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lüll The glycosynapse Hakomori Si SIProc Natl Acad Sci U S A 2002[Jan]; 99 (1): 225-32Physically distinguishable microdomains associated with various functional membrane proteins are one of the major current topics in cell biology. Glycosphingolipids present in such microdomains have been used as "markers;" however, the functional role of glycosyl epitopes in microdomains has received little attention. In this review, I have tried to summarize the evidence that glycosyl epitopes in microdomains mediate cell adhesion and signal transduction events that affect cellular phenotypes. Molecular assemblies that perform such functions are hereby termed "glycosynapse" in analogy to "immunological synapse," the membrane assembly of immunocyte adhesion and signaling. Three types of glycosynapses are so far distinguishable: (i) Glycosphingolipids organized with cytoplasmic signal transducers and proteolipid tetraspanin with or without growth factor receptors; (ii) transmembrane mucin-type glycoproteins with clustered O-linked glycoepitopes for cell adhesion and associated signal transducers at lipid domain; and (iii) N-glycosylated transmembrane adhesion receptors complexed with tetraspanin and gangliosides, as typically seen with the integrin-tetraspanin-ganglioside complex. The possibility is discussed that glycosynapses give rise to a high degree of diversity and complexity of phenotypes.|Animals[MESH]|Cell Adhesion[MESH]|Cell Line[MESH]|Cell Membrane/metabolism[MESH]|Gangliosides/metabolism[MESH]|Glycosphingolipids/*chemistry[MESH]|Glycosylation[MESH]|Humans[MESH]|Mice[MESH]|Models, Biological[MESH]|Neoplasms/metabolism[MESH]|Phenotype[MESH]|Protein Structure, Tertiary[MESH]|Signal Transduction[MESH]|Synapses/*physiology[MESH]|Tumor Cells, Cultured[MESH] |