Reduced Mannose Incorporation into GDP-mannose and Dolichol-linked Intermediates of N-glycosylation in Hamster Liver During Vitamin A Deficiency

Overview

Journal Mol Cell Biochem

Publisher Springer

Specialty Biochemistry

Date 1990 Mar 27

PMID 1693171

Citations 1

Authors

D Rimoldi

K E Creek

L M De Luca

Affiliations

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Abstract

The molecular mechanism of reduced incorporation of radioactively labeled mannose into hamster liver glycoconjugates during the progression of vitamin A deficiency was investigated. In particular the in vivo incorporation of [2-3H]mannose into GDP-mannose, dolichyl phosphate mannose (Dol-P-Man), lipid-linked oligosaccharides, and glycopeptides of hamster liver was examined. Hamsters maintained on a vitamin A-free diet showed a reduction in the incorporation of mannose into GDP-mannose about 10 days before clinical signs of vitamin A deficiency could be observed. The decrease in [2-3H]mannose incorporated into GDP-mannose was accompanied by a reduction in label incorporated into Dol-P-Man, lipid linked oligosaccharides and glycopeptides, which became more severe with the progression of vitamin A deficiency. By the time they reached a plateau stage of growth, hamsters fed the vitamin A-free diet showed a 50% reduction in the amount of [2-3H]mannose converted to GDP-mannose, and the radioactivity associated with Dol-P-Man and glycopeptides was reduced by approximately 60% as compared to retinoic acid-supplemented controls. These results strongly indicate that the reduced incorporation of mannose into lipidic intermediates and glycoproteins observed during vitamin A deficiency is due to impaired GDP-mannose synthesis.

Citing Articles

N-glycosylation of membrane glycoproteins in retinol-deficient rat liver.

Tauber R, Nuck R, Gerok W, Buchsel R, Kottgen E, Lohle W Glycoconj J. 1992; 9(3):132-40.

PMID: 1358299 DOI: 10.1007/BF00780760.

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