Incorporation of glucose into lipid-linked saccharides in aorta and its inhibition by Amphomycin (cas 1402-82-0)

Add time:09/05/2019    Source:sciencedirect.com

The particulate enzyme from pig aorta catalyzed the transfer of glucose from UDP-glucose into glucosyl-phosphoryl-dolichol, into lipid-linked oligosaccharides, and into glycoprotein. Radioactive lipid-linked oligosaccharides were prepared by incubating the extracts with GDP-[14C]mannose and UDP-[3H]glucose. When the labeled oligosaccharides were run on Bio-Gel P-4, the two different labels did not exactly coincide; the 3H peak eluted slightly earlier indicating that it was of higher molecular weight than the 14C material, but there was considerable overlap. The purified oligosaccharide(s) contained glucose, mannose, and N-acetylglucosamine but the ratios of these sugars varied from one enzyme preparation to another, probably depending on the endogenous oligosaccaride-lipids present in the microsomal preparation. Treatment of the [3H]glucose-labeled oligosaccharide with α-mannosidase gave rise to a 3H-labeled oligosaccharide which moved somewhat faster on Bio-Gel P-4 than the original oligosaccharide, suggesting it had lost one or two sugar residues. These data indicate that mannose and glucose are in the same oligosaccharide. The antibiotic, amphomycin, inhibited the transfer of glucose from UDP-glucose into the lipid-linked saccharides. However the synthesis of glucosyl-phosphoryl-dolichol was much more sensitive then was the synthesis of lipid-linked oligosaccharides. The glucose-labeled oligosaccharide produced in the absence of amphomycin was of high molecular weight based on paper chromatography. But in the presence of partially inhibitory concentrations of antibiotic, the oligosaccharide migrated more rapidly on paper chromatograms. However, amphomycin had no effect on the synthesis of glucosyl-ceramide by the aorta extracts. In fact, the antibiotic may stimulate glucosyl-ceramide by making more of the substrate, UDP-glucose, available for synthesis of this lipid.

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