1Of and,cell
R3083 T3862 T3864 arg1Of and,(
R3084 T3863 T3862 arg2Of survival,and
R3085 T3865 T3864 arg2Of reviewed,(
R3086 T3865 T3866 arg1Of reviewed,in
R3087 T3865 T3867 arg1Of reviewed,[
R3088 T3868 T3867 arg2Of 20,[
R3089 T3869 T3867 arg3Of ],[
R3090 T3870 T3864 arg3Of ),(
R3091 T3872 T3871 arg1Of investigate,To
R3092 T3874 T3872 arg2Of effect,investigate
R3093 T3874 T3873 arg1Of effect,the
R3094 T3876 T3877 arg1Of loss,of
R3095 T3876 T3880 arg1Of loss,had
R3096 T3879 T3877 arg2Of kinases,of
R3097 T3879 T3878 arg1Of kinases,PKD
R3098 T3880 T3874 arg2Of had,effect
R3099 T3880 T3875 arg1Of had,that
R31 T73 T70 arg2Of role,have
R3100 T3880 T3881 arg1Of had,on
R3101 T3884 T3885 arg1Of survival,and/or
R3102 T3885 T3881 arg2Of and/or,on
R3103 T3885 T3882 arg1Of and/or,B
R3104 T3885 T3883 arg1Of and/or,cell
R3105 T3886 T3885 arg2Of proliferation,and/or
R3106 T3887 T3872 arg1Of we,investigate
R3107 T3887 T3888 arg1Of we,cultured
R3108 T3888 T3871 modOf cultured,To
R3109 T3888 T3893 arg1Of cultured,in
R3110 T3889 T3890 arg1Of wild-type,and
R3111 T3891 T3890 arg2Of PKD-null,and
R3112 T3892 T3888 arg2Of cells,cultured
R3113 T3892 T3889 arg1Of cells,wild-type
R3114 T3892 T3891 arg1Of cells,PKD-null
R3115 T3895 T3893 arg2Of presence,in
R3116 T3895 T3894 arg1Of presence,the
R3117 T3895 T3896 arg1Of presence,(
R3118 T3897 T3896 arg2Of PKD1/3−/−,(
R3119 T3898 T3896 arg3Of :,(
R3120 T3899 T3900 arg1Of Flag-PKD3+ve,)
R3121 T3899 T3901 arg1Of Flag-PKD3+ve,or
R3122 T3901 T3909 arg1Of or,monitored
R3123 T3902 T3901 arg2Of absence,or
R3124 T3902 T3903 arg1Of absence,(
R3125 T3902 T3906 arg1Of absence,of
R3126 T3904 T3903 arg2Of PKD1/3−/−,(
R3127 T3905 T3903 arg3Of ),(
R3128 T3907 T3906 arg2Of doxycycline,of
R3129 T3909 T3908 arg1Of monitored,and
R3130 T3911 T3909 arg2Of growth,monitored
R3131 T3911 T3910 arg1Of growth,exponential
R3132 T3913 T3912 arg2Of shown,As
R3133 T3913 T3914 arg1Of shown,in
R3134 T3916 T3914 arg2Of 2A,in
R3135 T3916 T3915 arg1Of 2A,Fig.
R3136 T3919 T3918 arg1Of cells,PKD1/3−/−
R3137 T3919 T3920 arg1Of cells,proliferated
R3138 T3920 T3921 arg1Of proliferated,exponentially
R3139 T3920 T3922 arg1Of proliferated,and
R3140 T3922 T3912 arg1Of and,As
R3141 T3922 T3917 arg1Of and,","
R3142 T3923 T3924 arg1Of re-expression,of
R3143 T3923 T3926 arg1Of re-expression,in
R3144 T3923 T3929 arg1Of re-expression,had
R3145 T3925 T3924 arg2Of Flag-PKD3,of
R3146 T3928 T3926 arg2Of cells,in
R3147 T3928 T3927 arg1Of cells,these
R3148 T3929 T3922 arg2Of had,and
R3149 T3931 T3929 arg2Of impact,had
R3150 T3931 T3930 arg1Of impact,no
R3151 T3931 T3932 arg1Of impact,on
R3152 T3934 T3932 arg2Of rate,on
R3153 T3934 T3933 arg1Of rate,the
R3154 T3934 T3935 arg1Of rate,of
R3155 T3936 T3935 arg2Of proliferation,of
R3156 T3940 T3939 arg1Of viability,the
R3157 T3940 T3941 arg1Of viability,of
R3158 T3940 T3945 arg1Of viability,during
R3159 T3940 T3948 arg1Of viability,was
R3160 T3940 T3951 arg1Of viability,different
R3161 T3944 T3941 arg2Of cells,of
R3162 T3944 T3942 arg1Of cells,PKD1/3−/−
R3163 T3944 T3943 arg1Of cells,B
R3164 T3947 T3945 arg2Of culturing,during
R3165 T3947 T3946 arg1Of culturing,routine
R3166 T3948 T3937 arg1Of was,Furthermore
R3167 T3948 T3938 arg1Of was,","
R3168 T3948 T3949 arg1Of was,not
R3169 T3951 T3948 arg2Of different,was
R3170 T3951 T3950 arg1Of different,significantly
R3171 T3951 T3952 arg1Of different,from
R3172 T3953 T3952 arg2Of that,from
R3173 T3953 T3954 arg1Of that,of
R3174 T3957 T3954 arg2Of cells,of
R3175 T3957 T3955 arg1Of cells,wild-type
R3176 T3957 T3956 arg1Of cells,B
R3177 T3957 T3958 arg1Of cells,(
R3178 T3959 T3958 arg2Of data,(
R3179 T3959 T3961 arg2Of data,shown
R3180 T3961 T3960 arg1Of shown,not
R3181 T3962 T3958 arg3Of ),(
R3182 T3963 T3964 arg1Of It,was
R3183 T3963 T3965 arg2Of It,noted
R3184 T3965 T3964 arg2Of noted,was
R3185 T3970 T3967 arg1Of time,the
R3186 T3970 T3968 arg1Of time,population
R3187 T3970 T3969 arg1Of time,doubling
R3188 T3970 T3971 arg1Of time,of
R3189 T3970 T3974 arg1Of time,was
R3190 T3970 T3976 arg1Of time,slower
R3191 T3973 T3971 arg2Of cells,of
R3192 T3973 T3972 arg1Of cells,PKD1/3−/−
R3193 T3974 T3989 arg1Of was,but
R3194 T3976 T3974 arg2Of slower,was
R3195 T3976 T3975 arg1Of slower,slightly
R3196 T3976 T3977 arg1Of slower,than
R3197 T3978 T3977 arg2Of that,than
R3198 T3978 T3979 arg1Of that,of
R3199 T3983 T3979 arg2Of cells,of
R32 T73 T71 arg1Of role,an
R3200 T3983 T3980 arg1Of cells,wild
R3201 T3983 T3981 arg1Of cells,type
R3202 T3983 T3982 arg1Of cells,DT40
R3203 T3983 T3984 arg1Of cells,(
R3204 T3985 T3984 arg2Of 12.7 ± 2.8 h,(
R3205 T3985 T3986 arg1Of 12.7 ± 2.8 h,versus
R3206 T3987 T3986 arg2Of 10.2 ± 0.4 h,versus
R3207 T3988 T3984 arg3Of ),(
R3208 T3989 T3965 arg3Of but,noted
R3209 T3989 T3966 arg1Of but,that
R3210 T3991 T3990 arg1Of failure,the
R3211 T3991 T3992 arg1Of failure,of
R3212 T3991 T3995 modOf failure,to
R3213 T3991 T4003 arg1Of failure,suggests
R3214 T3994 T3992 arg2Of re-expression,of
R3215 T3994 T3993 arg1Of re-expression,PKD3
R3216 T3996 T3995 arg1Of modify,to
R3217 T3999 T3996 arg2Of rate,modify
R3218 T3999 T3997 arg1Of rate,the
R3219 T3999 T3998 arg1Of rate,proliferation
R3220 T3999 T4000 arg1Of rate,of
R3221 T4002 T4000 arg2Of cells,of
R3222 T4002 T4001 arg1Of cells,PKD1/3−/−
R3223 T4003 T3989 arg2Of suggests,but
R3224 T4007 T4005 arg1Of differences,these
R3225 T4007 T4006 arg1Of differences,small
R3226 T4007 T4008 arg1Of differences,were
R3227 T4007 T4017 arg1Of differences,were
R3228 T4007 T4019 arg2Of differences,caused
R3229 T4008 T4010 arg1Of were,likely
R3230 T4008 T4016 arg1Of were,and
R3231 T4010 T4009 arg1Of likely,most
R3232 T4012 T4008 arg2Of result,were
R3233 T4012 T4011 arg1Of result,the
R3234 T4012 T4013 arg1Of result,of
R3235 T4015 T4013 arg2Of variation,of
R3236 T4015 T4014 arg1Of variation,clonal
R3237 T4016 T4003 arg2Of and,suggests
R3238 T4016 T4004 arg1Of and,that
R3239 T4019 T4016 arg2Of caused,and
R3240 T4019 T4017 arg2Of caused,were
R3241 T4019 T4018 arg1Of caused,not
R3242 T4019 T4020 arg1Of caused,specifically
R3243 T4022 T4019 arg1Of loss,caused
R3244 T4022 T4021 arg2Of loss,by
R3245 T4022 T4023 arg1Of loss,of
R3246 T4025 T4023 arg2Of enzymes,of
R3247 T4025 T4024 arg1Of enzymes,PKD
R3248 T4030 T4028 arg1Of enzymes,PKD
R3249 T4030 T4029 arg1Of enzymes,family
R3250 T4030 T4031 arg1Of enzymes,are
R3251 T4030 T4033 arg1Of enzymes,essential
R3252 T4031 T4026 arg1Of are,Thus
R3253 T4031 T4027 arg1Of are,","
R3254 T4031 T4032 arg1Of are,not
R3255 T4033 T4031 arg2Of essential,are
R3256 T4033 T4034 arg1Of essential,for
R3257 T4035 T4034 arg2Of regulating,for
R3258 T4037 T4036 arg1Of survival,basal
R3259 T4037 T4038 arg1Of survival,and
R3260 T4038 T4035 arg2Of and,regulating
R3261 T4039 T4038 arg2Of proliferation,and
R3262 T4039 T4040 arg1Of proliferation,of
R3263 T4043 T4040 arg2Of cells,of
R3264 T4043 T4041 arg1Of cells,DT40
R3265 T4043 T4042 arg1Of cells,B
R3266 T4045 T4044 arg1Of enzymes,PKD
R3267 T4045 T4046 arg1Of enzymes,","
R3268 T4045 T4052 arg1Of enzymes,have
R3269 T4045 T4054 arg1Of enzymes,been
R3270 T4045 T4055 arg2Of enzymes,linked
R3271 T4048 T4049 arg1Of PKD1,and
R3272 T4049 T4046 arg2Of and,","
R3273 T4049 T4047 arg1Of and,specifically
R3274 T4050 T4049 arg2Of PKD2,and
R3275 T4055 T4051 arg1Of linked,","
R3276 T4055 T4052 arg2Of linked,have
R3277 T4055 T4053 arg1Of linked,previously
R3278 T4055 T4054 arg2Of linked,been
R3279 T4055 T4056 arg1Of linked,to
R3280 T4059 T4056 arg2Of role,to
R3281 T4059 T4057 arg1Of role,a
R3282 T4059 T4058 arg1Of role,protective
R3283 T4059 T4060 arg1Of role,against
R3284 T4062 T4061 arg1Of stress-induced,oxidative
R3285 T4063 T4060 arg2Of injury,against
R3286 T4063 T4062 arg1Of injury,stress-induced
R3287 T4063 T4064 arg1Of injury,in
R3288 T4066 T4067 arg1Of fibroblast,","
R3289 T4068 T4067 arg2Of HeLa,","
R3290 T4072 T4064 arg2Of lines,in
R3291 T4072 T4065 arg1Of lines,3T3
R3292 T4072 T4066 arg1Of lines,fibroblast
R3293 T4072 T4068 arg1Of lines,HeLa
R3294 T4072 T4069 arg1Of lines,and
R3295 T4072 T4070 arg1Of lines,epithelial
R3296 T4072 T4071 arg1Of lines,cell
R3297 T4072 T4073 arg1Of lines,[
R3298 T4074 T4073 arg2Of "17,30–32",[
R3299 T4075 T4073 arg3Of ],[
R33 T73 T72 arg1Of role,essential
R3300 T4076 T4078 arg1Of We,addressed
R3301 T4078 T4077 arg1Of addressed,therefore
R3302 T4080 T4078 arg2Of role,addressed
R3303 T4080 T4079 arg1Of role,the
R3304 T4080 T4081 arg1Of role,of
R3305 T4080 T4085 arg1Of role,in
R3306 T4084 T4081 arg2Of kinases,of
R3307 T4084 T4082 arg1Of kinases,PKD
R3308 T4084 T4083 arg1Of kinases,family
R3309 T4086 T4085 arg2Of regulating,in
R3310 T4086 T4090 arg1Of regulating,in
R3311 T4089 T4086 arg2Of survival,regulating
R3312 T4089 T4087 arg1Of survival,B
R3313 T4089 T4088 arg1Of survival,cell
R3314 T4090 T4092 arg1Of in,to
R3315 T4091 T4090 arg2Of response,in
R3316 T4094 T4093 arg1Of stress,oxidative
R3317 T4094 T4095 arg1Of stress,and
R3318 T4095 T4090 arg3Of and,in
R3319 T4098 T4095 arg2Of stimuli,and
R3320 T4098 T4096 arg1Of stimuli,other
R3321 T4098 T4097 arg1Of stimuli,stress
R3322 T4100 T4099 arg2Of shown,As
R3323 T4100 T4101 arg1Of shown,in
R3324 T4103 T4101 arg2Of 2B,in
R3325 T4103 T4102 arg1Of 2B,Fig.
