Sphingolipid-enriched membrane domains, characterized by a particular protein and lipid composition, have been detected in a variety of cells. However, limited data are available concerning these domains in neuronal cells. We analyzed the lipid and protein composition of a sphingolipid-enriched membrane fraction prepared from primary rat cerebellar granule cells differentiated in culture. Although the protein content of this fraction was only 1.4% of total cellular protein, 60% of the gangliosides, 67% of the sphingomyelin, 50% of the ceramide, and 40% of the cholesterol were located in this fraction. The protein pattern of the sphingolipid-enriched domain fraction was dramatically different from that associated with the cell homogenate. This fraction contained 25% of the tyrosine- The increasing body of evidence, obtained by several different experimental approaches from both artificial and cellular models (1-23), suggests that lipid and protein components in the cell membrane are not randomly or homogeneously distributed but rather organized in domains with peculiar physicochemical and functional properties, different from those of the surrounding membrane environment, confirming the original prediction of Singer and Nicholson (24).Sphingolipid-enriched domains that are reported to be enriched in gangliosides, sphingomyelin, and cholesterol (1, 17-23) are emerging as membrane compartments with relevant biological functions. They are rich in proteins involved in the mechanisms of signal transduction (1, 18, 21-23, 25-31) and cell adhesion molecules (34). Thus, sphingolipid-enriched microdomains could represent a site within the plasma membrane where different molecules (both lipids and proteins) involved in signal transduction and/or cell adhesion and cell-cell interactions are specifically sorted and concentrated, allowing reciprocal interactions of functional significance. Recent studies have revealed that gangliosides in membrane sphingolipidenriched domains associate closely and specifically with single or multiple signal transducer molecules. Ganglioside GM3 1 is closely associated with c-Src, Rho, FAK, and Ras in B16 melanoma cells (1, 21), with c-Src and Csk in neuroblastoma Neuro2a cells (22), and GD3 is associated with Src-family kinase Lyn and the neural cell adhesion molecule TAG-1 in rat brain (33,35). Such structural units seem to be involved in signal transduction in response to glycosphingolipid-mediated stimulation; GM3-mediated cell adhesion of melanoma B16 cells induces c-Src and FAK phosphorylation and Rho and Ras activation (1); treatment of neuroblastoma Neuro2a cells with exogenous gangliosides induces c-Src and mitogen-activated protein kinase activation, leading to neuronal differentiation (22); and treatment of primary cultured rat cerebellar neurons with anti-GD3 antibody induces Lyn activation with consequent phosphorylation of mitogen-activated protein kinases (33). Neurotrophin-induced p75 NTR -dependent sphingomyelin hydrolysis is also localized in a caveolar domain (27).Procedures...
