Chemical change involved in the oxidative-reductive depolymerization of heparin

A solution of hog intestinal heparin (average M r 12000, anti-clotting activity 168 USP units/mg) in 0.2 M phosphate buffer (pH 7.2), was incubated in the presence of Fe 2+ for 20 h at 50° under an O 2 atmosphere to yield oxidative-reductively depolymerized heparin (ORD heparin, average M r 3000, an...

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Bibliographic Details
Published in:Carbohydrate research 1992-12, Vol.236, p.165-180
Main Authors: Nagasawa, Kinzo, Uchiyama, Hideki, Sato, Noriko, Hatano, Akiko
Format: Article
Language:English
Subjects:
Applied sciences
Carbohydrates - analysis
Chromatography, High Pressure Liquid - methods
Exact sciences and technology
Heparin - chemistry
Heparin Lyase
Heparin, Low-Molecular-Weight - isolation & purification
Iduronic Acid - analogs & derivatives
Iduronic Acid - analysis
Natural polymers
Nitrous Acid
Oligosaccharides - analysis
Oxidation-Reduction
Physicochemistry of polymers
Polymers - chemistry
Polysaccharide-Lyases
Starch and polysaccharides
Uronic Acids - analysis
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Summary:A solution of hog intestinal heparin (average M r 12000, anti-clotting activity 168 USP units/mg) in 0.2 M phosphate buffer (pH 7.2), was incubated in the presence of Fe 2+ for 20 h at 50° under an O 2 atmosphere to yield oxidative-reductively depolymerized heparin (ORD heparin, average M r 3000, anti-clotting activity 34 USP units/mg). Chemical analysis of the ORD heparin showed a 22, 26, and 14% loss of hexosamine, uronic acid, and N-acetyl group, respectively, but no remarkable loss of both total and N-sulfate groups. 1H and 13C NMR spectroscopic analysis indicated no decrease in the amount of l-iduronic acid 2-sulfate, but a marked loss of nonsulfated uronic acid (73 and 39% loss of d-glucuronic acid and l-iduronic acids, respectively, the sum of which corresponds to the chemically determined loss of total uronic acid). The results indicated that the ORD reaction of heparin proceeds essentially by destruction of monosaccharide units, except l-iduronic acid 2-sulfate residues, due to oxygen-derived free radicals, followed by secondary hydrolytic cleavage of the resulting unstable residues.
ISSN:0008-6215
1873-426X
DOI:10.1016/0008-6215(92)85014-Q