R3326 T4105 T4106 arg1Of loss,of
R3327 T4105 T4109 arg1Of loss,had
R3328 T4108 T4106 arg2Of expression,of
R3329 T4108 T4107 arg1Of expression,PKD1/3
R3330 T4109 T4099 arg1Of had,As
R3331 T4109 T4104 arg1Of had,","
R3332 T4109 T4113 arg1Of had,on
R3333 T4109 T4120 arg1Of had,in
R3334 T4109 T4153 arg1Of had,following
R3335 T4112 T4109 arg2Of impact,had
R3336 T4112 T4110 arg1Of impact,no
R3337 T4112 T4111 arg1Of impact,significant
R3338 T4115 T4113 arg2Of survival,on
R3339 T4115 T4114 arg1Of survival,the
R3340 T4115 T4116 arg1Of survival,of
R3341 T4119 T4116 arg2Of cells,of
R3342 T4119 T4117 arg1Of cells,DT40
R3343 T4119 T4118 arg1Of cells,B
R3344 T4120 T4122 arg1Of in,to
R3345 T4120 T4152 arg1Of in,or
R3346 T4121 T4120 arg2Of response,in
R3347 T4125 T4123 arg1Of stimuli,mitochondrial
R3348 T4125 T4124 arg1Of stimuli,stress
R3349 T4125 T4126 arg1Of stimuli,(
R3350 T4125 T4132 arg1Of stimuli,;
R3351 T4127 T4128 arg1Of H2O2,or
R3352 T4128 T4126 arg2Of or,(
R3353 T4130 T4128 arg2Of deprivation,or
R3354 T4130 T4129 arg1Of deprivation,serum
R3355 T4131 T4126 arg3Of ),(
R3356 T4132 T4141 arg1Of ;,;
R3357 T4135 T4132 arg2Of agents,;
R3358 T4135 T4133 arg1Of agents,DNA
R3359 T4135 T4134 arg1Of agents,damaging
R3360 T4135 T4136 arg1Of agents,(
R3361 T4137 T4138 arg1Of etoposide,or
R3362 T4138 T4136 arg2Of or,(
R3363 T4139 T4138 arg2Of doxorubicin,or
R3364 T4140 T4136 arg3Of ),(
R3365 T4141 T4120 arg3Of ;,in
R3366 T4144 T4141 arg2Of stress,;
R3367 T4144 T4142 arg1Of stress,ER
R3368 T4144 T4143 arg1Of stress,pathway
R3369 T4144 T4145 arg1Of stress,due
R3370 T4145 T4146 arg1Of due,to
R3371 T4148 T4145 arg2Of overload,due
R3372 T4148 T4147 arg1Of overload,calcium
R3373 T4148 T4149 arg1Of overload,(
R3374 T4150 T4149 arg2Of thapsigargin,(
R3375 T4151 T4149 arg3Of ),(
R3376 T4153 T4152 arg2Of following,or
R3377 T4155 T4153 arg2Of treatment,following
R3378 T4155 T4154 arg2Of treatment,prolonged
R3379 T4155 T4156 arg1Of treatment,with
R3380 T4158 T4157 arg1Of esters,phorbol
R3381 T4158 T4159 arg1Of esters,or
R3382 T4159 T4156 arg2Of or,with
R3383 T4159 T4162 arg1Of or,","
R3384 T4161 T4159 arg2Of A,or
R3385 T4161 T4160 arg1Of A,Trichostatin
R3386 T4164 T4162 arg2Of inhibitor,","
R3387 T4164 T4163 arg1Of inhibitor,an
R3388 T4164 T4165 arg1Of inhibitor,of
R3389 T4168 T4165 arg2Of HDACs,of
R3390 T4168 T4166 arg1Of HDACs,class
R3391 T4168 T4167 arg1Of HDACs,I/II
R3392 T4172 T4171 arg1Of kinases,PKD
R3393 T4172 T4173 arg1Of kinases,do
R3394 T4172 T4175 arg1Of kinases,play
R3395 T4175 T4169 arg1Of play,Thus
R3396 T4175 T4170 arg1Of play,","
R3397 T4175 T4173 arg2Of play,do
R3398 T4175 T4174 arg1Of play,not
R3399 T4175 T4179 arg1Of play,in
R34 T75 T74 arg2Of regulating,in
R3400 T4178 T4175 arg2Of role,play
R3401 T4178 T4176 arg1Of role,an
R3402 T4178 T4177 arg1Of role,essential
R3403 T4180 T4179 arg2Of regulating,in
R3404 T4180 T4184 arg1Of regulating,in
R3405 T4183 T4180 arg2Of survival,regulating
R3406 T4183 T4181 arg1Of survival,B
R3407 T4183 T4182 arg1Of survival,cell
R3408 T4184 T4186 arg1Of in,to
R3409 T4185 T4184 arg2Of response,in
R3410 T4188 T4184 arg3Of range,in
R3411 T4188 T4187 arg1Of range,a
R3412 T4188 T4189 arg1Of range,of
R3413 T4192 T4189 arg2Of stimuli,of
R3414 T4192 T4190 arg1Of stimuli,different
R3415 T4192 T4191 arg1Of stimuli,stress
R35 T75 T80 arg1Of regulating,in
R36 T79 T75 arg2Of deacetylases,regulating
R37 T79 T76 arg1Of deacetylases,class
R374 T29 T26 arg1Of enzymes,Protein
R375 T29 T27 arg1Of enzymes,kinase
R376 T29 T28 arg1Of enzymes,D
R377 T29 T30 arg1Of enzymes,are
R378 T29 T31 arg1Of enzymes,dispensable
R379 T31 T30 arg2Of dispensable,are
R38 T79 T77 arg1Of deacetylases,II
R380 T31 T32 arg1Of dispensable,for
R381 T33 T34 arg1Of proliferation,","
R382 T34 T36 arg1Of ",",and
R383 T35 T34 arg2Of survival,","
R384 T36 T32 arg2Of and,for
R385 T36 T41 arg1Of and,in
R386 T40 T36 arg2Of activity,and
R387 T40 T37 arg1Of activity,antigen
R388 T40 T38 arg1Of activity,receptor-regulated
R389 T40 T39 arg1Of activity,NFκB
R39 T79 T78 arg1Of deacetylases,histone
R390 T43 T41 arg2Of B-cells,in
R391 T43 T42 arg1Of B-cells,vertebrate
R392 T45 T44 arg1Of investigate,To
R393 T47 T45 arg2Of importance,investigate
R3931 T5032 T5031 arg1Of receptor,"Protein kinase D enzymes are dispensable for proliferation, survival and antigen receptor-regulated NFκB activity in vertebrate B-cells Abstract To investigate the importance of protein kinase D (PKD) enzymes we generated a PKD-null DT40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell culture, transient transfections and cell stimulation The generation, culture and activation of PKD1−/−, PKD3−/− and PKD1/3−/− knockout DT40 B cell lines have been described previously [1]. Cells were lysed and protein extracts were analysed in Western blotting experiments as previously described [1]. Chloramphenicol acetyl transferase assays have been described previously [29]. 2.2 sIgM staining DT40 B cells (2 × 106 cells per point) were resuspended in 200 μl buffer (RPMI 1640 media, 1% foetal calf serum) containing anti-chicken M1 monoclonal antibody conjugated to FITC for 20 min on ice. The cells were washed twice and fluorescent intensity was analysed by flow cytometry. All results shown are representative of at two to four independent experiments unless otherwise indicated. 3 Results 3.1 Loss of HSP27 phosphorylation in DT40 B cells lacking expression of PKD family kinases DT40 B cells express two PKD isoforms, PKD1 and PKD3, and as previously described we have recently generated DT40 B cell lines that lack expression of either PKD1 or PKD3 or both enzymes [1]. In generating the double knockout cell lines we targeted the PKD1 loci in a PKD3−/− cell line that expressed a Flag-PKD3 transgene under the control of a doxycycline-inducible promoter. Hence, in the presence of doxycycline, Flag-PKD3 expression in PKD1/3 double knockout cells is comparable to endogenous PKD3 present in wild-type DT40 cells and removal of doxycycline from the culture media for 5 days results in a completely null PKD phenotype (Fig. 1A). Previously, we have demonstrated that phosphorylation and nuclear exclusion of class II histone deacetylases (HDACs) during BCR engagement is defective in PKD1/3−/− B cells and can restored upon re-expression of a single PKD isoform [1]. The small heat shock protein HSP27 has recently been proposed as a PKD1 substrate [24] and we accordingly assessed whether PKD-null DT40 cells have defective phosphorylation of HSP27 on serine 82, the proposed PKD1 substrate sequence. We initially investigated the regulation of HSP27 phosphorylation in single knockout DT40 B cells lacking either PKD1 or PKD3. As shown in Fig. 1B, activation of the BCR or treatment with the DAG-mimetic PdBu increased the levels of HSP27 phosphorylation at S82 in wild-type DT40 B cells. BCR and phorbol ester signals were also able to increase HSP27 phosphorylation in PKD1 or PKD3 single knockout DT40 B cells (Fig. 1B). However, BCR- and phorbol ester-induced phosphorylation of HSP27 on S82 was abolished in B cells that lacked both PKD1 and PKD3 (Fig. 1C). Significantly, doxycycline-induced expression of the Flag-PKD3 transgene in the double knockout cells was sufficient to restore normal regulation of HSP27 phosphorylation (Fig. 1C). In contrast, expression of a kinase-deficient PKD3 mutant protein in the double knockout cells was not able to restore BCR- or phorbol ester-induced HSP27 phosphorylation (Fig. 1D). Hence, PKD3 as well as PKD1 can regulate HSP27 phosphorylation and in DT40 B cells they are functionally redundant as HSP27 kinases. 3.2 Cellular proliferation and survival in DT40 B cells lacking expression of PKD family kinases PKD enzymes have previously been linked to the regulation of cell proliferation and survival (reviewed in [20]). To investigate the effect that loss of PKD kinases had on B cell survival and/or proliferation we cultured wild-type and PKD-null cells in the presence (PKD1/3−/−: Flag-PKD3+ve) or absence (PKD1/3−/−) of doxycycline and monitored exponential growth. As shown in Fig. 2A, PKD1/3−/− cells proliferated exponentially and re-expression of Flag-PKD3 in these cells had no impact on the rate of proliferation. Furthermore, the viability of PKD1/3−/− B cells during routine culturing was not significantly different from that of wild-type B cells (data not shown). It was noted that the population doubling time of PKD1/3−/− cells was slightly slower than that of wild type DT40 cells (12.7 ± 2.8 h versus 10.2 ± 0.4 h) but the failure of PKD3 re-expression to modify the proliferation rate of PKD1/3−/− cells suggests that these small differences were most likely the result of clonal variation and were not caused specifically by loss of PKD enzymes. Thus, PKD family enzymes are not essential for regulating basal survival and proliferation of DT40 B cells. PKD enzymes, specifically PKD1 and PKD2, have previously been linked to a protective role against oxidative stress-induced injury in 3T3 fibroblast, HeLa and epithelial cell lines [17,30–32]. We therefore addressed the role of PKD family kinases in regulating B cell survival in response to oxidative stress and other stress stimuli. As shown in Fig. 2B, loss of PKD1/3 expression had no significant impact on the survival of DT40 B cells in response to mitochondrial stress stimuli (H2O2 or serum deprivation); DNA damaging agents (etoposide or doxorubicin); ER pathway stress due to calcium overload (thapsigargin) or following prolonged treatment with phorbol esters or Trichostatin A, an inhibitor of class I/II HDACs. Thus, PKD kinases do not play an essential role in regulating B cell survival in response to a range of different stress stimuli. 3.3 Antigen"
R3932 T5032 T5033 arg1Of receptor,regulated
R3933 T5035 T5033 arg2Of pathways,regulated
R3934 T5035 T5034 arg1Of pathways,signalling
R3935 T5035 T5036 arg1Of pathways,in
R3936 T5040 T5036 arg2Of cells,in
R3937 T5040 T5037 arg1Of cells,PKD-null
R3938 T5040 T5038 arg1Of cells,DT40
R3939 T5040 T5039 arg1Of cells,B
R394 T47 T46 arg1Of importance,the
R3940 T5043 T5041 arg1Of explore,To
R3941 T5043 T5042 arg1Of explore,further
R3942 T5045 T5043 arg2Of contribution,explore
R3943 T5045 T5044 arg1Of contribution,the
R3944 T5045 T5046 arg1Of contribution,of
R3945 T5045 T5049 arg1Of contribution,to
R3946 T5048 T5046 arg2Of kinases,of
R3947 T5048 T5047 arg1Of kinases,PKD
R3948 T5053 T5049 arg2Of biology,to
R3949 T5053 T5050 arg1Of biology,DT40
R395 T47 T48 arg1Of importance,of
R3950 T5053 T5051 arg1Of biology,B
R3951 T5053 T5052 arg1Of biology,cell
R3952 T5054 T5043 arg1Of we,explore
R3953 T5054 T5055 arg1Of we,investigated
R3954 T5055 T5041 modOf investigated,To
R3955 T5058 T5057 arg1Of BCR-regulated,specific
R3956 T5060 T5058 arg1Of events,BCR-regulated
R3957 T5060 T5059 arg1Of events,signalling
R3958 T5060 T5061 arg1Of events,were
R3959 T5060 T5062 arg1Of events,defective
R3960 T5061 T5055 arg2Of were,investigated
R3961 T5061 T5056 arg1Of were,whether
R3962 T5062 T5061 arg2Of defective,were
R3963 T5062 T5063 arg1Of defective,in
R3964 T5067 T5063 arg2Of cells,in
R3965 T5067 T5064 arg1Of cells,the
R3966 T5067 T5065 arg1Of cells,PKD-null
R3967 T5067 T5066 arg1Of cells,B
R3968 T5069 T5068 arg1Of experiments,Initial
R3969 T5069 T5070 arg1Of experiments,revealed
R3970 T5073 T5072 arg1Of expression,surface
R3971 T5073 T5074 arg1Of expression,of
R3972 T5073 T5077 arg1Of expression,was
R3973 T5073 T5078 arg2Of expression,reduced
R3974 T5076 T5074 arg2Of BCR,of
R3975 T5076 T5075 arg1Of BCR,the
R3976 T5078 T5070 arg2Of reduced,revealed
R3977 T5078 T5071 arg1Of reduced,that
R3978 T5078 T5077 arg2Of reduced,was
R3979 T5078 T5079 arg1Of reduced,in
R3980 T5078 T5089 arg1Of reduced,compared
R3981 T5080 T5081 arg1Of PKD1/3−/−,(
R3982 T5083 T5081 arg2Of in,(
R3983 T5083 T5082 arg1Of in,and
R3984 T5084 T5083 arg2Of PKD1/3−/−,in
R3985 T5084 T5085 arg1Of PKD1/3−/−,:
R3986 T5084 T5086 arg1Of PKD1/3−/−,Flag-PKD3+ve
R3987 T5087 T5081 arg3Of ),(
R3988 T5088 T5079 arg2Of cells,in
R3989 T5088 T5080 arg1Of cells,PKD1/3−/−
R3990 T5090 T5089 arg2Of to,compared
R3991 T5094 T5090 arg2Of cells,to
R3992 T5094 T5091 arg1Of cells,wild-type
R3993 T5094 T5092 arg1Of cells,DT40
R3994 T5094 T5093 arg1Of cells,B
R3995 T5094 T5095 arg1Of cells,(
R3996 T5097 T5096 arg1Of 3A,Fig.
R3997 T5097 T5098 arg1Of 3A,and
R3998 T5098 T5095 arg2Of and,(
R3999 T5099 T5098 arg2Of data,and
R40 T82 T80 arg2Of B-cells,in
R4000 T5099 T5101 arg2Of data,shown
R4001 T5101 T5100 arg1Of shown,not
R4002 T5102 T5095 arg3Of ),(
R4003 T5105 T5106 arg1Of BCR-crosslinking,of
R4004 T5105 T5109 arg1Of BCR-crosslinking,was
R4005 T5105 T5110 arg1Of BCR-crosslinking,sufficient
R4006 T5105 T5112 arg1Of BCR-crosslinking,induce
R4007 T5108 T5106 arg2Of cells,of
R4008 T5108 T5107 arg1Of cells,PKD1/3−/−
R4009 T5109 T5103 arg1Of was,Nevertheless
R4010 T5109 T5104 arg1Of was,","
R4011 T5110 T5109 arg2Of sufficient,was
R4012 T5112 T5110 arg2Of induce,sufficient
R4013 T5112 T5111 arg1Of induce,to
R4014 T5114 T5112 arg2Of activation,induce
R4015 T5114 T5113 arg1Of activation,the
R4016 T5114 T5115 arg1Of activation,of
R4017 T5117 T5115 arg2Of number,of
R4018 T5117 T5116 arg1Of number,a
R4019 T5117 T5118 arg1Of number,of
R4020 T5117 T5121 arg1Of number,","
R4021 T5117 T5122 arg1Of number,similar
R4022 T5120 T5118 arg2Of cascades,of
R4023 T5120 T5119 arg1Of cascades,signalling
R4024 T5122 T5123 arg1Of similar,to
R4025 T5124 T5123 arg2Of that,to
R4026 T5124 T5125 arg2Of that,observed
R4027 T5125 T5126 arg1Of observed,in
R4028 T5128 T5126 arg2Of cells,in
R4029 T5128 T5127 arg1Of cells,wild-type
R4030 T5128 T5129 arg1Of cells,(
R4031 T5131 T5129 arg2Of 3B,(
R4032 T5131 T5130 arg1Of 3B,Fig.
