HUMANGGP:027518 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: HUMANGGP:027518 (factor Xa)
5,167 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Sequential digestion of human thrombin and antithrombin with neuraminidase, beta-galactosidase, beta-N-acetylglucosaminidase, and endo-beta-N-acetylglucosaminidase D resulted in the successive removal of sialic acid, galactose, N-acetylglucosamine, and mannose and more N-acetylglucosamine residues. The products obtained after each stage of deglycosylation had electrophoretic mobilities that were consistent with the calculated change in mass expected from the cleavage of the sugar moieties. The modified thrombins did not lose fibrinogen-clotting activity, amidolytic activity, nor the ability to form complexes with antithrombin. In addition, asialothrombin and asialoagalactothrombin caused the same extent of platelet release as did control thrombin. The products obtained after removal of sugars from antithrombin retained thrombin-neutralizing activity. In the presence of heparin the inhibition of thrombin as well as factor Xa was enhanced. Thus, the sugar residues of thrombin and antithrombin are not required for the formation of enzyme-inhibitor complexes or for the other activities that were measured.
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PMID:Effects of enzymatic deglycosylation on the biological activities of human thrombin and antithrombin. 642 51

A low molecular weight preparation of porcine heparin (specific anticoagulation activity = 125 units/mg) was fractionated to obtain a mucopolysaccharide product of 6500 daltons (specific anticoagulant activity = 373 units/mg) that is homogeneous with respect to its interaction with antithrombin. This material was treated with fluorescamine in order to introduce a fluorescent tag into the mucopolysaccharide. Initially, we showed that the fluorescamine-heparin conjugate and the unlabeled mucopolysaccharide interacted with antithrombin in a virtually identical fashion. Subsequently, we demonstrated that labeled heparin could be utilized in conjunction with fluorescence polarization spectroscopy to monitor the binding of mucopolysaccharide to thrombin, factor IXa, factor Xa, and plasmin. The interaction of this complex carbohydrate with thrombin exhibited a stoichiometry of 2:1 with KH1T DISS = KH2T DISS = 8 x 10(-7) M. The formation of mucopolysaccharide . factor IXa complex is characterized by a stoichiometry of 1:1 with KHIXa DISS = 2.58 x 10(-7) M. The binding of heparin to factor Xa or plasmin occurred with low avidity. Therefore, the stoichiometries of these processes could not be established. However, our experimental data were compatible with a single-site binding residue with KHXa DISS = 8.73 x 10(-6) M and KHPL DISS = approximately 1 x 10(-4) M, respectively.
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PMID:The binding of low molecular weight heparin to hemostatic enzymes. 644 45

The kinetics of inhibition of four hemostatic system enzymes by antithrombin were examined as a function of heparin concentration. Plots of the initial velocity of factor Xa-antithrombin or plasmin-antithrombin interaction versus the level of added mucopolysaccharide exhibit an ascending limb and subsequent plateau regions. In each case, the kinetic profile is closely correlated with the concentration of the heparin . antithrombin complex formed within the reaction mixture. A decrease in the velocity of inhibition is not observed at high levels of added mucopolysaccharide despite the generation of significant quantities of heparin-enzyme interaction products. The second-order rate constants for the neutralization of factor Xa or plasmin by the mucopolysaccharide . inhibitor complex are 2.4 x 10(8) M-1 min-1 and 4.0 x 10(6) M-1 min-1, respectively. These parameters must be contrasted with the similarly designated constants obtained in the absence of heparin which are 1.88 x 10(5) M-1 min-1 and 4.0 x 10(4) M-1 min-1, respectively. Plots of the initial velocity of the factor IXa-antithrombin or the thrombin-antithrombin interaction versus the level of added mucopolysaccharide exhibit an ascending limb, pseudoplateau, descending limb, and final plateau regions. In each case, the ascending limb and pseudoplateau are closely correlated with the concentration of heparin c antithrombin complex formed within the reaction mixture. Furthermore, the descending limb and final plateau of these two processes coincide with the generation of increasing amounts of the respective mucopolysaccharide-enzyme interaction products. The second-order rate constants for the neutralization of factor IXa or thrombin by the heparin . antithrombin complex are 3.0 x 10(8) M-1 min-1 and 1.7 x 10(9) M-1 min-1, respectively. The second-order rate constants for the inhibition of mucopolysaccharide-factor IXa or mucopolysaccharide-thrombin interaction products by the heparin . antithrombin complex are 2.0 x 10(7) M-1 min-1 and 3.0 x 10(8) M-1 min-1, respectively. These kinetic parameters must be contrasted with similarly designated constants obtained in the absence of mucopolysaccharide which are 2.94 x 10(4) M-1 min-1 and 4.25 x 10(5) M-1 min-1, respectively. Thus, our data demonstrate that binding of heparin to antithrombin is required for the mucopolysaccharide-dependent enhancement in the rates of neutralization of thrombin, factor IXa, factor Xa, or plasmin by the protease inhibitor. Furthermore, a careful comparison of the various constants suggests that the direct interaction between heparin and antithrombin may be largely responsible for the kinetic effect of this mucopolysaccharide.
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PMID:The kinetics of hemostatic enzyme-antithrombin interactions in the presence of low molecular weight heparin. 644 46

