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)

The heterogeneity of unfractionated heparins (Hep) can be correlated to the species and organs of origin and to the process of production. Heparins, extracted by different, validated processes from different organs and/or tissues (mucosa, thymus, pancreas, placenta, lung, intestine) or mammals (pig, beef, sheep, man) and other vertebrates (chicken), have been examined by HPLC analysis of heparinase digests. By analysis of disaccharides many observations have been made. Porcine mucosa heparin (pm-Hep) was always found to contain higher amounts of the disaccharides delta UA-GlcNS,6S and delta UA-2S-GlcNS,6S, than did bovine mucosa heparin (bm-Hep), whereas bm-Hep always showed higher amounts of the sequence IdoA(2OSO3)-GlcNSO3 than did pm-Hep. These findings mean that the last step of the biosynthesis, the 6-O-sulfation of glucosamine-N-sulfate (GlcNSO3), is accomplished; in bm-Hep, to a lesser extent than in pm-Hep. The 6-O-sulfated molar fractions of pig mucosa, chicken intestine, beef pancreas, beef placenta, and beef lung heparins were higher than the corresponding molar fractions of beef mucosa and beef thymus Heps. Also the manufacturing processes can partially rearrange the heparin structure. Even 6-O-sulfation enrichment (by chromatographic purification) or base-catalyzed displacement of sulfate groups from IdoA2SO3 occurred. The resulting anticoagulant activity roughly correlated with the percentage of trisulfated disaccharide and the 6-O-sulfated molar fraction. The heparin from human placenta was similar to pm-Hep. The observed species- and organ-dependent structural characteristics support the suggestion by Nader and Dietrich (in Heparin, Chemical and Biological Properties, Lane DA, U Lindahl (Eds). Arnold, London, 1989, p 81) on the antipathogenic role of heparin. The 6-O-sulfation of glucosamine, present in higher amounts in organs that function as barriers against many foreign bodies, like lung, placenta, intestine of chicken and pig, may play an important role in this antipathogenic action of Hep.
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PMID:Heterogeneity of unfractionated heparins studied in connection with species, source, and production processes. 915 4

We have previously demonstrated that thrombin possesses an active yet cryptic Arg-Gly-Asp (RGD) site which upon exposure induces endothelial cell (EC) adhesion via alpha nu beta 3 integrin [Bar-Shavit et al. (1991): J Cell Biol 112:335]. This was achieved in the presence of cell surface-associated heparan sulfate proteoglycans (HSPG) and exceedingly low concentrations of plasmin [Bar-Shavit et al. (1993): J Cell Biol 123:1279]. A portion of the cell surface-associated HSPG (glypican) is anchored via a covalently linked glycosyl-phosphatidylinositol (PI) residue, which can be released by treatment with glycosyl-PI-specific phospholipase C (PI-PLC). We report here that exposure of either bovine aortic EC, smooth muscle cells (SMC), or wild-type CHO cells to PI-PLC released HSPG involved in the conversion of thrombin to an adhesive molecule. The adhesion-promoting activity of the released HSPG was abolished following treatment with heparinase but not chondroitinase ABC. Incubation of thrombin with heparan sulfate-deficient CHO cells or cells that were pretreated with PI-PLC failed to induce its conversion to an adhesive molecule, indicating that glypican was playing a major role in this conversion. Moreover, affinity-purified glypican, but not syndecan or fibroglycan, elicited efficient conversion of plasmin-treated thrombin into an adhesive molecule. Antibodies raised against the RGD site in thrombin failed to interact with native thrombin, prothrombin, or the RGD site in other adhesive proteins such as vitronectin, fibrinogen, or fibronectin. Anti-thrombin-RGD antibodies which blocked the adhesion-promoting activity of thrombin were also capable of recognizing thrombin that was first incubated with a suboptimal concentration of plasm in in the presence of PI-PLC-released HSPG. Heparin, heparan sulfate, and PI-PLC-released HSPG had no effect on other cellular properties of thrombin such as receptor binding and growth-promoting activity. Altogether we have demonstrated that the heparin binding domain in thrombin plays a specific role in promoting thrombin adhesive properties and that membrane-associated glypican is likely to be the major physiological inducer of this property.
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PMID:Specific involvement of glypican in thrombin adhesive properties. 917 91