R4033 T5132 T5129 arg3Of ),(
R4034 T5136 T5135 arg1Of activation,BCR-induced
R4035 T5136 T5137 arg1Of activation,of
R4036 T5136 T5140 arg1Of activation,","
R4037 T5139 T5137 arg2Of Akt,of
R4038 T5139 T5138 arg1Of Akt,the
R4039 T5140 T5153 arg1Of ",",and
R4040 T5143 T5140 arg2Of kinase,","
R4041 T5143 T5141 arg1Of kinase,mTOR/p70
R4042 T5143 T5142 arg1Of kinase,S6
R4043 T5143 T5144 arg1Of kinase,(
R4044 T5143 T5145 arg1Of kinase,as
R4045 T5143 T5152 arg1Of kinase,)
R4046 T5146 T5145 arg2Of shown,as
R4047 T5151 T5146 arg1Of phosphorylation,shown
R4048 T5151 T5147 arg2Of phosphorylation,by
R4049 T5151 T5148 arg1Of phosphorylation,S6
R4050 T5151 T5149 arg1Of phosphorylation,ribosomal
R4051 T5151 T5150 arg1Of phosphorylation,protein
R4052 T5153 T5157 arg1Of and,was
R4053 T5153 T5159 arg1Of and,detectable
R4054 T5156 T5153 arg2Of pathways,and
R4055 T5156 T5154 arg1Of pathways,MAPK
R4056 T5156 T5155 arg1Of pathways,signalling
R4057 T5157 T5133 arg1Of was,Hence
R4058 T5157 T5134 arg1Of was,","
R4059 T5159 T5157 arg2Of detectable,was
R4060 T5159 T5158 arg1Of detectable,clearly
R4061 T5159 T5160 arg1Of detectable,in
R4062 T5163 T5160 arg2Of cells,in
R4063 T5163 T5161 arg1Of cells,PKD1/3-null
R4064 T5163 T5162 arg1Of cells,B
R4065 T5163 T5164 arg1Of cells,(
R4066 T5166 T5164 arg2Of 3B,(
R4067 T5166 T5165 arg1Of 3B,Fig.
R4068 T5167 T5164 arg3Of ),(
R4069 T5172 T5170 arg2Of phosphorylation,enhanced
R4070 T5172 T5171 arg1Of phosphorylation,tyrosine
R4071 T5172 T5173 arg1Of phosphorylation,of
R4072 T5172 T5179 arg1Of phosphorylation,as
R4073 T5176 T5173 arg2Of proteins,of
R4074 T5176 T5174 arg1Of proteins,multiple
R4075 T5176 T5175 arg1Of proteins,cellular
R4076 T5179 T5177 arg1Of as,as
R4077 T5179 T5178 arg1Of as,well
R4078 T5179 T5186 arg1Of as,was
R4079 T5179 T5188 arg2Of as,observed
R4080 T5181 T5179 arg2Of increase,as
R4081 T5181 T5180 arg1Of increase,an
R4082 T5181 T5182 arg1Of increase,in
R4083 T5185 T5182 arg2Of levels,in
R4084 T5185 T5183 arg1Of levels,intracellular
R4085 T5185 T5184 arg1Of levels,calcium
R4086 T5188 T5168 arg1Of observed,Furthermore
R4087 T5188 T5169 arg1Of observed,","
R4088 T5188 T5186 arg2Of observed,was
R4089 T5188 T5187 arg1Of observed,also
R4090 T5188 T5189 arg1Of observed,following
R4091 T5191 T5189 arg2Of stimulation,following
R4092 T5191 T5190 arg1Of stimulation,BCR
R4093 T5191 T5192 arg1Of stimulation,of
R4094 T5195 T5192 arg2Of cells,of
R4095 T5195 T5193 arg1Of cells,PKD1/3-null
R4096 T5195 T5194 arg1Of cells,B
R4097 T5195 T5196 arg1Of cells,(
R4098 T5197 T5196 arg2Of data,(
R4099 T5197 T5199 arg2Of data,shown
R41 T82 T81 arg1Of B-cells,DT40
R4100 T5199 T5198 arg1Of shown,not
R4101 T5200 T5196 arg3Of ),(
R4102 T5201 T5202 arg1Of We,did
R4103 T5201 T5203 arg1Of We,observe
R4104 T5203 T5202 arg2Of observe,did
R4105 T5206 T5205 arg1Of strength,the
R4106 T5206 T5207 arg1Of strength,of
R4107 T5206 T5222 arg1Of strength,was
R4108 T5206 T5223 arg2Of strength,reduced
R4109 T5208 T5209 arg1Of BCR,(
R4110 T5210 T5211 arg1Of but,not
R4111 T5213 T5209 arg2Of ester,(
R4112 T5213 T5210 arg1Of ester,but
R4113 T5213 T5212 arg1Of ester,phorbol
R4114 T5214 T5209 arg3Of ),(
R4115 T5216 T5207 arg2Of regulation,of
R4116 T5216 T5208 arg1Of regulation,BCR
R4117 T5216 T5215 arg1Of regulation,-induced
R4118 T5216 T5217 arg1Of regulation,of
R4119 T5221 T5217 arg2Of pathway,of
R4120 T5221 T5218 arg1Of pathway,the
R4121 T5221 T5219 arg1Of pathway,Erk1-RSK1
R4122 T5221 T5220 arg1Of pathway,signalling
R4123 T5223 T5203 arg2Of reduced,observe
R4124 T5223 T5204 arg1Of reduced,that
R4125 T5223 T5222 arg2Of reduced,was
R4126 T5223 T5224 arg1Of reduced,in
R4127 T5223 T5228 arg1Of reduced,compared
R4128 T5227 T5224 arg2Of cells,in
R4129 T5227 T5225 arg1Of cells,PKD1/3−/−
R4130 T5227 T5226 arg1Of cells,B
R4131 T5229 T5228 arg2Of to,compared
R4132 T5232 T5229 arg2Of cells,to
R4133 T5232 T5230 arg1Of cells,wild-type
R4134 T5232 T5231 arg1Of cells,B
R4135 T5232 T5233 arg1Of cells,(
R4136 T5235 T5233 arg2Of 3B,(
R4137 T5235 T5234 arg1Of 3B,Fig.
R4138 T5236 T5233 arg3Of ),(
R4139 T5238 T5237 arg1Of interpretation,One
R4140 T5238 T5239 arg1Of interpretation,of
R4141 T5238 T5242 arg1Of interpretation,is
R4142 T5241 T5239 arg2Of data,of
R4143 T5241 T5240 arg1Of data,this
R4144 T5245 T5244 arg1Of enzymes,PKD
R4145 T5245 T5246 arg1Of enzymes,may
R4146 T5245 T5247 arg1Of enzymes,modulate
R4147 T5247 T5242 arg2Of modulate,is
R4148 T5247 T5243 arg1Of modulate,that
R4149 T5247 T5246 arg2Of modulate,may
R4150 T5249 T5247 arg2Of activation,modulate
R4151 T5249 T5248 arg1Of activation,Erk
R4152 T5253 T5252 arg1Of enzymes,PKD
R4153 T5253 T5254 arg1Of enzymes,have
R4154 T5253 T5256 arg1Of enzymes,been
R4155 T5253 T5257 arg2Of enzymes,linked
R4156 T5257 T5250 arg1Of linked,Indeed
R4157 T5257 T5251 arg1Of linked,","
R4158 T5257 T5254 arg2Of linked,have
R4159 T5257 T5255 arg1Of linked,previously
R4160 T5257 T5256 arg2Of linked,been
R4161 T5257 T5258 arg1Of linked,to
R4162 T5257 T5264 arg1Of linked,in
R4163 T5263 T5258 arg2Of signalling,to
R4164 T5263 T5259 arg1Of signalling,the
R4165 T5263 T5260 arg1Of signalling,growth
R4166 T5263 T5261 arg1Of signalling,factor-regulated
R4167 T5263 T5262 arg1Of signalling,Erk
R4168 T5265 T5266 arg1Of fibroblast,and
R4169 T5266 T5264 arg2Of and,in
R4170 T5269 T5266 arg2Of lines,and
R4171 T5269 T5267 arg1Of lines,endothelial
R4172 T5269 T5268 arg1Of lines,cell
R4173 T5269 T5270 arg1Of lines,[
R4174 T5271 T5270 arg2Of 33–35,[
R4175 T5272 T5270 arg3Of ],[
R4176 T5277 T5275 arg1Of phosphorylation,BCR-induced
R4177 T5277 T5276 arg1Of phosphorylation,Erk
R4178 T5277 T5278 arg1Of phosphorylation,was
R4179 T5277 T5280 arg2Of phosphorylation,reduced
R4180 T5280 T5273 arg1Of reduced,However
R4181 T5280 T5274 arg1Of reduced,","
R4182 T5280 T5278 arg2Of reduced,was
R4183 T5280 T5279 arg1Of reduced,also
R4184 T5280 T5281 arg1Of reduced,in
R4185 T5280 T5290 modOf reduced,suggesting
R4186 T5284 T5281 arg2Of cells,in
R4187 T5284 T5282 arg1Of cells,PKD1/3−/−-Flag-PKD3+
R4188 T5284 T5283 arg1Of cells,B
R4189 T5284 T5285 arg1Of cells,(
R4190 T5286 T5285 arg2Of data,(
R4191 T5286 T5288 arg2Of data,shown
R4192 T5288 T5287 arg1Of shown,not
R4193 T5289 T5285 arg3Of ),(
R4194 T5294 T5292 arg2Of levels,reduced
R4195 T5294 T5293 arg1Of levels,BCR
R4196 T5294 T5295 arg1Of levels,on
R4197 T5294 T5306 arg1Of levels,may
R4198 T5294 T5308 arg1Of levels,impact
R4199 T5297 T5295 arg2Of surface,on
R42 T84 T85 arg1Of Matthews,","
R4200 T5297 T5296 arg1Of surface,the
R4201 T5297 T5298 arg1Of surface,of
R4202 T5299 T5300 arg1Of PKD1/3−/−,(
R4203 T5302 T5300 arg2Of PKD1/3−/−-Flag-PKD3+,(
R4204 T5302 T5301 arg1Of PKD1/3−/−-Flag-PKD3+,and
R4205 T5303 T5300 arg3Of ),(
R4206 T5305 T5298 arg2Of cells,of
R4207 T5305 T5299 arg1Of cells,PKD1/3−/−
R4208 T5305 T5304 arg1Of cells,B
R4209 T5308 T5290 arg2Of impact,suggesting
R4210 T5308 T5291 arg1Of impact,that
R4211 T5308 T5306 arg2Of impact,may
R4212 T5308 T5307 arg1Of impact,itself
R4213 T5308 T5309 arg1Of impact,on
R4214 T5311 T5309 arg2Of strength,on
R4215 T5311 T5310 arg1Of strength,the
R4216 T5311 T5312 arg1Of strength,of
R4217 T5313 T5312 arg2Of activation,of
R4218 T5313 T5314 arg1Of activation,of
R4219 T5319 T5314 arg2Of pathway,of
R4220 T5319 T5315 arg1Of pathway,this
R4221 T5319 T5316 arg1Of pathway,specific
R4222 T5319 T5317 arg1Of pathway,intracellular
R4223 T5319 T5318 arg1Of pathway,signalling
R4224 T5321 T5320 arg1Of search,To
R4225 T5321 T5322 arg1Of search,for
R4226 T5326 T5322 arg2Of targets,for
R4227 T5326 T5323 arg1Of targets,other
R4228 T5326 T5324 arg1Of targets,potential
R4229 T5326 T5325 arg1Of targets,PKD
R4230 T5326 T5327 arg1Of targets,that
R4231 T5326 T5328 arg1Of targets,may
R4232 T5326 T5329 arg1Of targets,show
R4233 T5329 T5328 arg2Of show,may
R4234 T5329 T5332 arg1Of show,in
R4235 T5331 T5329 arg2Of regulation,show
R4236 T5331 T5330 arg1Of regulation,defective
R4237 T5336 T5332 arg2Of cells,in
R4238 T5336 T5333 arg1Of cells,PKD1/3−/−
R4239 T5336 T5334 arg1Of cells,DT40
R4240 T5336 T5335 arg1Of cells,B
R4241 T5338 T5321 arg1Of we,search
R4242 T5338 T5339 arg1Of we,used
R4243 T5339 T5320 modOf used,To
R4244 T5339 T5337 arg1Of used,","
R4245 T5343 T5339 arg2Of phospho-antibody,used
R4246 T5343 T5340 arg1Of phospho-antibody,a
R4247 T5343 T5341 arg1Of phospho-antibody,PKD
R4248 T5343 T5342 arg1Of phospho-antibody,substrate
R4249 T5343 T5344 arg1Of phospho-antibody,that
R4250 T5343 T5345 arg1Of phospho-antibody,recognises
R4251 T5348 T5345 arg2Of sequences,recognises
R4252 T5348 T5346 arg1Of sequences,consensus
R4253 T5348 T5347 arg1Of sequences,phosphorylation
R4254 T5348 T5349 arg2Of sequences,targeted
R4255 T5349 T5356 arg1Of targeted,[
R4256 T5352 T5349 arg1Of enzymes,targeted
R4257 T5352 T5350 arg2Of enzymes,by
R4258 T5352 T5351 arg1Of enzymes,PKD
R4259 T5352 T5353 arg1Of enzymes,(
R4260 T5354 T5353 arg2Of LxRxxpS/T,(
R4261 T5355 T5353 arg3Of ),(
R4262 T5357 T5356 arg2Of 36,[
R4263 T5358 T5356 arg3Of ],[
R4264 T5360 T5359 arg2Of shown,As
R4265 T5360 T5361 arg1Of shown,in
R4266 T5363 T5361 arg2Of 3C,in
R4267 T5363 T5362 arg1Of 3C,Fig.
