Soluble gangliosides in cultured neurotumor cells

Abstract: The biosynthesis and degradation of glycosphingolipids were studied in cytosolic and membrane fractions obtained from rat glioma C6 cells. Both pools had a similar composition of neutral glycosphingolipids but the soluble pool contained only a few percent of the total. The major ganglioside in C6 cells was GM3, of which only 2% was soluble. Whereas the bulk of the membrane GM3 was accessible to surface labeling procedures, the soluble GM3 was not. Mouse neuroblastoma N18 cells also contained small amounts of cytoplasmic gangliosides corresponding to GM3, GM2, GM1, and GDla. When C6 cells were incubated with medium containing ³H]galactose at 37°C, the specific activity of soluble GM3 initially increased more rapidly than that of membrane GM3; by 4 h, the specific activities in both pools became equal. Total incorporation into the membrane pool, however, was always several-fold greater even at the shortest incubation times examined. The labeling pattern of neutral glycosphingolipids in both soluble and membrane fractions indicated the existence of a precursor-product relationship between glucosylceramide and other glycosphingolipids. When labeled cells were transferred to nonradioactive medium, glucosylceramide disappeared the most rapidly, with a 50% loss within <6 h. The turnover rates of other glycosphingolipids were much slower. Although cytosolic GM3 was degraded more rapidly (t_1/2= 26 h) than membrane-bound GM3 (t_1/2= 44 h), its turnover rate was much slower than the time required for transport of GM3 to the cell surface (20–30 min). Our results are consistent with the existence of a small intracellular pool of soluble gangliosides and neutral glycosphingolipids that is stable and independent of the main membrane-bound pool. Although the role of these cytosolic glycolipids is unknown, they do not appear to represent a transport pool between the site of synthesis and the plasma membrane.