The ability of heparin and related glycosaminoglycans (GAGs) to accelerate the inhibition of thrombin, factor Xa and plasmin in plasma and in a purified system containing antithrombin III (At III) was studied using chromogenic peptide substrate assays. There was good correlation between the charge density of the mucopolysaccharides and the activities investigated. While the difference between potentiation of the antithrombin activity by GAGs in plasma and in the purified system was slight, the inhibition of factor Xa in plasma was more pronounced than in the presence of purified At III, indicating the mechanisms for GAGs-potentiated inhibition of thrombin and factor Xa are not identical. For the antiplasmin activity, there was a good correlation between the chemical structure and biological activity only in the pure system, confirming that the antithrombin-GAG complex plays a very limited role in the inactivation of plasmin in plasma.
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PMID:GAGs-potentiated inhibition of thrombin, factor Xa and plasmin in plasma and in a purified system containing antithrombin III - correlation with total charge density. 646 Mar 39

We have isolated from nitrous acid cleavage products of heparin two major octasaccharide fragments which bind with high affinity to human antithrombin. Octasaccharide S, with the predominant structure iduronic acid----N-acetylglucosamine 6-O-sulfate----glucuronic acid-----N-sulfated glucosamine 3,6-di-O-sulfate----iduronic acid 2-O-sulfate----N-sulfated glucosamine 6-O-sulfate----iduronic acid 2-O-sulfate----anhydromannitol 6-O-sulfate, is sensitive to cleavage by Flavobacterium heparinase as well as platelet heparitinase and binds to antithrombin with a dissociation constant of (5-15) X 10(-8) M. Octasaccharide R, with the predominant structure iduronic acid 2-O-sulfate----N-sulfated glucosamine 6-O-sulfate----iduronic acid----N-acetylglucosamine 6-O-sulfate----glucuronic acid----N-sulfated glucosamine 3,6-di-O-sulfate----iduronic acid 2-O-sulfate----anhydromannitol 6-O-sulfate, is resistant to degradation by both enzymes and binds antithrombin with a dissociation constant of (4-18) X 10(-7) M. The occurrence of a 15-17% replacement of N-sulfated glucosamine 3,6-di-O-sulfate with N-sulfated glucosamine 3-O-sulfate and a 10-12% replacement of iduronic acid with glucuronic acid in both octasaccharides indicates that these substitutions have little or no effect on the binding of the oligosaccharides to the protease inhibitor. When bound to antithrombin, both octasaccharides produce a 40% enhancement in the intrinsic fluorescence of the protease inhibitor and a rate of human factor Xa inhibition of 5 X 10(5) M-1 s-1 as monitored by stopped-flow fluorometry. This suggests that the conformation of antithrombin in the region of the factor Xa binding site is similar when the protease inhibitor is complexed with either octasaccharide.
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PMID:Sequence variation in heparin octasaccharides with high affinity for antithrombin III. 652 37

A familial abnormal antithrombin III (AT-III) is reported. The characteristic of the abnormality in this family is low heparin cofactor activity with normal progressive antithrombin activity and normal or rather increased level of AT-III antigen. The patient is a 23-year-old female who had suffered from recurrent thrombophlebitis involving her lower extremities. Her plasma AT-III antigen concentration was 54 mg/dl and progressive antithrombin and factor Xa inhibitory activities were of normal level. However, the heparin cofactor activity of her plasma was as low as 26% of normal control. On crossed immunoelectrophoresis (CIE) containing heparin in the first dimension agarose, patient's AT-III showed no increase in electrophoretic mobility compared to that in the absence of heparin, suggesting that the patient's AT-III has no affinity for heparin. From CIE pattern in the presence of heparin, the patient was found to be a homozygote, and parents and one of her younger sisters were heterozygotes. Thus, the mode of inheritance is proposed to be autosomal dominant.
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PMID:Antithrombin III Toyama: a hereditary abnormal antithrombin III of a patient with recurrent thrombophlebitis. 663 45