Heparin, the most widely used antithrombin, suffers several limitations, including high inter-individual variability of anticoagulant response, a nonlinear dose-response curve, inability to inactivate clot-bound thrombin, a requirement for endogenous cofactors and inactivation by platelet factor 4 and heparinase. These shortcomings may explain its suboptimal efficacy and safety in the prevention of arterial vessel occlusion. Heparin's drawbacks may be overcome by direct thrombin inhibitors. The development of these specific antithrombins has been a major therapeutic goal of the past decade. The high expectations generated by the use of these compounds in experimental models of arterial thrombosis appeared to be confirmed by the initial phase I and II clinical studies. However, large phase III trials have been highly discouraging: three trials with hirudin have been interrupted as a result of a high incidence of serious adverse events. Two of these trials were subsequently restarted at lower doses and did not support an incremental efficacy of hirudin over heparin. Two trials in the setting of angioplasty (one with hirudin and one with hirulog) have also failed to demonstrate the superiority of these compounds over heparin. Is this the result of a very narrow therapeutic range of these agents or the consequence of poor design of the phase II studies leading to the selection of inappropriate doses for the comparative efficacy trials? This review focuses on the clinical development of two specific antithrombins: hirudin and hirulog. The experimental pharmacology and human studies of Argatroban are discussed in a review by Fitzgerald and Murphy.
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PMID:Direct thrombin inhibitors in cardiovascular disease. 921 Oct 51

Heparin inhibited haemagglutination by porcine reproductive and respiratory syndrome virus (PRRSV) and by Aujesky's disease virus, but failed to inhibit haemagglutination by parainfluenza virus type 3. The minimal inhibitory concentration of heparin required to inhibit 8 HA U of PRRSV haemagglutinin ranged from 0.1 to 1 U ml-1. Mouse erythrocytes failed to combine with the haemagglutination inhibitory factor of heparin. However, mouse erythrocytes treated with heparinase had greatly reduced agglutinability by PRRSV. The formation of a haemagglutinin-heparin complex could be observed by sedimenting heparin with the haemagglutinin. All these findings suggest that a heparin-like molecule on the surface of mouse erythrocytes serves as the virus-cell receptor.
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PMID:Effect of heparin on a haemagglutinin of porcine reproductive and respiratory syndrome virus. 930 May 45

Basic fibroblast growth factor (bFGF) and its specific receptors have diverse roles on a variety of cell types, such as the induction of vascular smooth-muscle cell proliferation which contributes to restenosis after coronary balloon angioplasty. bFGF is also known to interact with heparan sulphate proteoglycans present on the cell surface or in the extracellular matrix. In this study, the binding of 125I-bFGF to human aortic smooth-muscle cells was investigated. 125I-bFGF binding to these cells was reversible and saturable. Scatchard analysis revealed the presence of two distinct binding sites: a high-affinity receptor (Kd=38+/-7 pM; 1480+/-220 sites/cell) and a low-affinity non-saturable binding site (Kd=8. 0+/-2.0 nM). Pretreatment of the cells with heparinase resulted in a large reduction of 125I-bFGF binding to its low-affinity receptors, suggesting that they are heparin-like molecules. The specificity of the low- and high-affinity binding sites for bFGF was determined with acidic FGF, platelet-derived growth factor-BB and epidermal growth factor, which did not compete for 125I-bFGF binding. Expression of FGF receptor isoforms analysed by reverse transcriptase-PCR revealed the presence of only the type-1 receptor. Binding to low-affinity binding sites was antagonized by heparin, suramin, protamine sulphate and platelet factor 4. Unexpectedly, these molecules also reduced the binding of 125I-bFGF to its high-affinity sites. Consistent with these results, heparin, suramin, protamine sulphate and platelet factor 4 inhibited bFGF-induced proliferation of human aortic smooth-muscle cells. Heparin abrogated bFGF-induced release of tissue-type plasminogen activator by these cells. These observations suggest that the interaction of bFGF with human aortic smooth-muscle cells is different from that described for other cells such as endothelial cells, in which heparin acts as a potentiating factor of the mitogenic activity of bFGF.
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PMID:Heparin inhibits the binding of basic fibroblast growth factor to cultured human aortic smooth-muscle cells. 930 14

