The role of vitamin A in the glycosylation reactions of glycoprotein synthesis in an ‘in vitro’ system

Abstract

Microsomal membrane preparations from rat livers, when incubated with labelled sugar-nucleotides, were shown to synthesize labelled oligosaccharide-lipids in the presence of excess exogenous dolichyl phosphate. Under the incubation conditions defined in the present study, dolichyl pyrophosphoryl(DolPP)GlcNAc2-Man5, DolPPGlcNAc2Man9 and DolPPGlcNAc2Man9Glc3 were the principal oligosaccharide-lipids formed by both control and vitamin A-deficient membranes. However, deficient membranes synthesized 3.2 +/- 0.8 times as much oligosaccharide-lipids and 2.6 +/- 0.7 times as much dolichyl phosphate mannose (DolPMan) and dolichyl phosphate glucose (DolPGlc) as the controls. The transfer of the oligosaccharide chain from the dolichol carrier to the endogenous protein acceptors in vitamin A-deficient microsomes (microsomal fractions) was only 57.5 +/- 9.5% of that of controls. After endo-beta-N-acetylglucosaminidase treatment, only one oligosaccharide species was isolated from both control and vitamin A-deficient microsomal glycoproteins, and was characterized as GlcNAcMan9Glc3. We conclude that the decreased incorporation of labelled mannose and glucose from sugar-nucleotides into the glycoproteins must be due to decreased transfer of GlcNAc2Man9Glc3 from the dolichol carrier to the protein acceptors. This conclusion was further substantiated by the finding that control membranes transferred 4-6 times as much labelled oligosaccharides from exogenously added dolichol-linked substrate (DolPPGlcNAc2Man9Glc3) to endogenous microsomal protein acceptors as compared with the vitamin A-deficient membranes. Attempts to reverse this defect by addition of retinol or retinyl phosphate (a source of retinyl phosphate mannose) to the incubations were unsuccessful.