Identification of O-sulphate substituents on D-glucuronic acid units in heparin-related glycosaminoglycans using novel synthetic disaccharide standards

doi:10.1093/glycob/5.8.807

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Glycobiology vol 5 no 8 pp. 807-811, 1995
© 1995

research-article

Identification of O-sulphate substituents on D-glucuronic acid units in heparin-related glycosaminoglycans using novel synthetic disaccharide standards

Nahid Razi¹, Johan Kreuger¹, Luigi Lay³, Giovanni Russo³, Luigi Panza³, Birgitta Lindahl² and Ulf Lindahl¹^,4

¹Department of Medical and Physiological Chemistry, University of Uppsala The Biomedical Center, Box 575, S-751 23 Uppsala
²Department of Geriatrics, University of Uppsala Box 2151, S-750 02 Uppsala, Sweden
³Università degli Studi di Milano, Dipartimento di Chimica Organica e Industriale Centro per lo Studio delle Sostanze Organiche Naturali del CNR, via Venezian 21,1-20133 Milano, Italy

⁴To whom correspondence should be addressed

Received on July 13, 1995; revised on August 31, 1995; accepted on August 31, 1995

The two disaccharides, methyl 4-O-(2-O-sulpho-ß-D-gluco-pyranosyl-uronicacid)-2-deoxy-2-amino- ${alpha}$ -D-glucopyrano-side and methyl 4-O-(3-O-sulpho-ß-D-glucopyranosyluronicacid)-2-deoxy-2-amino- ${alpha}$ -D-glucopyranoside, were prepared by denovo synthesis, and converted to the corresponding 2,5-anhydro-D-[l-³H]mannitolderivatives by deamination with nitrous acid followed by reductionwith NaB³H₄. The resultant labelled products were used as standardsin the identification, by anion-exchange high-performance liquidchromatography (HPLC), of disaccharides generated by HNO₂/NaB³H₄treatment of heparan sulphate isolated from human brain. Thetwo standards, containing 2-O- and 3-O-sulphated glucuronicacid, respectively, were clearly separated by the HPLC procedure.Comparison with the deamination products derived from heparansulphate showed that the mono-O-sulphated disaccharide speciescontaining a sulphated glucuronic acid unit co-eluted with the2-O-sulphated standard. The corresponding component isolatedfrom other heparan sulphate preparations, or from heparin, alsoeluted at the same position. No disaccharide derived from heparinor heparan sulphate appeared at the elution position of the3-O-sulphated standard. It is concluded that D-glucuronic acidunits in heparin-related glycosaminoglycans may be sulphatedat C2, whereas no evidence has been found for sulphation atC3. By contrast, analysis of mono-O-sulphated disaccharidesderived from a chemically sulphated, bacterial capsular polysaccharide(generated by Escherichia coli K5) clearly demonstrated theoccurrence of O-sulphate groups at C-3 of D-glucuronic acidunits.

E.coli K5 capsular polysaccharide heparan sulphate heparin 2-O-sulphated glucuronic acid 3-O-sulphated glucuronic acid

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