Brefeldin A induced inhibition of de novo globo- and neolacto-series glycolipid core chain biosynthesis in human cells. Evidence for an effect on beta 1–>4galactosyltransferase activity.

Abstract

De novo synthesis of neolacto-series glycolipids has been studied in human cell lines via metabolic labeling of ceramide with [3H]serine. Intense labeling of ceramide mono- and dihexoside glycolipids occurred with labeling of progressively longer chain derivatives with increasing time. Most of the label was recovered in neutral glycolipids with about 5% of the total labeling in the ganglioside fraction. Experiments done using cell treatment with 2.5 micrograms/ml brefeldin A resulted in a stimulation in the total amount of labeling, accumulation of a neutral glycolipid identified as Lc3 due to inhibited transfer of the neolacto-series core chain terminal beta-Gal residue, and a corresponding inhibition of labeling of longer chain neutral glycolipids in all cell lines. Brefeldin A also blocked synthesis of the globo-series precursor, Gb3, longer chain sialylated structures such as IV3NeuAcnLc4, but not de novo GM3 synthesis. Brefeldin A treatment had no effect on cellular beta 1-->3N-acetylglucosaminyl-, beta 1-->4galactosyl-, or alpha 1-->3fucosyltransferase specific activities, nor was it inhibitory in beta 1-->4galactosyltransferase assays in vitro. The results describe brefeldin A-induced blocks in globo- and neolacto-series glycolipid biosynthesis, consistent with differential localization of enzymes in intracellular membranes. In particular, the results suggest that the beta 1-->4galactosyltransferase in these cells is either not redistributed by brefeldin A or is otherwise rendered nonfunctional.