Isogloboside biosynthesis in metastatic R3230AC cells results from a decreased GM3 synthase activity.

We have determined that the production of a metastasis-associated neutral glycosphingolipid, isogloboside (iGb(4)Cer, GalNAcbeta1-3Galalpha1-3Galbeta1-4Glcbeta1-O-ceramide) is associated with the loss of G(M3) synthase activity. Assays for neutral glycosphingolipid-forming glycosyltransferases in cells producing various levels of iGb(4)Cer revealed no consistent differences that could account for the difference in iGb(4)Cer biosynthesis. However, comparison of the activity of G(M3) synthase in homogenates of these two cell types revealed that cells that did not synthesize iGb(4)Cer had activity significantly greater than that of cells possessing this antigen. Furthermore, somatic cell hybrids generated using clones of the iGb(4)Cer -producing and nonproducing cell lines lacked iGb(4)Cer while possessing high levels of G(M3) synthase activity. When iGb(4)Cer-producing cells were transfected with a G(M3) synthase expression vector, all of the resultant clones were negative for iGb(4)Cer production. The results of these studies clearly show that the presence of G(M3) synthase prevents the formation of iGb(4)Cer in these cells. Copyright 2001 Academic Press.