R4268 T5366 T5365 arg1Of ester-,phorbol
R4269 T5366 T5367 arg1Of ester-,and
R4270 T5368 T5367 arg2Of BCR-induced,and
R4271 T5369 T5366 arg1Of phosphorylation,ester-
R4272 T5369 T5368 arg1Of phosphorylation,BCR-induced
R4273 T5369 T5370 arg1Of phosphorylation,of
R4274 T5369 T5377 arg1Of phosphorylation,was
R4275 T5369 T5378 arg1Of phosphorylation,similar
R4276 T5369 T5385 arg1Of phosphorylation,is
R4277 T5369 T5387 arg1Of phosphorylation,independent
R4278 T5372 T5370 arg2Of substrates,of
R4279 T5372 T5371 arg1Of substrates,cellular
R4280 T5372 T5373 arg2Of substrates,detected
R4281 T5376 T5373 arg1Of phospho-antibody,detected
R4282 T5376 T5374 arg2Of phospho-antibody,by
R4283 T5376 T5375 arg1Of phospho-antibody,this
R4284 T5377 T5384 arg1Of was,and
R4285 T5378 T5377 arg2Of similar,was
R4286 T5378 T5379 arg1Of similar,in
R4287 T5380 T5381 arg1Of wild-type,and
R4288 T5381 T5379 arg2Of and,in
R4289 T5383 T5381 arg2Of cells,and
R4290 T5383 T5382 arg1Of cells,PKD1/3−/−
R4291 T5384 T5359 arg1Of and,As
R4292 T5384 T5364 arg1Of and,","
R4293 T5385 T5384 arg2Of is,and
R4294 T5385 T5386 arg1Of is,therefore
R4295 T5387 T5385 arg2Of independent,is
R4296 T5387 T5388 arg1Of independent,of
R4297 T5390 T5388 arg2Of enzymes,of
R4298 T5390 T5389 arg1Of enzymes,PKD
R4299 T5393 T5394 arg1Of pretreatment,of
R43 T85 T87 arg1Of ",",","
R430 T535 T532 arg1Of D,"1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The"
R4300 T5393 T5402 arg1Of pretreatment,with
R4301 T5393 T5411 arg1Of pretreatment,prevented
R4302 T5401 T5394 arg2Of cells,of
R4303 T5401 T5395 arg1Of cells,both
R4304 T5401 T5396 arg1Of cells,wild-type
R4305 T5401 T5397 arg1Of cells,and
R4306 T5401 T5398 arg1Of cells,PKD1/3−/−
R4307 T5401 T5399 arg1Of cells,DT40
R4308 T5401 T5400 arg1Of cells,B
R4309 T5403 T5402 arg2Of GF109203X,with
R431 T535 T533 arg1Of D,protein
R4310 T5403 T5404 arg1Of GF109203X,","
R4311 T5407 T5404 arg2Of derivative,","
R4312 T5407 T5405 arg1Of derivative,a
R4313 T5407 T5406 arg1Of derivative,bisindoylmaleimide
R4314 T5407 T5408 arg1Of derivative,that
R4315 T5407 T5409 arg1Of derivative,inhibits
R4316 T5410 T5409 arg2Of PKCs,inhibits
R4317 T5411 T5391 arg1Of prevented,However
R4318 T5411 T5392 arg1Of prevented,","
R4319 T5413 T5411 arg2Of induction,prevented
R432 T535 T534 arg1Of D,kinase
R4320 T5413 T5412 arg1Of induction,the
R4321 T5413 T5414 arg1Of induction,of
R4322 T5415 T5414 arg2Of proteins,of
R4323 T5415 T5416 arg1Of proteins,that
R4324 T5415 T5417 arg1Of proteins,contain
R4325 T5420 T5417 arg2Of motifs,contain
R4326 T5420 T5418 arg2Of motifs,phosphorylated
R4327 T5420 T5419 arg1Of motifs,LxRxxS/T
R4328 T5422 T5423 arg1Of loss,of
R4329 T5422 T5426 arg1Of loss,does
R433 T535 T536 arg1Of D,(
R4330 T5422 T5429 arg1Of loss,disrupt
R4331 T5425 T5423 arg2Of enzymes,of
R4332 T5425 T5424 arg1Of enzymes,PKD1/3
R4333 T5429 T5421 arg1Of disrupt,Thus
R4334 T5429 T5426 arg2Of disrupt,does
R4335 T5429 T5427 arg1Of disrupt,not
R4336 T5429 T5428 arg1Of disrupt,globally
R4337 T5431 T5429 arg2Of phosphorylation,disrupt
R4338 T5431 T5430 arg1Of phosphorylation,the
R4339 T5431 T5432 arg1Of phosphorylation,of
R434 T537 T536 arg2Of PKD,(
R4340 T5434 T5432 arg2Of proteins,of
R4341 T5434 T5433 arg1Of proteins,cellular
R4342 T5434 T5435 arg1Of proteins,that
R4343 T5434 T5436 arg1Of proteins,contain
R4344 T5438 T5436 arg2Of motifs,contain
R4345 T5438 T5437 arg1Of motifs,LxRxxpS/T
R4346 T5440 T5439 arg1Of result,This
R4347 T5440 T5441 arg1Of result,is
R4348 T5440 T5444 arg1Of result,surprising
R4349 T5441 T5443 arg1Of is,not
R435 T538 T536 arg3Of ),(
R4350 T5441 T5445 arg1Of is,as
R4351 T5443 T5442 arg1Of not,perhaps
R4352 T5444 T5441 arg2Of surprising,is
R4353 T5447 T5446 arg1Of motifs,LxRxxS/T
R4354 T5447 T5449 arg1Of motifs,act
R4355 T5449 T5445 arg2Of act,as
R4356 T5449 T5448 arg1Of act,also
R4357 T5449 T5450 arg1Of act,as
R4358 T5452 T5450 arg2Of substrates,as
R4359 T5452 T5451 arg1Of substrates,good
R436 T541 T535 arg1Of family,D
R4360 T5452 T5453 arg1Of substrates,for
R4361 T5456 T5453 arg2Of kinases,for
R4362 T5456 T5454 arg1Of kinases,other
R4363 T5456 T5455 arg1Of kinases,serine/threonine
R4364 T5456 T5458 arg1Of kinases,as
R4365 T5458 T5457 arg1Of as,such
R4366 T5459 T5458 arg2Of MAPKAPK2,as
R4367 T5462 T5461 arg1Of experiments,these
R4368 T5462 T5463 arg1Of experiments,do
R4369 T5462 T5464 arg1Of experiments,provide
R437 T541 T539 arg1Of family,serine/threonine
R4370 T5464 T5460 arg1Of provide,However
R4371 T5464 T5463 arg2Of provide,do
R4372 T5466 T5464 arg2Of evidence,provide
R4373 T5466 T5465 arg1Of evidence,further
R4374 T5469 T5468 arg1Of antisera,phosphospecific
R4375 T5469 T5470 arg1Of antisera,are
R4376 T5469 T5473 arg1Of antisera,selective
R4377 T5470 T5466 arg2Of are,evidence
R4378 T5470 T5467 arg1Of are,that
R4379 T5470 T5471 arg1Of are,not
R438 T541 T540 arg1Of family,kinase
R4380 T5473 T5470 arg2Of selective,are
R4381 T5473 T5472 arg1Of selective,sufficiently
R4382 T5473 T5474 modOf selective,to
R4383 T5476 T5474 arg1Of designated,to
R4384 T5476 T5475 arg2Of designated,be
R4385 T5478 T5477 arg1Of specific,kinase
R4386 T5480 T5476 arg3Of antisera,designated
R4387 T5480 T5478 arg1Of antisera,specific
R4388 T5480 T5479 arg1Of antisera,substrate
R4389 T5483 T5481 arg1Of pathways,BCR-induced
R439 T541 T542 arg1Of family,has
R4390 T5483 T5482 arg1Of pathways,signalling
R4391 T5483 T5484 arg1Of pathways,culminate
R4392 T5484 T5485 arg1Of culminate,in
R4393 T5487 T5485 arg2Of activation,in
R4394 T5487 T5486 arg1Of activation,the
R4395 T5487 T5488 arg1Of activation,of
R4396 T5491 T5488 arg2Of events,of
R4397 T5491 T5489 arg1Of events,gene
R4398 T5491 T5490 arg1Of events,transcription
R4399 T5491 T5492 arg1Of events,that
R44 T86 T85 arg2Of S.A.,","
R440 T544 T542 arg2Of members,has
R4400 T5491 T5493 arg1Of events,control
R4401 T5496 T5497 arg1Of survival,","
R4402 T5497 T5499 arg1Of ",",and
R4403 T5498 T5497 arg2Of proliferation,","
R4404 T5499 T5493 arg2Of and,control
R4405 T5499 T5494 arg1Of and,B
R4406 T5499 T5495 arg1Of and,cell
R4407 T5500 T5499 arg2Of function,and
R4408 T5503 T5501 arg2Of context,In
R4409 T5503 T5502 arg1Of context,this
R441 T544 T543 arg1Of members,three
R4410 T5508 T5501 arg1Of proposed,In
R4411 T5508 T5504 arg1Of proposed,","
R4412 T5508 T5506 arg2Of proposed,has
R4413 T5508 T5507 arg2Of proposed,been
R4414 T5508 T5517 arg1Of proposed,through
R4415 T5513 T5505 arg1Of control,it
R4416 T5513 T5506 arg1Of control,has
R4417 T5513 T5507 arg1Of control,been
R4418 T5513 T5508 arg2Of control,proposed
R4419 T5513 T5509 arg1Of control,that
R442 T544 T545 arg1Of members,:
R4420 T5513 T5510 arg1Of control,PKD
R4421 T5513 T5511 arg1Of control,family
R4422 T5513 T5512 arg1Of control,members
R4423 T5513 T5514 arg1Of control,of
R4424 T5516 T5514 arg2Of transcription,of
R4425 T5516 T5515 arg1Of transcription,gene
R4426 T5518 T5517 arg2Of activation,through
R4427 T5518 T5519 arg1Of activation,of
R4428 T5523 T5519 arg2Of factor,of
R4429 T5523 T5520 arg1Of factor,the
R443 T546 T547 arg1Of PKD1,","
R4430 T5523 T5521 arg1Of factor,NFκB
R4431 T5523 T5522 arg1Of factor,transcription
R4432 T5527 T5526 arg1Of activation,PKD-mediated
R4433 T5527 T5528 arg1Of activation,of
R4434 T5527 T5530 arg1Of activation,occurs
R4435 T5529 T5528 arg2Of NFκB,of
R4436 T5530 T5524 arg1Of occurs,Thus
R4437 T5530 T5525 arg1Of occurs,","
R4438 T5530 T5531 arg1Of occurs,downstream
R4439 T5531 T5532 arg1Of downstream,of
R444 T547 T549 arg1Of ",",and
R4440 T5534 T5532 arg2Of variety,of
R4441 T5534 T5533 arg1Of variety,a
R4442 T5534 T5535 arg1Of variety,of
R4443 T5537 T5535 arg2Of signals,of
R4444 T5537 T5536 arg1Of signals,different
R4445 T5537 T5538 arg1Of signals,","
R4446 T5537 T5539 arg1Of signals,including
R4447 T5541 T5540 arg1Of stress,mROS/oxidative
R4448 T5541 T5542 arg1Of stress,","
R4449 T5542 T5545 arg1Of ",",and
R445 T548 T547 arg2Of PKD2,","
R4450 T5544 T5542 arg2Of acid,","
R4451 T5544 T5543 arg1Of acid,lysophosphatidic
R4452 T5545 T5539 arg2Of and,including
R4453 T5547 T5546 arg1Of Bcr-Abl,the
R4454 T5548 T5545 arg2Of oncogene,and
R4455 T5548 T5547 arg1Of oncogene,Bcr-Abl
R4456 T5548 T5549 arg1Of oncogene,[
R4457 T5550 T5549 arg2Of "17,21,23,30,37",[
R4458 T5551 T5549 arg3Of ],[
R4459 T5554 T5555 arg1Of expression,of
R446 T549 T545 arg2Of and,:
R4460 T5554 T5560 arg1Of expression,enhances
R4461 T5559 T5555 arg2Of mutant,of
R4462 T5559 T5556 arg1Of mutant,an
R4463 T5559 T5557 arg2Of mutant,activated
R4464 T5559 T5558 arg1Of mutant,PKD1
R4465 T5560 T5552 arg1Of enhances,Furthermore
R4466 T5560 T5553 arg1Of enhances,","
R4467 T5560 T5564 arg1Of enhances,[
R4468 T5563 T5560 arg2Of activation,enhances
R4469 T5563 T5561 arg1Of activation,HPK1-mediated
R447 T550 T549 arg2Of PKD3,and
R4470 T5563 T5562 arg1Of activation,NFκB
R4471 T5565 T5564 arg2Of 38,[
R4472 T5566 T5564 arg3Of ],[
R4473 T5569 T5567 arg2Of cells,In
R4474 T5569 T5568 arg1Of cells,B
R4475 T5571 T5572 arg1Of NFκB,is
R4476 T5571 T5573 arg2Of NFκB,known
R4477 T5571 T5575 arg1Of NFκB,be
R4478 T5571 T5576 arg2Of NFκB,regulated
R4479 T5573 T5572 arg2Of known,is
R448 T553 T551 arg1Of types,Most
R4480 T5573 T5584 arg1Of known,but
R4481 T5576 T5573 arg3Of regulated,known
R4482 T5576 T5574 arg1Of regulated,to
R4483 T5576 T5575 arg2Of regulated,be
R4484 T5576 T5577 arg1Of regulated,via
R4485 T5576 T5581 arg1Of regulated,[
R4486 T5578 T5579 arg1Of DAG,and
R4487 T5579 T5577 arg2Of and,via
R4488 T5580 T5579 arg2Of PKCβ,and
R4489 T5582 T5581 arg2Of "39,40",[
R449 T553 T552 arg1Of types,cell
R4490 T5583 T5581 arg3Of ],[
R4491 T5584 T5567 arg1Of but,In
R4492 T5584 T5570 arg1Of but,","
R4493 T5586 T5587 arg1Of PKDs,are
R4494 T5587 T5585 arg1Of are,whether
R4495 T5587 T5593 arg1Of are,has
R4496 T5587 T5595 arg1Of are,been
R4497 T5587 T5596 arg2Of are,explored
R4498 T5589 T5587 arg2Of intermediaries,are
R4499 T5589 T5588 arg1Of intermediaries,key
R45 T87 T89 arg1Of ",",","
R450 T553 T554 arg1Of types,express
R4500 T5589 T5590 arg1Of intermediaries,for
R4501 T5592 T5590 arg2Of regulation,for
R4502 T5592 T5591 arg1Of regulation,NFκB
R4503 T5596 T5584 arg2Of explored,but
R4504 T5596 T5593 arg2Of explored,has
R4505 T5596 T5594 arg1Of explored,not
R4506 T5596 T5595 arg2Of explored,been
R4507 T5598 T5597 arg1Of data,The
R4508 T5598 T5599 arg1Of data,(
R4509 T5598 T5603 arg1Of data,show
R451 T554 T560 arg1Of express,but
R4510 T5601 T5599 arg2Of 4A,(
R4511 T5601 T5600 arg1Of 4A,Fig.