N-(Carboxymethyl)chitosan was subjected to sulfation in a mixture of concentrated sulfuric acid (oleum) and N,N-dimethylformamide, under anhydrous conditions. The resulting product contained 11% of sulfur and degree of substitution: N-acetyl, 42%; N-carboxymethyl, 58%; and sulfate, 100%. Sonication of the sulfated N-(carboxymethyl)chitosan gave two main fractions whose molecular weights were 39,000 and 80,000. In human blood, complexes of sulfated N-(carboxymethyl)chitosan and antithrombin inhibited both thrombin and factor Xa, and produced neither hemolysis nor alterations in erythrocytes and lymphocytes. Sulfated N-(carboxymethyl)chitosan is therefore proposed as a blood anticoagulant.
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PMID:Sulfated N-(carboxymethyl)chitosans: novel blood anticoagulants. 671 33

Recent investigations have suggested that the activation of factor IX by factor VII/tissue factor may be an important alternative route to the generation of factor Xa. Accordingly, we have compared the tissue factor-dependent activation of tritium-labeled factor IX and factor X in a human plasma system and have studied the role of proteases known to stimulate factor VII activity. Plasma was defibrinated by heating and depleted of its factors IX and X by passing it through antibody columns. Addition of human brain thromboplastin, Ca2+, and purified 3H-labeled factor X to the plasma resulted, after a short lag, in burst-like activation of the factor X, measured as the release of radiolabeled activation peptide. The progress of activation was slowed by both heparin and a specific inhibitor of factor Xa, suggesting a feedback role for this enzyme, but factor X activation could not be completely abolished by such inhibitors. In the case of 3H-factor IX activation, the rate also increased for approximately 3 min after addition of thromboplastin, but was not subsequently curtailed. A survey of proteases implicated as activators of factor VII in other settings showed that both factor Xa and (to a much smaller extent) factor IXa could accelerate the activation of factor IX. However, factor Xa was unique in obliterating activation when present at concentrations greater than approximately 1 nM. Heparin inhibited the tissue factor-dependent activation of factor IX almost completely, apparently through the effect of antithrombin on the feedback reactions of factors Xa and IXa on factor VII. These results suggest that a very tight, biphasic control of factor VII activity exists in human plasma, which is modulated mainly by factor Xa. Variation of the factor IX or factor X concentrations permitted kinetic parameters for each activation to be derived. At saturation of factor VIIa/tissue factor, factor IX activation was significantly more rapid than was previously found in bovine plasma under similar conditions. The activation of factor X at saturation was slightly more rapid than in bovine plasma, despite the presence of heparin.
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PMID:Tissue factor-dependent activation of tritium-labeled factor IX and factor X in human plasma. 672 52

Immunization of goats and mules with human thrombin resulted in an antiserum that reacted only weakly with the parent molecule, prothrombin. Some of the antibodies in this antiserum showed a greater affinity for thrombin complexed to its naturally occurring inhibitor, antithrombin-III, than for active thrombin. An antiserum against the human thrombin inhibitor, antithrombin-III, produced 2 precipitin lines against human serum but only 1 against plasma. The 2nd line in serum was shown to represent precipitation of a complex of thrombin with antithrombin-III. The neoantigens appearing in antithrombin-III after complex formation were also present in complexes prepared with purified clotting factor Xa and antithrombin-III. Since purified host (mule) thrombin was also capable of causing formation of the neoantigenic sites when complexed to human antithrombin-III, it seems likely that these determinants result from interaction in the host between the immunogens (either human thrombin or antithrombin) and the appropriate interacting host protein (mule antithrombin-III or thrombin, respectively). Studies by radioimmunoassay showed that the antibodies formed are not completely specific for the neoantigens since they also react to a lesser extent with the free proteins.
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PMID:Antigenic changes produced by complex formation between thrombin and antithrombin-III. 678 23

Previous studies have shown that a modified form of antithrombin, cleaved at a single Arg-Ser bond near the carboxy-terminal end of the chain, is formed during the reaction with thrombin concurrent with the formation of the inactive enzyme-inhibitor complex. A variety of evidence suggests that this cleavage site is the active site of antithrombin. In this work, antisera against intact antithrombin, the modified form of antithrombin and the antithrombin-thrombin complex were used in immunodiffusion analyses to probe the state of the inhibitor in its complexes with coagulation serine proteases. The results show that new antigenic determinants not present in intact antithrombin are created in modified antithrombin by the single peptide-bond cleavage. the same antigenic determinants are found also in complexes between antithrombin and thrombin or factor Xa. No evidence for the exposure of other new determinants in the complexes was obtained. The most likely conclusion from these results is that antithrombin exists in its complexes with the serine proteases as the modified, two-chain form of the inhibitor. This suggests that the mechanism of inhibition involves proteolytic cleavage of the active site of antithrombin by the protease.
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PMID:Immunological evidence for a proteolytic cleavage at the active site of antithrombin in the mechanism of inhibition of coagulation serine proteases. 679 Feb 79

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