Affiliation:
1. Department of Veterinary Medical Chemistry, Swedish University of Agricultural Sciences, Biomedical Center, S-751 23 Uppsala, Sweden.
Abstract
A capsular polysaccharide from Escherichia coli K5 was previously found to have the same structure, [-(4)beta GlcA(1)→(4)alpha GlcNAc(1)-]n, as that of the non-sulphated precursor polysaccharide in heparin biosynthesis [Vann, Schmidt, Jann & Jann (1981) Eur. J. Biochem. 116, 359-364]. The K5 polysaccharide was N-deacetylated (by hydrazinolysis) and N-sulphated, and was then incubated with detergent-solubilized enzymes from a heparin-producing mouse mastocytoma, in the presence of adenosine 3′-phosphate 5′-phospho[35S] sulphate ([35S]PAPS). Structural analysis of the resulting 35S-labelled polysaccharide revealed the formation of all the major disaccharide units found in heparin. The identification of 2-O-[35S]sulphated IdoA (L-iduronic acid) as well as 6-O-[35S]sulphated GlcNSO3 units demonstrated that the modified K5 polysaccharide served as a substrate in the hexuronosyl C-5-epimerase and the major O-sulphotransferase reactions involved in the biosynthesis of heparin. The GlcA units of the native (N-acetylated) E. coli polysaccharide were attacked by the epimerase only when PAPS was present in the incubations, whereas those of the chemically N-sulphated polysaccharide were epimerized also in the absence of PAPS, in accord with the notion that N-sulphate groups are required for epimerization. With increasing concentrations of PAPS, the mono-O-sulphated disaccharide unit-IdoA(2-OSO3)-GlcNSO3- was progressively converted into the di-O-sulphated species -IdoA(2-OSO3)-GlcNSO3(6-OSO3)-. A small proportion of the 35S-labelled polysaccharide was found to bind with high affinity to the proteinase inhibitor antithrombin. This proportion increased with increasing concentration of PAPS up to a level corresponding to approximately 1-2% of the total incorporated 35S. The solubilized enzymes thus catalysed all the reactions required for the generation of functional antithrombin-binding sites.
Subject
Cell Biology,Molecular Biology,Biochemistry
Cited by
46 articles.
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