R4512 T5602 T5599 arg3Of ),(
R4513 T5607 T5605 arg1Of activity,NFκB
R4514 T5607 T5606 arg1Of activity,transcriptional
R4515 T5607 T5608 arg1Of activity,was
R4516 T5607 T5610 arg2Of activity,induced
R4517 T5610 T5603 arg2Of induced,show
R4518 T5610 T5604 arg1Of induced,that
R4519 T5610 T5608 arg2Of induced,was
R452 T557 T555 arg1Of two,at
R4520 T5610 T5609 arg1Of induced,strongly
R4521 T5610 T5611 arg1Of induced,in
R4522 T5610 T5619 arg1Of induced,in
R4523 T5618 T5611 arg2Of cells,in
R4524 T5618 T5612 arg1Of cells,both
R4525 T5618 T5613 arg1Of cells,wild-type
R4526 T5618 T5614 arg1Of cells,and
R4527 T5618 T5615 arg1Of cells,PKD1/3−/−
R4528 T5618 T5616 arg1Of cells,DT40
R4529 T5618 T5617 arg1Of cells,B
R453 T557 T556 arg1Of two,least
R4530 T5620 T5619 arg2Of response,in
R4531 T5620 T5621 arg1Of response,to
R4532 T5624 T5623 arg1Of ester,phorbol
R4533 T5624 T5625 arg1Of ester,or
R4534 T5625 T5621 arg2Of or,to
R4535 T5625 T5622 arg1Of or,either
R4536 T5627 T5625 arg2Of stimulation,or
R4537 T5627 T5626 arg1Of stimulation,BCR
R4538 T5629 T5628 arg2Of contrast,In
R4539 T5631 T5666 arg1Of BCR,was
R454 T559 T554 arg2Of isoforms,express
R4540 T5631 T5667 arg2Of BCR,observed
R4541 T5634 T5632 arg1Of ester-induced,and
R4542 T5634 T5633 arg1Of ester-induced,phorbol
R4543 T5637 T5634 arg1Of activity,ester-induced
R4544 T5637 T5635 arg1Of activity,NFκB
R4545 T5637 T5636 arg1Of activity,transcriptional
R4546 T5637 T5638 arg1Of activity,was
R4547 T5637 T5639 arg2Of activity,abolished
R4548 T5639 T5638 arg2Of abolished,was
R4549 T5639 T5640 arg1Of abolished,in
R455 T559 T557 arg1Of isoforms,two
R4550 T5639 T5649 arg1Of abolished,","
R4551 T5639 T5650 arg1Of abolished,although
R4552 T5639 T5656 arg1Of abolished,(
R4553 T5644 T5640 arg2Of cells,in
R4554 T5644 T5641 arg1Of cells,PKCβ−/−
R4555 T5644 T5642 arg1Of cells,DT40
R4556 T5644 T5643 arg1Of cells,B
R4557 T5644 T5645 arg1Of cells,(
R4558 T5647 T5645 arg2Of 4A,(
R4559 T5647 T5646 arg1Of 4A,Fig.
R456 T559 T558 arg1Of isoforms,PKD
R4560 T5648 T5645 arg3Of ),(
R4561 T5652 T5650 arg2Of activation,although
R4562 T5652 T5651 arg1Of activation,strong
R4563 T5652 T5653 arg1Of activation,of
R4564 T5655 T5653 arg2Of kinases,of
R4565 T5655 T5654 arg1Of kinases,PKD
R4566 T5657 T5656 arg2Of as,(
R4567 T5658 T5657 arg2Of assessed,as
R4568 T5658 T5659 arg1Of assessed,by
R4569 T5660 T5659 arg2Of autophosphorylation,by
R457 T562 T561 arg1Of enzymes,PKD
R4570 T5660 T5661 arg1Of autophosphorylation,of
R4571 T5660 T5663 arg1Of autophosphorylation,at
R4572 T5662 T5661 arg2Of PKD1,of
R4573 T5664 T5663 arg2Of S916,at
R4574 T5665 T5656 arg3Of ),(
R4575 T5667 T5628 arg1Of observed,In
R4576 T5667 T5630 arg1Of observed,","
R4577 T5667 T5638 modOf observed,was
R4578 T5667 T5666 arg2Of observed,was
R4579 T5667 T5668 arg1Of observed,in
R458 T562 T563 arg1Of enzymes,are
R4580 T5671 T5668 arg2Of cells,in
R4581 T5671 T5669 arg1Of cells,the
R4582 T5671 T5670 arg1Of cells,PKCβ−/−
R4583 T5671 T5672 arg1Of cells,(
R4584 T5674 T5672 arg2Of 4B,(
R4585 T5674 T5673 arg1Of 4B,Fig.
R4586 T5675 T5672 arg3Of ),(
R4587 T5679 T5678 arg1Of kinases,PKD
R4588 T5679 T5680 arg1Of kinases,are
R4589 T5679 T5682 arg1Of kinases,essential
R459 T562 T566 arg2Of enzymes,expressed
R4590 T5679 T5684 arg1Of kinases,sufficient
R4591 T5679 T5686 arg1Of kinases,mediate
R4592 T5679 T5696 arg1Of kinases,do
R4593 T5679 T5698 arg1Of kinases,participate
R4594 T5680 T5694 arg1Of are,and
R4595 T5682 T5683 arg1Of essential,nor
R4596 T5683 T5680 arg2Of nor,are
R4597 T5683 T5681 arg1Of nor,neither
R4598 T5684 T5683 arg2Of sufficient,nor
R4599 T5686 T5682 arg2Of mediate,essential
R46 T88 T87 arg2Of Liu,","
R460 T565 T564 arg1Of highly,especially
R4600 T5686 T5684 arg2Of mediate,sufficient
R4601 T5686 T5685 arg1Of mediate,to
R4602 T5689 T5686 arg2Of activation,mediate
R4603 T5689 T5687 arg1Of activation,BCR-induced
R4604 T5689 T5688 arg1Of activation,NFκB
R4605 T5689 T5690 arg1Of activation,in
R4606 T5693 T5690 arg2Of cells,in
R4607 T5693 T5691 arg1Of cells,DT40
R4608 T5693 T5692 arg1Of cells,B
R4609 T5694 T5676 arg1Of and,Thus
R461 T566 T560 arg2Of expressed,but
R4610 T5694 T5677 arg1Of and,","
R4611 T5698 T5694 arg2Of participate,and
R4612 T5698 T5695 arg1Of participate,hence
R4613 T5698 T5696 arg2Of participate,do
R4614 T5698 T5697 arg1Of participate,not
R4615 T5698 T5699 arg1Of participate,in
R4616 T5702 T5699 arg2Of control,in
R4617 T5702 T5700 arg1Of control,DAG/PKC
R4618 T5702 T5701 arg2Of control,mediated
R4619 T5702 T5703 arg1Of control,of
R462 T566 T563 arg2Of expressed,are
R4620 T5704 T5703 arg2Of NFκB,of
R463 T566 T565 arg1Of expressed,highly
R464 T566 T567 arg1Of expressed,in
R465 T569 T567 arg2Of cells,in
R466 T569 T568 arg1Of cells,haematopoietic
R467 T569 T570 arg1Of cells,","
R468 T569 T571 arg1Of cells,where
R469 T572 T573 arg1Of they,are
R47 T89 T91 arg1Of ",",","
R470 T572 T574 arg2Of they,activated
R471 T574 T571 arg2Of activated,where
R472 T574 T573 arg2Of activated,are
R473 T574 T575 arg1Of activated,in
R474 T574 T581 arg1Of activated,[
R475 T575 T577 arg1Of in,to
R476 T576 T575 arg2Of response,in
R477 T580 T575 arg3Of stimulation,in
R478 T580 T578 arg1Of stimulation,antigen
R479 T580 T579 arg1Of stimulation,receptors
R48 T90 T89 arg2Of P.,","
R480 T582 T581 arg2Of "2,3",[
R481 T583 T581 arg3Of ],[
R482 T587 T584 arg1Of pathway,A
R483 T587 T585 arg2Of pathway,conserved
R484 T587 T586 arg1Of pathway,signalling
R485 T587 T588 arg1Of pathway,linking
R486 T587 T593 arg1Of pathway,involves
R487 T590 T588 arg2Of receptors,linking
R488 T590 T589 arg1Of receptors,antigen
R489 T590 T591 arg1Of receptors,to
R49 T91 T93 arg1Of ",",","
R490 T592 T591 arg2Of PKDs,to
R491 T595 T594 arg1Of activation,the
R492 T595 T596 arg1Of activation,of
R493 T595 T598 arg1Of activation,and
R494 T597 T596 arg2Of PLCγ,of
R495 T598 T593 arg2Of and,involves
R496 T601 T598 arg2Of production,and
R497 T601 T599 arg1Of production,the
R498 T601 T600 arg1Of production,subsequent
R499 T601 T602 arg1Of production,of
R50 T92 T91 arg2Of Spitaler,","
R500 T601 T607 arg1Of production,which
R501 T601 T608 arg1Of production,stimulates
R502 T603 T602 arg2Of diacylglycerol,of
R503 T603 T604 arg1Of diacylglycerol,(
R504 T605 T604 arg2Of DAG,(
R505 T606 T604 arg3Of ),(
R506 T609 T610 arg1Of classical,and/or
R507 T611 T610 arg2Of novel,and/or
R508 T614 T608 arg2Of Cs,stimulates
R509 T614 T609 arg1Of Cs,classical
R51 T93 T95 arg1Of ",",","
R510 T614 T611 arg1Of Cs,novel
R511 T614 T612 arg1Of Cs,protein
R512 T614 T613 arg1Of Cs,kinase
R513 T614 T615 arg1Of Cs,(
R514 T614 T618 arg1Of Cs,that
R515 T614 T619 arg1Of Cs,phosphorylate
R516 T616 T615 arg2Of PKC,(
R517 T617 T615 arg3Of ),(
R518 T619 T625 arg1Of phosphorylate,in
R519 T624 T619 arg2Of residues,phosphorylate
R52 T94 T93 arg2Of M.,","
R520 T624 T620 arg1Of residues,two
R521 T624 T621 arg1Of residues,key
R522 T624 T622 arg1Of residues,regulatory
R523 T624 T623 arg1Of residues,serine
R524 T628 T625 arg2Of loop,in
R525 T628 T626 arg1Of loop,the
R526 T628 T627 arg1Of loop,activation
R527 T628 T629 arg1Of loop,of
R528 T628 T632 arg1Of loop,[
R529 T631 T629 arg2Of kinases,of
R53 T95 T105 arg1Of ",",","
R530 T631 T630 arg1Of kinases,PKD
R531 T633 T632 arg2Of 3–6,[
R532 T634 T632 arg3Of ],[
R533 T638 T635 arg1Of region,The
R534 T638 T636 arg1Of region,N-terminal
R535 T638 T637 arg1Of region,regulatory
R536 T638 T639 arg1Of region,of
R537 T638 T642 arg1Of region,contains
R538 T641 T639 arg2Of enzymes,of
R539 T641 T640 arg1Of enzymes,PKD
R54 T96 T97 arg1Of Olson,","
R540 T642 T647 arg1Of contains,and
R541 T646 T642 arg2Of domain,contains
R542 T646 T643 arg1Of domain,a
R543 T646 T644 arg1Of domain,DAG
R544 T646 T645 arg1Of domain,binding
R545 T649 T648 arg1Of binding,direct
R546 T649 T650 arg1Of binding,of
R547 T649 T653 arg1Of binding,contributes
R548 T651 T650 arg2Of DAG,of
R549 T653 T647 arg2Of contributes,and
R55 T97 T99 arg1Of ",",","
R550 T653 T652 arg1Of contributes,also
R551 T653 T654 arg1Of contributes,to
R552 T653 T657 arg1Of contributes,[
R553 T653 T661 arg1Of contributes,well
R5531 T7047 T7043 arg1Of kinases,"40 B-lymphocyte cell line. Previously we have shown that PKDs have an essential role in regulating class II histone deacetylases in DT40 B-cells [Matthews, S.A., Liu, P., Spitaler, M., Olson, E.N., McKinsey, T.A., Cantrell, D.A. and Scharenberg, A.M. (2006) Essential role for protein kinase D family kinases in the regulation of class II histone deacetylases in B lymphocytes. Mol. Cell Biol. 26, 1569–1577]. We now show that PKDs are also required to regulate HSP27 phosphorylation in DT40 B-cells. However, in contrast to previous observations in other cell types, PKD enzymes do not regulate basic cellular processes such as proliferation or survival responses, nor NFκB transcriptional activity downstream of the B cell antigen receptor. Thus, PKDs have a selective role in DT40 B-cell biology. 1 Introduction The protein kinase D (PKD) serine/threonine kinase family has three members: PKD1, PKD2 and PKD3. Most cell types express at least two PKD isoforms but PKD enzymes are especially highly expressed in haematopoietic cells, where they are activated in response to antigen receptors stimulation [2,3]. A conserved signalling pathway linking antigen receptors to PKDs involves the activation of PLCγ and the subsequent production of diacylglycerol (DAG) which stimulates classical and/or novel protein kinase Cs (PKC) that phosphorylate two key regulatory serine residues in the activation loop of PKD kinases [3–6]. The N-terminal regulatory region of PKD enzymes contains a DAG binding domain and direct binding of DAG also contributes to PKD1 activation [7] as well as regulating the spatial location of PKD enzymes within cells [8–12]. PKD enzymes have been proposed to regulate numerous cellular functions, including cell proliferation [13–16], anti-apoptotic signals [17,18] and thymocyte development [19]. Expression of mutant catalytically inactive and constitutively activated PKDs can also modify Golgi function, cell adhesion and cell motility (reviewed in [20]). In particular, PKDs have been widely linked to the activation of the NFκB transcription factor and in regulating cell survival during oxidative stress [17,21–23]. Another recently proposed PKD1 substrate is HSP27 [24], a small heat shock protein involved in regulating cell migration and cell survival [25]. An essential role for PKD enzymes in regulating class II histone deacetylases (HDACs), enzymes that repress MEF2-dependent gene transcription, has also been demonstrated [1,26–28]. To investigate the biological role of PKDs we have generated DT40 B cell lines that lack expression of one or more members of the PKD family [1], allowing us to investigate the function(s) of PKD isoforms following B cell antigen receptor (BCR) stimulation, as well addressing the issue of functional redundancy between the different PKD family members. Previous studies have shown that PKDs are indispensable for HDAC regulation in B cells [1]. Herein we show that PKDs are also indispensable for HSP27 phosphorylation in B cells. However, PKD-null DT40 B cells are viable and proliferate normally. Moreover, loss of the entire cellular pool of PKD does not critically affect oxidative stress responses in B cells nor do PKD kinases play an essential role in regulating NFκB transcriptional activity. Together, these findings reveal that in B lymphocytes, PKD kinases are not critical regulators of many of the cellular processes previously ascribed to them in other cellular systems. 