Incorporation and metabolism of ganglioside GM2 in skin fibroblasts from normal and GM2 gangliosidosis subjects

Abstract

Ganglioside G_M2, ³H-labeled in the sphingoid base, was added to the culture medium of normal and G_M2 gangliosidosis fibroblasts. Ganglioside was found to adsorb rapidly to the cell surface, most of it could however be removed by trypsination. The trypsin-resistant incorporation was about 10 nmol/mg cell protein, after 48 h. The rates of adsorption and incorporation depended strongly on the concentration of fetal calf serum in the medium, higher serum concentrations being inhibitory. After various incubation times, the lipids were extracted, separated by thin-layer chromatography and visualized by fluorography. In normal cells a variety of degradation products as well as sphingomyelin was found whereas in G_M2 gangliosidosis cells, only trace amounts of such products (mainly G_A2) were found. In contrast, the higher gangliosides G_M1 and G_D1a were formed in comparable amounts (2.2–3.6% of total radioactivity after 92 h) in normal and pathologic cell lines. Supplementation of cells from G_M2 gangliosidosis, variant AB, with purified G_M2-activator protein restored ganglioside G_M2 degradation to almost normal rates but had no effect on its glycosylation to gangliosides G_M1 and G_D1a. From these results we conclude that the synthesis of higher gangliosides from incorporated G_M2 can occur by direct glycosylation and not only via lysosomal degradation and resynthesis from [³H]sphinganine-containing degradation products. Preliminary studies with subcellular fractionation after various times of [³H]ganglioside incorporation indicated biphasic kinetics for the net transport of membrane-inserted ganglioside to lysosomes, compatible with the notion that a portion of the glycolipids can also escape from secondary lysosomes and migrate to Golgi compartment or cell surface.