PubMed:25234496 / 210-215
Differential proteomic analysis of umbilical artery tissue from preeclampsia patients, using iTRAQ isobaric tags and 2D nano LC-MS/MS.
UNLABELLED: Epidemiological studies suggest that the impact of preeclampsia does not only affect the mother but also the children. We know that adverse events in utero may predispose individuals to premature cardiovascular disease in adulthood, but we do not know the mechanisms. To gain insights into the mechanisms of cardiovascular dysfunction in the offspring of preeclampsia, we employed a global stable isotope labeled profiling strategy using iTRAQ reagents, followed by 2D-LC-MS/MS. We identified 1521 non-redundant proteins, and 1496 of these were quantified. Further analysis identified 53 differentially expressed proteins in umbilical artery; 22 proteins were up-regulated and 31 proteins were down-regulated. K-means clustering analysis showed that there was a specific protein expression profile in the umbilical artery which could distinguish between normal and preeclampsia patients. These 53 proteins were analyzed by Ingenuity Pathway Analysis (IPA) and were found to play important roles in the angiogenesis, vasculogenesis, and development of the cardiovascular system. In addition, the differential expression of three cardiovascular relative proteins (aldose reductase, fibronectin-1, fibrillin-1) was independently verified using western blot. These results may supply new insights into the mechanisms of vascular dysfunction in the offspring of preeclampsia patients.
BIOLOGICAL SIGNIFICANCE: Increasing evidence suggests that the children who were exposed to preeclampsia in utero have an increased cardiovascular risk, and vascular dysfunction has been found in some children born of preeclampsia. However, the mechanism remains largely unknown. In this study, we identified 1521 non-redundant proteins, and 1496 of these were quantified. Further analysis identified 53 differentially expressed proteins in the umbilical artery from preeclampsia patients; 22 proteins were up-regulated and 31 proteins were down-regulated. Some of these differentially expressed proteins have been shown to play important roles in cardiovascular system development. Our results provide new insights into the potential mechanisms underlying the changed blood pressure of offspring of mothers with preeclampsia, and, the elevation of their risk of cardiovascular abnormality in later life.
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