2 Materials and methods 2.1 Cell culture, transient transfections and cell stimulation The generation, culture and activation of PKD1−/−, PKD3−/− and PKD1/3−/− knockout DT40 B cell lines have been described previously [1]. Cells were lysed and protein extracts were analysed in Western blotting experiments as previously described [1]. Chloramphenicol acetyl transferase assays have been described previously [29]. 2.2 sIgM staining DT40 B cells (2 × 106 cells per point) were resuspended in 200 μl buffer (RPMI 1640 media, 1% foetal calf serum) containing anti-chicken M1 monoclonal antibody conjugated to FITC for 20 min on ice. The cells were washed twice and fluorescent intensity was analysed by flow cytometry. All results shown are representative of at two to four independent experiments unless otherwise indicated. 3 Results 3.1 Loss of HSP27 phosphorylation in DT40 B cells lacking expression of PKD family kinases DT40 B cells express two PKD isoforms, PKD1 and PKD3, and as previously described we have recently generated DT40 B cell lines that lack expression of either PKD1 or PKD3 or both enzymes [1]. In generating the double knockout cell lines we targeted the PKD1 loci in a PKD3−/− cell line that expressed a Flag-PKD3 transgene under the control of a doxycycline-inducible promoter. Hence, in the presence of doxycycline, Flag-PKD3 expression in PKD1/3 double knockout cells is comparable to endogenous PKD3 present in wild-type DT40 cells and removal of doxycycline from the culture media for 5 days results in a completely null PKD phenotype (Fig. 1A). Previously, we have demonstrated that phosphorylation and nuclear exclusion of class II histone deacetylases (HDACs) during BCR engagement is defective in PKD1/3−/− B cells and can restored upon re-expression of a single PKD isoform [1]. The small heat shock protein HSP27 has recently been proposed as a PKD1 substrate [24] and we accordingly assessed whether PKD-null DT40 cells have defective phosphorylation of HSP27 on serine 82, the proposed PKD1 substrate sequence. We initially investigated the regulation of HSP27 phosphorylation in single knockout DT40 B cells lacking either PKD1 or PKD3. As shown in Fig. 1B, activation of the BCR or treatment with the DAG-mimetic PdBu increased the levels of HSP27 phosphorylation at S82 in wild-type DT40 B cells. BCR and phorbol ester signals were also able to increase HSP27 phosphorylation in PKD1 or PKD3 single knockout DT40 B cells (Fig. 1B). However, BCR- and phorbol ester-induced phosphorylation of HSP27 on S82 was abolished in B cells that lacked both PKD1 and PKD3 (Fig. 1C). Significantly, doxycycline-induced expression of the Flag-PKD3 transgene in the double knockout cells was sufficient to restore normal regulation of HSP27 phosphorylation (Fig. 1C). In contrast, expression of a kinase-deficient PKD3 mutant protein in the double knockout cells was not able to restore BCR- or phorbol ester-induced HSP27 phosphorylation (Fig. 1D). Hence, PKD3 as well as PKD1 can regulate HSP27 phosphorylation and in DT40 B cells they are functionally redundant as HSP27 kinases. 3.2 Cellular proliferation and survival in DT40 B cells lacking expression of PKD family kinases PKD enzymes have previously been linked to the regulation of cell proliferation and survival (reviewed in [20]). To investigate the effect that loss of PKD kinases had on B cell survival and/or proliferation we cultured wild-type and PKD-null cells in the presence (PKD1/3−/−: Flag-PKD3+ve) or absence (PKD1/3−/−) of doxycycline and monitored exponential growth. As shown in Fig. 2A, PKD1/3−/− cells proliferated exponentially and re-expression of Flag-PKD3 in these cells had no impact on the rate of proliferation. Furthermore, the viability of PKD1/3−/− B cells during routine culturing was not significantly different from that of wild-type B cells (data not shown). It was noted that the population doubling time of PKD1/3−/− cells was slightly slower than that of wild type DT40 cells (12.7 ± 2.8 h versus 10.2 ± 0.4 h) but the failure of PKD3 re-expression to modify the proliferation rate of PKD1/3−/− cells suggests that these small differences were most likely the result of clonal variation and were not caused specifically by loss of PKD enzymes. Thus, PKD family enzymes are not essential for regulating basal survival and proliferation of DT40 B cells. PKD enzymes, specifically PKD1 and PKD2, have previously been linked to a protective role against oxidative stress-induced injury in 3T3 fibroblast, HeLa and epithelial cell lines [17,30–32]. We therefore addressed the role of PKD family kinases in regulating B cell survival in response to oxidative stress and other stress stimuli. As shown in Fig. 2B, loss of PKD1/3 expression had no significant impact on the survival of DT40 B cells in response to mitochondrial stress stimuli (H2O2 or serum deprivation); DNA damaging agents (etoposide or doxorubicin); ER pathway stress due to calcium overload (thapsigargin) or following prolonged treatment with phorbol esters or Trichostatin A, an inhibitor of class I/II HDACs. Thus, PKD kinases do not play an essential role in regulating B cell survival in response to a range of different stress stimuli. 3.3 Antigen receptor regulated signalling pathways in PKD-null DT40 B cells To further explore the contribution of PKD kinases to DT40 B cell biology we investigated whether specific BCR-regulated signalling events were defective in the PKD-null B cells. Initial experiments revealed that surface expression of the BCR was reduced in PKD1/3−/− (and in PKD1/3−/−:Flag-PKD3+ve) cells compared to wild-type DT40 B cells (Fig. 3A and data not shown). Nevertheless, BCR-crosslinking of PKD1/3−/− cells was sufficient to induce the activation of a number of signalling cascades, similar to that observed in wild-type cells (Fig. 3B). Hence, BCR-induced activation of the Akt, mTOR/p70 S6 kinase (as shown by S6 ribosomal protein phosphorylation) and MAPK signalling pathways was clearly detectable in PKD1/3-null B cells (Fig. 3B). Furthermore, enhanced tyrosine phosphorylation of multiple cellular proteins as well as an increase in intracellular calcium levels was also observed following BCR stimulation of PKD1/3-null B cells (data not shown). We did observe that the strength of BCR (but not phorbol ester)-induced regulation of the Erk1-RSK1 signalling pathway was reduced in PKD1/3−/− B cells compared to wild-type B cells (Fig. 3B). One interpretation of this data is that PKD enzymes may modulate Erk activation. Indeed, PKD enzymes have previously been linked to the growth factor-regulated Erk signalling in fibroblast and endothelial cell lines [33–35]. However, BCR-induced Erk phosphorylation was also reduced in PKD1/3−/−-Flag-PKD3+ B cells (data not shown) suggesting that reduced BCR levels on the surface of PKD1/3−/− (and PKD1/3−/−-Flag-PKD3+) B cells may itself impact on the strength of activation of this specific intracellular signalling pathway. To search for other potential PKD targets that may show defective regulation in PKD1/3−/− DT40 B cells, we used a PKD substrate phospho-antibody that recognises consensus phosphorylation sequences targeted by PKD enzymes (LxRxxpS/T) [36]. As shown in Fig. 3C, phorbol ester- and BCR-induced phosphorylation of cellular substrates detected by this phospho-antibody was similar in wild-type and PKD1/3−/− cells and is therefore independent of PKD enzymes. However, pretreatment of both wild-type and PKD1/3−/− DT40 B cells with GF109203X, a bisindoylmaleimide derivative that inhibits PKCs prevented the induction of proteins that contain phosphorylated LxRxxS/T motifs. Thus loss of PKD1/3 enzymes does not globally disrupt the phosphorylation of cellular proteins that contain LxRxxpS/T motifs. This result is perhaps not surprising as LxRxxS/T motifs also act as good substrates for other serine/threonine kinases such as MAPKAPK2. However these experiments do provide further evidence that phosphospecific antisera are not sufficiently selective to be designated kinase specific substrate antisera. BCR-induced signalling pathways culminate in the activation of gene transcription events that control B cell survival, proliferation and function. In this context, it has been proposed that PKD family members control of gene transcription through activation of the NFκB transcription factor. Thus, PKD-mediated activation of NFκB occurs downstream of a variety of different signals, including mROS/oxidative stress, lysophosphatidic acid and the Bcr-Abl oncogene [17,21,23,30,37]. Furthermore, expression of an activated PKD1 mutant enhances HPK1-mediated NFκB activation [38]. In B cells, NFκB is known to be regulated via DAG and PKCβ [39,40] but whether PKDs are key intermediaries for NFκB regulation has not been explored. The data (Fig. 4A) show that NFκB transcriptional activity was strongly induced in both wild-type and PKD1/3−/− DT40 B cells in response to either phorbol ester or BCR stimulation. In contrast, BCR and phorbol ester-induced NFκB transcriptional activity was abolished in PKCβ−/− DT40 B cells (Fig. 4A), although strong activation of PKD kinases (as assessed by autophosphorylation of PKD1 at S916) was observed in the PKCβ−/− cells (Fig. 4B). Thus, PKD kinases are neither essential nor sufficient to mediate BCR-induced NFκB activation in DT40 B cells and hence do not participate in DAG/PKC mediated control of NFκB. 4 Discussion Protein"
R5532 T7047 T7044 arg1Of kinases,kinase
R5533 T7047 T7045 arg1Of kinases,D
R5534 T7047 T7046 arg1Of kinases,serine
R5535 T7047 T7048 arg1Of kinases,have
R5536 T7047 T7049 arg1Of kinases,been
R5537 T7047 T7050 arg2Of kinases,proposed
R5538 T7047 T7052 arg1Of kinases,regulate
R5539 T7050 T7048 arg2Of proposed,have
R554 T653 T662 arg1Of contributes,as
R5540 T7050 T7049 arg2Of proposed,been
R5541 T7052 T7050 arg3Of regulate,proposed
R5542 T7052 T7051 arg1Of regulate,to
R5543 T7055 T7052 arg2Of functions,regulate
R5544 T7055 T7053 arg1Of functions,diverse
R5545 T7055 T7054 arg1Of functions,cellular
R5546 T7055 T7056 arg1Of functions,including
R5547 T7058 T7059 arg1Of phosphorylation,and
R5548 T7059 T7057 arg1Of and,the
R5549 T7059 T7062 arg1Of and,of
R555 T656 T654 arg2Of activation,to
R5550 T7059 T7066 arg1Of and,and
R5551 T7061 T7059 arg2Of localisation,and
R5552 T7061 T7060 arg1Of localisation,nuclear
R5553 T7065 T7062 arg2Of HDACs,of
R5554 T7065 T7063 arg1Of HDACs,class
R5555 T7065 T7064 arg1Of HDACs,II
R5556 T7066 T7056 arg2Of and,including
R5557 T7068 T7066 arg2Of phosphorylation,and
R5558 T7068 T7067 arg1Of phosphorylation,the
R5559 T7068 T7069 arg1Of phosphorylation,of
R556 T656 T655 arg1Of activation,PKD1
R5560 T7070 T7069 arg2Of HSP27,of
R5561 T7071 T7072 arg1Of It,has
R5562 T7071 T7074 arg1Of It,been
R5563 T7071 T7075 arg2Of It,suggested
R5564 T7075 T7072 arg2Of suggested,has
R5565 T7075 T7073 arg1Of suggested,also
R5566 T7075 T7074 arg2Of suggested,been
R5567 T7077 T7078 arg1Of PKDs,act
R5568 T7077 T7086 arg1Of PKDs,play
R5569 T7077 T7090 arg1Of PKDs,regulating
R557 T658 T657 arg2Of 7,[
R5570 T7078 T7079 arg1Of act,as
R5571 T7078 T7085 arg1Of act,and
R5572 T7081 T7079 arg2Of sensors,as
R5573 T7081 T7080 arg1Of sensors,mitochondrial
R5574 T7081 T7082 arg1Of sensors,for
R5575 T7084 T7082 arg2Of stress,for
R5576 T7084 T7083 arg1Of stress,oxidative
R5577 T7085 T7075 arg3Of and,suggested
R5578 T7085 T7076 arg1Of and,that
R5579 T7086 T7085 arg2Of play,and
R558 T659 T657 arg3Of ],[
R5580 T7086 T7089 arg1Of play,in
R5581 T7088 T7086 arg2Of role,play
R5582 T7088 T7087 arg1Of role,a
R5583 T7090 T7089 arg2Of regulating,in
R5584 T7093 T7090 arg2Of factors,regulating
R5585 T7093 T7091 arg1Of factors,NFκB
R5586 T7093 T7092 arg1Of factors,transcription
R5587 T7093 T7094 arg1Of factors,[
R5588 T7095 T7094 arg2Of 41,[
R5589 T7096 T7094 arg3Of ],[
R559 T661 T660 arg1Of well,as
R5590 T7097 T7098 arg1Of Most,of