Lipoprotein lipase (LPL)-mediated lipolysis of very low density lipoprotein (VLDL) has been demonstrated to increase U937 monocyte adhesion to endothelial cells. In the present study, we evaluated the ability of LPL to enhance human monocyte adhesion to bovine aortic endothelial cells (BAEC) in the absence of exogenous lipoproteins. Exposure of BAEC to 1 microgram/ml LPL at 37 degrees C resulted in a significant increase in monocyte adhesion over control values. Addition of VLDL in the culture media further enhanced the LPL effect. A significant increase in monocyte adhesion was also observed when BAEC were incubated with LPL at 4 degrees C. Heparin or heparinase treatment of BAEC totally abolished the LPL stimulatory effect on monocyte adhesion. In addition, incubation of monocytes with heparinase suppressed the ability of LPL to stimulate monocyte adhesion to endothelial cells. These treatments also markedly decreased LPL binding to the monocyte and endothelial cell surfaces. In contrast to native LPL, heat inactivated or phenylmethylsulfonyl fluoride (PMSF)-treated LPL did not increase monocyte adhesion to BAEC. Finally, incubation of LPL in the presence of the 5D2 antibody resulted in a total suppression of the LPL-induced monocyte adhesion to BAEC. Taken together, these data demonstrate that LPL activity plays an important role in LPL-induced monocyte adhesion and that LPL binding to heparan sulfate proteoglycans expressed on both monocytes and endothelial cells surfaces is required for the enhanced monocyte adhesion. These results suggest a new mechanism by which LPL may promote the development of atherosclerosis, that of facilitating monocyte adhesion to the endothelium.
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PMID:Lipoprotein lipase enhances human monocyte adhesion to aortic endothelial cells. 932 82

Heparinases are bacterial enzymes that are powerful tools to study the physiological roles of heparin-like complex polysaccharides. In addition, heparinases have significant therapeutic applications. We had proposed earlier that cysteine 135 and histidine 203 together form the catalytic domain in heparinase I. We had also identified a heparin binding domain in heparinase I containing two positively charged clusters HB-1 and HB-2 in a primary heparin binding site and other positively charged residues in the vicinity of cysteine 135. In this study, through systematic site-directed mutagenesis studies, we show that the alteration of the positive charge of the HB-1 region has a pronounced effect on heparinase I activity. More specifically, site-directed mutagenesis of K199A (contained in HB-1) results in a 15-fold reduction in catalytic activity, whereas a K198A mutation (also in HB-1) results in only a 2- to 3-fold reduction in heparinase I activity. A K132A mutation, in close proximity to cysteine 135, also resulted in reduced (8-fold) activity. Heparin affinity chromatography experiments indicated moderately lowered binding affinities for the K132A, K198A, and the K199A mutant enzymes. The above results, taken together with our previous observations, lead us to propose that the positively charged heparin binding domain provides the necessary microenvironment for the catalytic domain of heparinase I. The dominant effect of lysine 199 suggests an additional, more direct, role in catalysis for this residue.
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PMID:Heparinase I from Flavobacterium heparinum. Role of positive charge in enzymatic activity. 941 72

Heparin inhibited hemagglutination (HA) by equine arteritis virus (EAV) as well as did HA by Aujeszky's disease virus (ADV), but failed to inhibit HA by parainfluenza virus type 3 (PIV-3). The minimal concentration of heparin required to inhibit 8 HA U of EAV was 0.1 U/ml. In addition, most EAV hemagglutinin was retained by heparin acrylic beads, as was ADV hemagglutinin, but was not PIV-3 hemagglutinin. Mouse erythrocytes failed to combine with the HA inhibitory factor of heparin. However, mouse erythrocytes treated with heparinase had greatly reduced agglutinability by EAV. All these findings suggest that a heparin-like molecule on the surface of mouse erythrocytes serves as the virus-cell receptor.
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PMID:Effect of heparin on hemagglutination by equine arteritis virus. 959 16

