Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.2.2.7 (heparinase)
 1,270 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A modified form of heparin containing residues of nonsulfated alpha-L-idopyranosyluronic acid (7) in place of the normal 2-sulfate (1) was sulfated with sulfur trioxide-trimethylamine in dimethylformamide at 0 and 25 degrees. Examination of the reaction products by n.m.r. spectroscopy showed that sulfation occurred selectively at C-3 of residue 7, to give a new polymer that may be described as a 3-sulfate analog of heparin. A slower substitution reaction led subsequently to sulfation at C-3 of 2-deoxy-2-sulfamino-alpha-D-glucopyranosyl 6-sulfate residues (2), although this was accompanied by partial N-desulfation of 2. An analogous pattern of O-sulfation-N-desulfation was observed for the residues of 2 in two other modified heparins, one containing residues of 2,3-anhydro-alpha-L-gulopyranosyluronic acid and the other residues of alpha-L-galactopyranosyluronic acid, in place of residues of 1. The galacto diastereomer exhibited relatively low regioselectivity, as it was found to be sulfated at C-2 or C-2.3, or both. Selective resulfation of free amino groups gave the products that were examined for anticoagulant activity and susceptibility to enzymolysis by heparinase. Antithrombin-binding affinity measurements were also carried out. Although none of the materials had significant anti-Xa activity, nor were they affected by heparinase, their patterns of binding to antithrombinagarose were not dissimilar to that of heparin.
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PMID:Sulfation of some chemically-modified heparins. Formation of a 3-sulfate analog of heparin. 187 83

O-Sulfation at C-3 of N-sulfated GlcN units concludes polymer modification and the formation of antithrombin binding regions in the biosynthesis of heparin/heparan sulfate. The resulting GlcNSO3(3-OSO3) units are largely restricted to heparin chains with high affinity for antithrombin (HA heparin). Low affinity (LA) heparin fails to serve as a substrate in the 3-O-sulfotransferase reaction yet contains potential 3-O-sulfate acceptor sites (Kusche, M., Torri, G., Casu, B., and Lindahl, U. (1990) J. Biol. Chem. 265, 7292-7300), as verified in the present study using a novel sequencing procedure. O-Desulfated, re-N-sulfated LA heparin, as well as an octasaccharide fraction isolated after heparinase I digestion of LA heparin, both yielded labeled HA components following incubation with solubilized mouse mastocytoma microsomal enzymes and [35S]adenosine 3'-phosphate 5'phosphosulfate (PAPS), suggesting that the 3-O-sulfo-transferase may be inhibited by sulfated saccharide sequences outside the 3-O-sulfate acceptor region. Indeed, the addition of LA heparin precluded enzymatic 3-O-sulfation of a synthetic pentasaccharide substrate. The Km for the pentasaccharide was determined to approximately be 6 microM. Incubations of mixed pentasaccharide substrate and saccharide inhibitors revealed Ki values for intact LA heparin and for a heparin octasaccharide fraction of approximately 1.3 and approximately 0.7 microM, respectively. Inhibition experiments with selectively desulfated heparin indicated that both IdoA 2-O-sulfate and GlcN 6-O-sulfate groups contributed to the inhibition of the 3-O-sulfotransferase. By contrast, chondroitin sulfate or dermatan sulfate showed no significant inhibitory activity. It is proposed that the regulation of GlcN 3-O-sulfation during biosynthesis of heparin/heparan sulfate depends on the topological organization of the membrane-bound enzyme machinery in the intact cell.
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PMID:Biosynthesis of heparin/heparan sulfate. The D-glucosaminyl 3-O-sulfotransferase reaction: target and inhibitor saccharides. 774 62