R5591 T7097 T7101 arg1Of Most,about
R5592 T7097 T7106 arg1Of Most,has
R5593 T7097 T7107 arg1Of Most,come
R5594 T7100 T7098 arg2Of data,of
R5595 T7100 T7099 arg1Of data,the
R5596 T7103 T7101 arg2Of function,about
R5597 T7103 T7102 arg1Of function,the
R5598 T7103 T7104 arg1Of function,of
R5599 T7105 T7104 arg2Of PKDs,of
R56 T98 T97 arg2Of E.N.,","
R560 T663 T662 arg2Of regulating,as
R5600 T7107 T7106 arg2Of come,has
R5601 T7107 T7108 arg1Of come,from
R5602 T7109 T7108 arg2Of experiments,from
R5603 T7109 T7110 arg1Of experiments,that
R5604 T7109 T7112 arg1Of experiments,express
R5605 T7109 T7119 arg1Of experiments,that
R5606 T7109 T7120 arg1Of experiments,use
R5607 T7109 T7123 arg1Of experiments,reduce
R5608 T7112 T7111 arg1Of express,ectopically
R5609 T7112 T7118 arg1Of express,or
R561 T666 T663 arg2Of location,regulating
R5610 T7113 T7114 arg1Of active,or
R5611 T7115 T7114 arg2Of inhibitory,or
R5612 T7117 T7112 arg2Of mutants,express
R5613 T7117 T7113 arg1Of mutants,active
R5614 T7117 T7115 arg1Of mutants,inhibitory
R5615 T7117 T7116 arg1Of mutants,PKD
R5616 T7120 T7118 arg2Of use,or
R5617 T7120 T7122 modOf use,to
R5618 T7121 T7120 arg2Of RNAi,use
R5619 T7123 T7122 arg1Of reduce,to
R562 T666 T664 arg1Of location,the
R5620 T7125 T7123 arg2Of expression,reduce
R5621 T7125 T7124 arg1Of expression,PKD
R5622 T7126 T7127 arg1Of We,have
R5623 T7126 T7128 arg1Of We,used
R5624 T7126 T7133 arg1Of We,delete
R5625 T7126 T7142 arg1Of We,can
R5626 T7126 T7144 arg1Of We,use
R5627 T7126 T7149 arg1Of We,assess
R5628 T7128 T7127 arg2Of used,have
R5629 T7128 T7141 arg1Of used,and
R563 T666 T665 arg1Of location,spatial
R5630 T7130 T7128 arg2Of targeting,used
R5631 T7130 T7129 arg1Of targeting,gene
R5632 T7133 T7128 arg3Of delete,used
R5633 T7133 T7131 arg1Of delete,to
R5634 T7133 T7132 arg1Of delete,specifically
R5635 T7135 T7133 arg2Of alleles,delete
R5636 T7135 T7134 arg1Of alleles,PKD
R5637 T7135 T7136 arg1Of alleles,in
R5638 T7140 T7136 arg2Of cells,in
R5639 T7140 T7137 arg1Of cells,DT40
R564 T666 T667 arg1Of location,of
R5640 T7140 T7138 arg1Of cells,chicken
R5641 T7140 T7139 arg1Of cells,B
R5642 T7144 T7141 arg2Of use,and
R5643 T7144 T7142 arg2Of use,can
R5644 T7144 T7143 arg1Of use,thus
R5645 T7144 T7148 modOf use,to
R5646 T7147 T7144 arg2Of cells,use
R5647 T7147 T7145 arg1Of cells,PKD-null
R5648 T7147 T7146 arg1Of cells,DT40
R5649 T7149 T7148 arg1Of assess,to
R565 T666 T670 arg1Of location,within
R5650 T7152 T7149 arg2Of contribution,assess
R5651 T7152 T7150 arg1Of contribution,the
R5652 T7152 T7151 arg1Of contribution,relative
R5653 T7152 T7153 arg1Of contribution,of
R5654 T7152 T7157 arg1Of contribution,in
R5655 T7156 T7153 arg2Of isoforms,of
R5656 T7156 T7154 arg1Of isoforms,individual
R5657 T7156 T7155 arg1Of isoforms,PKD
R5658 T7161 T7158 arg1Of control,class
R5659 T7161 T7159 arg1Of control,II
R566 T669 T667 arg2Of enzymes,of
R5660 T7161 T7160 arg1Of control,HDAC
R5661 T7161 T7162 arg1Of control,versus
R5662 T7161 T7166 arg1Of control,and
R5663 T7165 T7162 arg2Of responses,versus
R5664 T7165 T7163 arg1Of responses,oxidative
R5665 T7165 T7164 arg1Of responses,stress
R5666 T7166 T7157 arg2Of and,in
R5667 T7168 T7166 arg2Of regulation,and
R5668 T7168 T7167 arg1Of regulation,NFκB
R5669 T7168 T7169 arg1Of regulation,in
R567 T669 T668 arg1Of enzymes,PKD
R5670 T7170 T7169 arg2Of lymphocytes,in
R5671 T7171 T7172 arg1Of We,have
R5672 T7171 T7174 arg1Of We,used
R5673 T7171 T7180 arg1Of We,define
R5674 T7171 T7204 arg1Of We,regulating
R5675 T7174 T7172 arg2Of used,have
R5676 T7174 T7173 arg1Of used,previously
R5677 T7174 T7179 modOf used,to
R5678 T7174 T7192 arg1Of used,","
R5679 T7178 T7174 arg2Of cells,used
R568 T671 T670 arg2Of cells,within
R5680 T7178 T7175 arg1Of cells,these
R5681 T7178 T7176 arg1Of cells,PKD-null
R5682 T7178 T7177 arg1Of cells,DT40
R5683 T7180 T7179 arg1Of define,to
R5684 T7183 T7180 arg2Of role,define
R5685 T7183 T7181 arg1Of role,an
R5686 T7183 T7182 arg1Of role,essential
R5687 T7183 T7184 arg1Of role,for
R5688 T7183 T7186 arg1Of role,in
R5689 T7185 T7184 arg2Of PKDs,for
R569 T671 T672 arg1Of cells,[
R5690 T7187 T7186 arg2Of regulation,in
R5691 T7187 T7188 arg1Of regulation,of
R5692 T7191 T7188 arg2Of HDACs,of
R5693 T7191 T7189 arg1Of HDACs,class
R5694 T7191 T7190 arg1Of HDACs,II
R5695 T7192 T7203 arg1Of ",",in
R5696 T7195 T7193 arg1Of report,the
R5697 T7195 T7194 arg1Of report,present
R5698 T7195 T7197 arg1Of report,describes
R5699 T7197 T7192 arg2Of describes,","
R57 T99 T101 arg1Of ",",","
R570 T673 T672 arg2Of 8–12,[
R5700 T7197 T7196 arg1Of describes,now
R5701 T7200 T7197 arg2Of role,describes
R5702 T7200 T7198 arg1Of role,an
R5703 T7200 T7199 arg1Of role,indispensable
R5704 T7200 T7201 arg1Of role,for
R5705 T7202 T7201 arg2Of PKDs,for
R5706 T7204 T7203 arg2Of regulating,in
R5707 T7206 T7204 arg2Of phosphorylation,regulating
R5708 T7206 T7205 arg1Of phosphorylation,the
R5709 T7206 T7207 arg1Of phosphorylation,of
R571 T674 T672 arg3Of ],[
R5710 T7206 T7209 arg1Of phosphorylation,on
R5711 T7206 T7212 arg1Of phosphorylation,","
R5712 T7208 T7207 arg2Of HSP27,of
R5713 T7210 T7209 arg2Of serine,on
R5714 T7210 T7211 arg1Of serine,82
R5715 T7214 T7212 arg2Of site,","
R5716 T7214 T7213 arg1Of site,a
R5717 T7214 T7216 arg2Of site,identified
R5718 T7216 T7215 arg1Of identified,previously
R5719 T7216 T7217 arg1Of identified,as
R572 T676 T675 arg1Of enzymes,PKD
R5720 T7219 T7217 arg2Of target,as
R5721 T7219 T7218 arg1Of target,a
R5722 T7219 T7220 arg1Of target,for
R5723 T7224 T7220 arg2Of cascade,for
R5724 T7224 T7221 arg1Of cascade,the
R5725 T7224 T7222 arg1Of cascade,p38-MAPKAPK2
R5726 T7224 T7223 arg1Of cascade,signalling
R5727 T7224 T7225 arg1Of cascade,[
R5728 T7226 T7225 arg2Of 42,[
R5729 T7227 T7225 arg3Of ],[
R573 T676 T677 arg1Of enzymes,have
R5730 T7230 T7231 arg1Of studies,of
R5731 T7230 T7235 arg1Of studies,reveal
R5732 T7234 T7231 arg2Of cells,of
R5733 T7234 T7232 arg1Of cells,PKD-null
R5734 T7234 T7233 arg1Of cells,DT40
R5735 T7235 T7228 arg1Of reveal,However
R5736 T7235 T7229 arg1Of reveal,","
R5737 T7239 T7237 arg1Of kinases,PKD
R5738 T7239 T7238 arg1Of kinases,family
R5739 T7239 T7240 arg1Of kinases,are
R574 T676 T678 arg1Of enzymes,been
R5740 T7239 T7242 arg1Of kinases,essential
R5741 T7240 T7241 arg1Of are,not
R5742 T7240 T7248 arg1Of are,nor
R5743 T7242 T7240 arg2Of essential,are
R5744 T7242 T7243 arg1Of essential,for
R5745 T7247 T7243 arg2Of responses,for
R5746 T7247 T7244 arg1Of responses,oxidative
R5747 T7247 T7245 arg1Of responses,stress
R5748 T7247 T7246 arg1Of responses,survival
R5749 T7248 T7235 arg2Of nor,reveal
R575 T676 T679 arg2Of enzymes,proposed
R5750 T7248 T7236 arg1Of nor,that
R5751 T7249 T7248 arg2Of are,nor
R5752 T7250 T7249 arg1Of they,are
R5753 T7250 T7251 arg2Of they,required
R5754 T7251 T7252 arg1Of required,for
R5755 T7253 T7252 arg2Of activation,for
R5756 T7253 T7254 arg1Of activation,of
R5757 T7257 T7254 arg2Of factors,of
R5758 T7257 T7255 arg1Of factors,NFκB
R5759 T7257 T7256 arg1Of factors,transcription
R576 T676 T681 arg1Of enzymes,regulate
R5760 T7260 T7258 arg1Of findings,These
R5761 T7260 T7259 arg1Of findings,latter
R5762 T7260 T7261 arg1Of findings,are
R5763 T7260 T7262 arg1Of findings,in
R5764 T7262 T7261 arg2Of in,are
R5765 T7264 T7262 arg2Of contrast,in
R5766 T7264 T7263 arg1Of contrast,striking
R5767 T7264 T7265 arg1Of contrast,to
R5768 T7267 T7266 arg1Of observations,previous
R5769 T7267 T7268 arg1Of observations,in
R577 T679 T677 arg2Of proposed,have
R5770 T7267 T7270 arg1Of observations,and
R5771 T7269 T7268 arg2Of HeLa,in
R5772 T7270 T7265 arg2Of and,to
R5773 T7273 T7270 arg2Of lines,and
R5774 T7273 T7271 arg1Of lines,epithelial
R5775 T7273 T7272 arg1Of lines,cell
R5776 T7273 T7274 arg1Of lines,where
R5777 T7276 T7275 arg1Of approaches,overexpression/RNAi
R5778 T7276 T7277 arg1Of approaches,have
R5779 T7276 T7278 arg1Of approaches,implicated
R578 T679 T678 arg2Of proposed,been
R5780 T7278 T7274 arg2Of implicated,where
R5781 T7278 T7277 arg2Of implicated,have
R5782 T7278 T7280 arg1Of implicated,in
R5783 T7279 T7278 arg2Of PKD1/2,implicated
R5784 T7282 T7280 arg2Of control,in
R5785 T7282 T7281 arg1Of control,the
R5786 T7282 T7283 arg1Of control,of
R5787 T7284 T7285 arg1Of proliferation,","
R5788 T7285 T7287 arg1Of ",",and
R5789 T7286 T7285 arg2Of survival,","
R579 T681 T679 arg3Of regulate,proposed
R5790 T7287 T7283 arg2Of and,of
R5791 T7289 T7287 arg2Of activation,and
R5792 T7289 T7288 arg1Of activation,NFκB
R5793 T7289 T7290 arg1Of activation,[
R5794 T7291 T7290 arg2Of "20,23",[
R5795 T7292 T7290 arg3Of ],[
R5796 T7297 T7295 arg1Of report,the
R5797 T7297 T7296 arg1Of report,present
R5798 T7297 T7298 arg1Of report,shows
R5799 T7298 T7293 arg1Of shows,Hence
R58 T100 T99 arg2Of McKinsey,","
R580 T681 T680 arg1Of regulate,to
R5800 T7298 T7294 arg1Of shows,","
R5801 T7302 T7300 arg1Of roles,the
R5802 T7302 T7301 arg2Of roles,proposed
R5803 T7302 T7303 arg1Of roles,for
R5804 T7302 T7305 arg1Of roles,as
R5805 T7302 T7308 arg1Of roles,that
R5806 T7302 T7309 arg1Of roles,modulate
R5807 T7302 T7318 arg1Of roles,regulate
R5808 T7302 T7323 arg1Of roles,are
R5809 T7302 T7325 arg1Of roles,ubiquitous
R581 T684 T681 arg2Of functions,regulate
R5810 T7302 T7327 arg1Of roles,may
R5811 T7302 T7328 arg1Of roles,be
R5812 T7302 T7329 arg1Of roles,restricted
R5813 T7304 T7303 arg2Of PKDs,for
R5814 T7307 T7305 arg2Of sensors,as
R5815 T7307 T7306 arg1Of sensors,key
R5816 T7309 T7312 arg1Of modulate,in
R5817 T7309 T7317 arg1Of modulate,and
R5818 T7311 T7309 arg2Of pathways,modulate
R5819 T7311 T7310 arg1Of pathways,survival
R582 T684 T682 arg1Of functions,numerous
R5820 T7312 T7314 arg1Of in,to
R5821 T7313 T7312 arg2Of response,in
R5822 T7316 T7312 arg3Of stress,in
R5823 T7316 T7315 arg1Of stress,oxidative
R5824 T7318 T7317 arg2Of regulate,and
R5825 T7320 T7321 arg1Of survival,and
R5826 T7321 T7318 arg2Of and,regulate
R5827 T7321 T7319 arg1Of and,cell
R5828 T7322 T7321 arg2Of proliferation,and
R5829 T7323 T7324 arg1Of are,not
R583 T684 T683 arg1Of functions,cellular
R5830 T7323 T7326 arg1Of are,and
R5831 T7325 T7323 arg2Of ubiquitous,are
R5832 T7326 T7298 arg2Of and,shows
R5833 T7326 T7299 arg1Of and,that
R5834 T7328 T7326 arg2Of be,and
R5835 T7328 T7327 arg2Of be,may
R5836 T7329 T7328 arg2Of restricted,be
R5837 T7329 T7330 arg1Of restricted,to
R5838 T7333 T7330 arg2Of lineages,to
R5839 T7333 T7331 arg1Of lineages,certain
R584 T684 T685 arg1Of functions,","
R5840 T7333 T7332 arg1Of lineages,cell
R5841 T7334 T7335 arg1Of Taken,together
R5842 T7338 T7337 arg1Of data,these
R5843 T7338 T7339 arg1Of data,indicate
R5844 T7339 T7334 modOf indicate,Taken
R5845 T7339 T7336 arg1Of indicate,","
R5846 T7341 T7342 arg1Of loss,of
R5847 T7341 T7348 arg1Of loss,does
R5848 T7343 T7342 arg2Of expression,of
R5849 T7343 T7344 arg1Of expression,of
R585 T684 T686 arg1Of functions,including
R5850 T7347 T7344 arg2Of members,of
R5851 T7347 T7345 arg1Of members,PKD
R5852 T7347 T7346 arg1Of members,family
R5853 T7348 T7339 arg2Of does,indicate
R5854 T7348 T7340 arg1Of does,that
R5855 T7348 T7349 arg1Of does,not
R5856 T7348 T7350 arg1Of does,globally
R5857 T7348 T7352 arg1Of does,on
R5858 T7351 T7350 arg2Of impact,globally
R5859 T7356 T7352 arg2Of pathways,on
R586 T688 T687 arg1Of proliferation,cell
R5860 T7356 T7353 arg1Of pathways,early
R5861 T7356 T7354 arg1Of pathways,BCR-regulated
R5862 T7356 T7355 arg1Of pathways,signalling
R587 T688 T689 arg1Of proliferation,[
R588 T688 T692 arg1Of proliferation,","
R589 T690 T689 arg2Of 13–16,[
R59 T101 T103 arg1Of ",",","
R590 T691 T689 arg3Of ],[
R591 T692 T698 arg1Of ",",and
R592 T694 T692 arg2Of signals,","
R593 T694 T693 arg1Of signals,anti-apoptotic
R594 T694 T695 arg1Of signals,[
R595 T696 T695 arg2Of "17,18",[
