Vesicular stomatitis virus envelope glycoprotein alterations induced by host cell transformation

Abstract

Vesicular stomatitis virus (VSV) contains a single structural glycoprotein in which the sugar sequences are largely host specified. We have used VSV as a probe to study the changes in cell glycoprotein metabolism induced by virus transformation. Analysis of purified VSV grown in baby hamster kidney (BHK) or polyoma transformed BHK cells showed that the virus glycoproteins have identical apparent molecular weights. The glycopeptides derived from the glycoproteins by extensive pronase digestion have an identical molecular weight distribution. On the basis of labeling experiments with fucose, mannose, and glucosamine, the oligosaccharide moieties of the VSV glycoprotein were different in virus from the two cell lines. The VSV glycopeptides from transformed cells showed an increased resistance to cleavage by an endoglycosidase, indicating structural changes in the core region of the oligosaccharides. They also showed an increased ratio of sialic acid to N-acetylglucosamine. VSV grows in a wide variety of cell types, and the carbohydrate structures of its single glycoprotein are amenable to analysis with specific glycosidases. The virus thus provides an excellent tool with which to study alterations induced by cell transformation in the glycosylation of membrane proteins.