Protease inhibition by secretory leukocyte protease inhibitor (SLPI) is accelerated by the sulfated polysaccharides. The nature of the SLPI-polysaccharide interaction, explored with affinity chromatography, indicated that this interaction was sensitive to the charge and type of polysaccharide. Dextran and chondroitin had the lowest affinity for SLPI, followed by dermatan, heparan, and dextran sulfates. While heparin bound SLPI tightly, the highest affinity heparin chains unexpectedly contained a lower level of sulfation than more weakly interacting chains. Heparin oligosaccharides, prepared using heparin lyase I were SLPI-affinity fractionated. Surprisingly, undersulfated heparin oligosaccharides bound SLPI with the highest affinity, suggesting the importance of free hydroxyl groups for high affinity interaction. Isothermal titration calorimetry was used to determine the thermodynamics of SLPI interaction with a low molecular weight heparin, an undersulfated decasaccharide and a tetrasaccharide. The studies showed 12-14 saccharide units, corresponding to molecular weight of approximately 4,800, were required for a 1:1 (SLPI:heparin) binding stoichiometry. Furthermore, an undersulfated decasaccharide was able to bind SLPI tightly (Kd approximately 13 nM), resulting in its activation and the inhibition of neutrophil elastase and pancreatic chymotrypsin. The in vitro assessment of heparin and the decasaccharide and tetrasaccharide using stopped-flow kinetics suggested that heparin was the optimal choice to study SLPI-based in vivo protease inhibition. SLPI and heparin were co-administered by inhalation in therapy against antigen-induced airway hyperresponsiveness in a sheep bronchoprovocation model. Heparin, in combination with SLPI demonstrated in vivo efficacy reducing early and late phase bronchoconstriction. Heparin also increased the therapeutic activity of SLPI against antigen-induced airway hyperresponsiveness.
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PMID:Interaction of secretory leukocyte protease inhibitor with heparin inhibits proteases involved in asthma. 959 92

Thrombin is inhibited by its cognate plasma inhibitor antithrombin, through the formation of covalent thrombin-antithrombin (TAT) complexes that are found as ternary complexes with vitronectin (VN-TAT). To determine whether the metabolism of VN-TAT ternary complexes is different from that previously reported for binary TAT complexes, plasma clearance studies were done in rabbits using human VN-TAT. 125I-VN-TAT was shown to be cleared rapidly from the circulation (t1/2alpha = 3.8 min) in a biphasic manner mainly by the liver. 125I-TAT had a similar initial clearance (t1/2alpha = 5.3 min) but had a significantly faster beta-phase clearance (t1/2beta = 42.8 min versus 85.4 min for VN-TAT; p = 0.005). Protamine sulfate and heparin abolished the rapid initial alpha-phase of 125I-VN-TAT clearance and reduced its liver-specific association and in vivo degradation. Heparin also reduced the alpha-phase clearance of 125I-TAT and was associated with the appearance of high molecular weight complexes, suggesting enhanced complex formation between VN and TAT. 125I-VN-TAT binding to HepG2 cells was reduced by competition with VN-TAT or heparin but to a much lesser extent in the presence of TAT. The binding of VN-TAT to HepG2 cells was not inhibited by competition with the low density lipoprotein receptor-related protein ligand, methylamine-alpha2-macroglobulin. 125I-VN-TAT binding was also inhibited by treating HepG2 cells with heparinase or by growing the cells in the presence of beta-D-xyloside. Finally, both heparin and chloroquine, but not methylamine-alpha2-macroglobulin, reduced the internalization and degradation of VN-TAT by HepG2 cells. Taken together, these data indicate the importance of VN in TAT metabolism and demonstrate that VN-TAT binds to liver-associated heparan sulfate proteoglycans, which mediate its internalization and subsequent intracellular degradation.
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PMID:In vivo clearance of ternary complexes of vitronectin-thrombin-antithrombin is mediated by hepatic heparan sulfate proteoglycans. 972 80


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