Glycosylation Effect on Membrane Domain (GEM) Involved in Cell Adhesion and Motility: A Preliminary Note on Functional α3, α5-CD82 Glycosylation Complex in ldlD 14 Cells

Laminin (LN)- or fibronectin (FN)-dependent adhesion in Krieger's ldlD 14 (D14) cells is enhanced significantly in the presence vs absence, of galactose (Gal), whereas LN- or FN-induced haptotactic cell motility is barely affected unless cells express CD82 by its gene transfection (cells termed D14/CD82). The effect of CD82 on LN- or FN-induced motility is based on its ability to associate with α3 or α5 integrin to form a complex associated with a low-density lipid membrane domain (termed GEM or GSD). Complex formation is greatly affected by N-glycosylation of both integrin and CD82, as well as by concurrent GM3 ganglioside synthesis. The effect of glycosylation on α5-CD82 complex was also studied in D14 cells expressing mutant CD82, defective in all three N-glycosylation sites. LN-induced motility was greatly inhibited, whereas FN-induced motility was enhanced, with complete N-glycosylation in D14/CD82 cells in Gal-added medium, whereby α5-CD82 complex formation did not occur or occurred at a minimal level. Both LN- and FN-induced motility were inhibited when N-glycosylation was impaired, or N-glycosylation of CD82 was deleted, whereby α5-CD82 complex formation occurred strongly. Thus, glycosylation profoundly affects interaction of integrin with CD82, leading to significant inhibition or promotion of cell motility.