PubMed:4063368 / 1347-1363 4 Projects
Gangliosides do not move from apical to basolateral plasma membrane in cultured epithelial cells.
Both qualitative and quantitative approaches were used to ascertain whether gangliosides, incorporated into the apical plasma membrane of cultured epithelial cells from kidney of toad (A6) and dog (MDCK), were able to redistribute past the tight junctions to the basolateral membrane. The apical surfaces of confluent epithelia were exposed to rhodaminyl gangliosides and the distribution of the inserted gangliosides was assessed qualitatively by fluorescence microscopy. All of the fluorescence was confined to the apical surface for at least 1 h after the fluorescent gangliosides had become incorporated; none appeared on the basolateral surface. These observations were confirmed by incubating the cells with anti-rhodamine antibodies and 125I-labeled protein A. In order to quantitate further the ganglioside distribution, binding assays were performed using 125I-labeled cholera toxin, which binds specifically to ganglioside GM1. Exogenous GM1 added to the apical membrane was not detected on the basolateral membrane 4 h after its incorporation even though there was extensive disappearance of the inserted ganglioside, presumably through endocytosis. To directly examine the behaviour of endogenous gangliosides, the apical surface of the epithelial cells was exposed to bacterial neuraminidase, which hydrolyzes more complex gangliosides to GM1. The cells exhibited a 10-fold increase in binding of cholera toxin to their apical surface, but no increase in binding to their basolateral surface. Thus, no cellular pathways for movement from apical to basolateral plasma membrane appear to be available for implanted or endogenous gangliosides.
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