Glycosphingolipid-enriched Signaling Domain in Mouse Neuroblastoma Neuro2a Cells. Mechanism of Ganglioside-dependent Neuritogenesis
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Differentiation and neuritogenesis of mouse neuroblastoma Neuro2a cells are induced by exogenous ganglioside but are not induced by nerve growth factor because its receptor is absent in these cells. In view of the emerging concept of the "glycosphingolipid-enriched domain" (GEM), we studied the mechanism of the ganglioside effect, focusing on the structure and function of such a domain. GEM in Neuro2a cells, separated as a low density membrane fraction, contains essentially all glycosphingolipids and sphingomyelin, together with five signal transducer molecules (c-Src, Lyn, Csk, Rho A, Ha-Ras). (3)H-Labeled Il(3)NeuAc-LacCer (GM3), Gb4Cer (globoside), and Il(3)NeuAc-Gg4Cer (GM1) added exogenously to cells were incorporated and concentrated in the low density GEM fraction. In contrast, more than 50% of glycerophospholipids and 30% of cholesterol were found in the high density fraction. (3)H-Labeled phosphatidylcholine added exogenously to cells was incorporated exclusively in the high density fraction. c-Src, the predominant signal transducer in the microdomain, was coimmunoprecipitated with anti-GM3 antibody DH2 or with anti-Csk; reciprocally, Csk was coimmunoprecipitated with anti-c-Src, indicating a close association of GM3, c-Src, and Csk. Brief stimulation of an isolated GEM fraction by the exogenous addition of GM3, but not lactosylceramide, caused enhanced c-Src phosphorylation with a concomitant decrease of Csk level in GEM. A decreased Csk/c-Src ratio in GEM may cause activation of c-Src because Csk is a negative regulator of c-Src. The effect of exogenous GM3 on c-Src activity was also observed in intact Neuro2a cells. Activation of c-Src was followed by rapid and prolonged (60 min) enhancement of mitogen-activated protein kinase activity leading to neuritogenesis. Thus, the ganglioside induction of neuritogenesis in Neuro2a cells is mediated by GEM structure and function.
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