R596 T697 T695 arg3Of ],[
R597 T698 T686 arg2Of and,including
R598 T700 T698 arg2Of development,and
R599 T700 T699 arg1Of development,thymocyte
R60 T102 T101 arg2Of T.A.,","
R600 T700 T701 arg1Of development,[
R601 T702 T701 arg2Of 19,[
R602 T703 T701 arg3Of ],[
R603 T704 T705 arg1Of Expression,of
R604 T704 T713 arg1Of Expression,can
R605 T704 T715 arg1Of Expression,modify
R606 T708 T709 arg1Of inactive,and
R607 T710 T709 arg2Of constitutively,and
R608 T712 T705 arg2Of PKDs,of
R609 T712 T706 arg1Of PKDs,mutant
R61 T103 T95 arg2Of ",",","
R610 T712 T707 arg1Of PKDs,catalytically
R611 T712 T708 arg1Of PKDs,inactive
R612 T712 T710 arg1Of PKDs,constitutively
R613 T712 T711 arg2Of PKDs,activated
R614 T715 T713 arg2Of modify,can
R615 T715 T714 arg1Of modify,also
R616 T717 T716 arg1Of function,Golgi
R617 T717 T718 arg1Of function,","
R618 T718 T721 arg1Of ",",and
R619 T720 T718 arg2Of adhesion,","
R62 T104 T103 arg2Of Cantrell,","
R620 T720 T719 arg1Of adhesion,cell
R621 T721 T715 arg2Of and,modify
R622 T723 T721 arg2Of motility,and
R623 T723 T722 arg1Of motility,cell
R624 T723 T724 arg1Of motility,(
R625 T725 T724 arg2Of reviewed,(
R626 T725 T726 arg1Of reviewed,in
R627 T725 T727 arg1Of reviewed,[
R628 T728 T727 arg2Of 20,[
R629 T729 T727 arg3Of ],[
R63 T105 T107 arg1Of ",",and
R630 T730 T724 arg3Of ),(
R631 T732 T731 arg2Of particular,In
R632 T734 T735 arg1Of PKDs,have
R633 T734 T736 arg1Of PKDs,been
R634 T734 T738 arg2Of PKDs,linked
R635 T734 T749 arg1Of PKDs,regulating
R636 T738 T731 arg1Of linked,In
R637 T738 T733 arg1Of linked,","
R638 T738 T735 arg2Of linked,have
R639 T738 T736 arg2Of linked,been
R64 T106 T105 arg2Of D.A.,","
R640 T738 T737 arg1Of linked,widely
R641 T738 T739 arg1Of linked,to
R642 T738 T748 arg1Of linked,in
R643 T739 T747 arg1Of to,and
R644 T741 T739 arg2Of activation,to
R645 T741 T740 arg1Of activation,the
R646 T741 T742 arg1Of activation,of
R647 T746 T742 arg2Of factor,of
R648 T746 T743 arg1Of factor,the
R649 T746 T744 arg1Of factor,NFκB
R65 T108 T109 arg1Of Scharenberg,","
R650 T746 T745 arg1Of factor,transcription
R651 T748 T747 arg2Of in,and
R652 T749 T748 arg2Of regulating,in
R653 T749 T752 arg1Of regulating,during
R654 T751 T749 arg2Of survival,regulating
R655 T751 T750 arg1Of survival,cell
R656 T754 T752 arg2Of stress,during
R657 T754 T753 arg1Of stress,oxidative
R658 T754 T755 arg1Of stress,[
R659 T756 T755 arg2Of "17,21–23",[
R66 T109 T107 arg2Of ",",and
R660 T757 T755 arg3Of ],[
R661 T760 T759 arg1Of proposed,recently
R662 T762 T758 arg1Of substrate,Another
R663 T762 T760 arg1Of substrate,proposed
R664 T762 T761 arg1Of substrate,PKD1
R665 T762 T763 arg1Of substrate,is
R666 T764 T763 arg2Of HSP27,is
R667 T764 T765 arg1Of HSP27,[
R668 T764 T768 arg1Of HSP27,","
R669 T766 T765 arg2Of 24,[
R67 T110 T109 arg2Of A.M.,","
R670 T767 T765 arg3Of ],[
R671 T773 T768 arg2Of protein,","
R672 T773 T769 arg1Of protein,a
R673 T773 T770 arg1Of protein,small
R674 T773 T771 arg1Of protein,heat
R675 T773 T772 arg1Of protein,shock
R676 T773 T774 arg2Of protein,involved
R677 T774 T775 arg1Of involved,in
R678 T776 T775 arg2Of regulating,in
R679 T776 T782 arg1Of regulating,[
R68 T112 T111 arg2Of 2006,(
R680 T778 T777 arg1Of migration,cell
R681 T778 T779 arg1Of migration,and
R682 T779 T776 arg2Of and,regulating
R683 T781 T779 arg2Of survival,and
R684 T781 T780 arg1Of survival,cell
R685 T783 T782 arg2Of 25,[
R686 T784 T782 arg3Of ],[
R687 T787 T785 arg1Of role,An
R688 T787 T786 arg1Of role,essential
R689 T787 T788 arg1Of role,for
R69 T113 T111 arg3Of ),(
R690 T787 T808 arg1Of role,has
R691 T787 T810 arg1Of role,been
R692 T787 T811 arg2Of role,demonstrated
R693 T790 T788 arg2Of enzymes,for
R694 T790 T789 arg1Of enzymes,PKD
R695 T790 T791 arg1Of enzymes,in
R696 T792 T791 arg2Of regulating,in
R697 T796 T792 arg2Of deacetylases,regulating
R698 T796 T793 arg1Of deacetylases,class
R699 T796 T794 arg1Of deacetylases,II
R7 T51 T49 arg1Of D,protein
R70 T115 T80 arg3Of role,in
R700 T796 T795 arg1Of deacetylases,histone
R701 T796 T797 arg1Of deacetylases,(
R702 T796 T800 arg1Of deacetylases,","
R703 T798 T797 arg2Of HDACs,(
R704 T799 T797 arg3Of ),(
R705 T801 T800 arg2Of enzymes,","
R706 T801 T802 arg1Of enzymes,that
R707 T801 T803 arg1Of enzymes,repress
R708 T806 T803 arg2Of transcription,repress
R709 T806 T804 arg1Of transcription,MEF2-dependent
R71 T115 T83 arg1Of role,[
R710 T806 T805 arg1Of transcription,gene
R711 T811 T807 arg1Of demonstrated,","
R712 T811 T808 arg2Of demonstrated,has
R713 T811 T809 arg1Of demonstrated,also
R714 T811 T810 arg2Of demonstrated,been
R715 T811 T812 arg1Of demonstrated,[
R716 T813 T812 arg2Of "1,26–28",[
R717 T814 T812 arg3Of ],[
R718 T816 T815 arg1Of investigate,To
R719 T819 T816 arg2Of role,investigate
R72 T115 T84 arg1Of role,Matthews
R720 T819 T817 arg1Of role,the
R721 T819 T818 arg1Of role,biological
R722 T819 T820 arg1Of role,of
R723 T821 T820 arg2Of PKDs,of
R724 T822 T816 arg1Of we,investigate
R725 T822 T823 arg1Of we,have
R726 T822 T824 arg1Of we,generated
R727 T824 T815 modOf generated,To
R728 T824 T823 arg2Of generated,have
R729 T828 T824 arg2Of lines,generated
R73 T115 T86 arg1Of role,S.A.
R730 T828 T825 arg1Of lines,DT40
R731 T828 T826 arg1Of lines,B
R732 T828 T827 arg1Of lines,cell
R733 T828 T829 arg1Of lines,that
R734 T828 T830 arg1Of lines,lack
R735 T830 T844 arg1Of lack,","
R736 T830 T845 modOf lack,allowing
R737 T830 T866 arg1Of lack,","
R738 T830 T869 modOf lack,addressing
R739 T831 T830 arg2Of expression,lack
R74 T115 T88 arg1Of role,Liu
R740 T831 T832 arg1Of expression,of
R741 T833 T834 arg1Of one,or
R742 T833 T835 arg1Of one,more
R743 T836 T832 arg2Of members,of
R744 T836 T833 arg1Of members,one
R745 T836 T837 arg1Of members,of
R746 T840 T837 arg2Of family,of
R747 T840 T838 arg1Of family,the
R748 T840 T839 arg1Of family,PKD
R749 T840 T841 arg1Of family,[
R75 T115 T90 arg1Of role,P.
R750 T842 T841 arg2Of 1,[
R751 T843 T841 arg3Of ],[
R752 T846 T845 arg2Of us,allowing
R753 T846 T848 arg1Of us,investigate
R754 T848 T845 arg3Of investigate,allowing
R755 T848 T847 arg1Of investigate,to
R756 T850 T848 arg2Of function,investigate
R757 T850 T849 arg1Of function,the
R758 T850 T851 arg1Of function,(
R759 T850 T854 arg1Of function,of
R76 T115 T92 arg1Of role,Spitaler
R760 T850 T857 arg1Of function,following
R761 T852 T851 arg2Of s,(
R762 T853 T851 arg3Of ),(
R763 T856 T854 arg2Of isoforms,of
R764 T856 T855 arg1Of isoforms,PKD
R765 T863 T862 arg2Of BCR,(
R766 T864 T862 arg3Of ),(
R767 T865 T857 arg2Of stimulation,following
R768 T865 T858 arg1Of stimulation,B
R769 T865 T859 arg1Of stimulation,cell
R77 T115 T94 arg1Of role,M.
R770 T865 T860 arg1Of stimulation,antigen
R771 T865 T861 arg1Of stimulation,receptor
R772 T865 T862 arg1Of stimulation,(
R773 T869 T867 arg1Of addressing,as
R774 T869 T868 arg1Of addressing,well
R775 T871 T869 arg2Of issue,addressing
R776 T871 T870 arg1Of issue,the
R777 T871 T872 arg1Of issue,of
R778 T874 T872 arg2Of redundancy,of
R779 T874 T873 arg1Of redundancy,functional
R78 T115 T96 arg1Of role,Olson
R780 T874 T875 arg1Of redundancy,between
R781 T880 T875 arg2Of members,between
R782 T880 T876 arg1Of members,the
R783 T880 T877 arg1Of members,different
R784 T880 T878 arg1Of members,PKD
R785 T880 T879 arg1Of members,family
R786 T882 T881 arg1Of studies,Previous
R787 T882 T883 arg1Of studies,have
R788 T882 T884 arg1Of studies,shown
R789 T884 T883 arg2Of shown,have
R79 T115 T98 arg1Of role,E.N.
R790 T886 T887 arg1Of PKDs,are
R791 T886 T888 arg1Of PKDs,indispensable
R792 T887 T884 arg2Of are,shown
R793 T887 T885 arg1Of are,that
R794 T887 T895 arg1Of are,[
R795 T888 T887 arg2Of indispensable,are
R796 T888 T889 arg1Of indispensable,for
R797 T891 T889 arg2Of regulation,for
R798 T891 T890 arg1Of regulation,HDAC
R799 T891 T892 arg1Of regulation,in
R8 T51 T50 arg1Of D,kinase
R80 T115 T100 arg1Of role,McKinsey
R800 T894 T892 arg2Of cells,in
R801 T894 T893 arg1Of cells,B
R802 T896 T895 arg2Of 1,[
R803 T897 T895 arg3Of ],[
R804 T899 T900 arg1Of we,show
R805 T900 T898 arg1Of show,Herein
R806 T902 T903 arg1Of PKDs,are
R807 T902 T905 arg1Of PKDs,indispensable
R808 T903 T900 arg2Of are,show
R809 T903 T901 arg1Of are,that
R81 T115 T102 arg1Of role,T.A.
R810 T903 T904 arg1Of are,also
R811 T905 T903 arg2Of indispensable,are
R812 T905 T906 arg1Of indispensable,for
R813 T908 T906 arg2Of phosphorylation,for
R814 T908 T907 arg1Of phosphorylation,HSP27
R815 T908 T909 arg1Of phosphorylation,in
R816 T911 T909 arg2Of cells,in
R817 T911 T910 arg1Of cells,B
R818 T917 T914 arg1Of cells,PKD-null
R819 T917 T915 arg1Of cells,DT40
R82 T115 T104 arg1Of role,Cantrell
R820 T917 T916 arg1Of cells,B
R821 T917 T918 arg1Of cells,are
R822 T917 T919 arg1Of cells,viable
R823 T917 T921 arg1Of cells,proliferate
R824 T918 T920 arg1Of are,and
R825 T919 T918 arg2Of viable,are
R826 T920 T912 arg1Of and,However
R827 T920 T913 arg1Of and,","
R828 T921 T920 arg2Of proliferate,and
R829 T921 T922 arg1Of proliferate,normally
R83 T115 T106 arg1Of role,D.A.
R830 T925 T926 arg1Of loss,of
R831 T925 T933 arg1Of loss,does
R832 T925 T936 arg1Of loss,affect
R833 T925 T944 arg1Of loss,do
R834 T930 T926 arg2Of pool,of
R835 T930 T927 arg1Of pool,the
R836 T930 T928 arg1Of pool,entire
R837 T930 T929 arg1Of pool,cellular
R838 T930 T931 arg1Of pool,of
R839 T932 T931 arg2Of PKD,of
R84 T115 T108 arg1Of role,Scharenberg
R840 T936 T933 arg2Of affect,does
R841 T936 T934 arg1Of affect,not
R842 T936 T935 arg1Of affect,critically
R843 T936 T943 arg1Of affect,nor
R844 T939 T936 arg2Of responses,affect
R845 T939 T937 arg1Of responses,oxidative
R846 T939 T938 arg1Of responses,stress
R847 T939 T940 arg1Of responses,in
R848 T942 T940 arg2Of cells,in
R849 T942 T941 arg1Of cells,B
R85 T115 T110 arg1Of role,A.M.
R850 T943 T923 arg1Of nor,Moreover
R851 T943 T924 arg1Of nor,","
R852 T944 T943 arg2Of do,nor
R853 T945 T944 arg2Of PKD,do
R854 T946 T947 arg1Of kinases,play
R855 T946 T952 arg1Of kinases,regulating
R856 T947 T944 arg3Of play,do
R857 T947 T951 arg1Of play,in
R858 T950 T947 arg2Of role,play
R859 T950 T948 arg1Of role,an
R86 T115 T111 arg1Of role,(
R860 T950 T949 arg1Of role,essential
R861 T952 T951 arg2Of regulating,in
R862 T955 T952 arg2Of activity,regulating
R863 T955 T953 arg1Of activity,NFκB
R864 T955 T954 arg1Of activity,transcriptional
R865 T959 T958 arg1Of findings,these
R866 T959 T960 arg1Of findings,reveal
R867 T960 T956 arg1Of reveal,Together
R868 T960 T957 arg1Of reveal,","
R869 T964 T962 arg2Of lymphocytes,in
R87 T115 T114 arg1Of role,Essential
R870 T964 T963 arg1Of lymphocytes,B
R871 T967 T966 arg1Of kinases,PKD
R872 T967 T968 arg1Of kinases,are
R873 T968 T960 arg2Of are,reveal
R874 T968 T961 arg1Of are,that
R875 T968 T962 arg1Of are,in
R876 T968 T965 arg1Of are,","
R877 T968 T969 arg1Of are,not
R878 T971 T968 arg2Of regulators,are
R879 T971 T970 arg1Of regulators,critical
R88 T115 T116 arg1Of role,for
R880 T971 T972 arg1Of regulators,of
R881 T973 T972 arg2Of many,of
R882 T973 T974 arg1Of many,of
R883 T977 T974 arg2Of processes,of
R884 T977 T975 arg1Of processes,the
R885 T977 T976 arg1Of processes,cellular
R886 T977 T979 arg2Of processes,ascribed
R887 T979 T978 arg1Of ascribed,previously
R888 T979 T980 arg1Of ascribed,to
R889 T979 T982 arg1Of ascribed,in
R89 T115 T122 arg1Of role,in
R890 T981 T980 arg2Of them,to
R891 T985 T982 arg2Of systems,in
R892 T985 T983 arg1Of systems,other
R893 T985 T984 arg1Of systems,cellular
R9 T51 T52 arg1Of D,(
R90 T121 T116 arg2Of kinases,for
R91 T121 T117 arg1Of kinases,protein
R92 T121 T118 arg1Of kinases,kinase
R93 T121 T119 arg1Of kinases,D
R94 T121 T120 arg1Of kinases,family
R95 T124 T122 arg2Of regulation,in
R96 T124 T123 arg1Of regulation,the
R97 T124 T125 arg1Of regulation,of
R98 T129 T125 arg2Of deacetylases,of
R99 T129 T126 arg1Of deacetylases,class