Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The activation of factor X in the presence of antithrombin has been studied in order to determine the parameters that control the area under the resulting factor Xa generation curve. Generation curves were analyzed using a model containing three parameters: the total generation of factor Xa, Emax; the rate of factor Xa generation, expressed as a first-order rate constant, kappa 1; and the rate of inhibition, expressed as another first-order rate constant, kappa 2. Using factor IXa-VIIIa to activate factor X, we found the area under the generation curve to be proportional to Emax, which was varied by varying the factor IXa concentration, and inversely proportional to kappa 2, which was varied by varying the antithrombin concentration. With this activator, however, kappa 1 varied in parallel with Emax, resulting in a correlation between integrated area and kappa 1. In order to determine whether Emax or kappa 1, or both, was a controlling parameter, similar activations were done with varying concentrations of the factor X-activating enzyme of Russell's viper venom. With this activator it was possible to vary Emax and kappa 1 independently, again at varying antithrombin concentrations. These results showed the integrated area to be proportional to Emax and inversely proportional to kappa 2, as before, but independent of the activation rate, kappa 1. In this system, therefore, the area under the factor Xa generation curve is controlled by the amount of factor Xa generated and its rate of inhibition but is independent of the rate of factor Xa generation.
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PMID:Analysis of the generation and inhibition of factor Xa. Area under generation curves is independent of enzyme generation rate. 221 47

Our purpose was to determine the relative contribution of the antifactor Xa and antithrombin activities of heparin to its antithrombotic potency. The antithrombotic activities of unfractionated heparin (UH), two low molecular weight heparins (LMWH, CY 216 and CY 222) with increasing anti-factor Xa/antithrombin ratio and a synthetic pentasaccharide (PS) with high affinity to antithrombin III and no antithrombin activity were evaluated. In the Wessler-thromboplastin model, the most potent antithrombotic agent, on a weight basis, was UH followed by CY 216, CY 222 and the PS which was 40 times less potent than UH. On an antithrombin unit basis, the antithrombotic potencies of UH, CY 216 and of CY 222 were equivalent. Thus, in this model, the antithrombotic effect results from the catalytic action of UH or LMWH on thrombin inhibition. In the Wessler-serum model, on a weight basis, the antithrombotic effectiveness of UH was unchanged, those of CY 216 and CY 222 were doubled, and that of the PS was increased 10 times. On an anti-factor Xa unit basis, CY 216 was as effective as UH, and PS as effective as CY 222. On an antithrombin unit basis, CY 216 and CY 222 were equivalent and more potent than UH. Thus, in this model, the antifactor Xa activity of heparin becomes important for its antithrombotic property. After a single subcutaneous injection of 1000 antifactor Xa U/kg, the antithrombotic effects of UH were maintained for more than 14 h in the two models. After injection of the same dose of CY 216 significant antithrombotic effects were observed only for 9 h, in the Wessler-thromboplastin model but for 18 h in the Wessler-serum model. At that time, no detectable antithrombin activity was measurable in the plasma while 0.11 units of antifactor Xa activity/ml was detected. Thus, the relative contribution of the anti-factor Xa and antithrombin activities to the antithrombotic effect of a LMWH differs according to the nature of the thrombogenic stimulus.
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PMID:Antithrombotic potencies of heparins in relation to their antifactor Xa and antithrombin activities: an experimental study in two models of thrombosis in the rabbit. 222 52

Factor IX is the zymogen of the serine protease factor IXa involved in blood coagulation. In addition to a catalytic domain homologous to the chymotrypsin family, it has Ca2+, phospholipid, and factor VIIIa binding regions needed for full biologic activity. We isolated a nonfunctional factor IX protein designated factor IXEagle Rock (IXER) from a patient with hemophilia B. The variant protein is indistinguishable from normal factor IX (IXN) in its migration on sodium dodecyl sulfate-gel electrophoresis, isoelectric point in urea, carbohydrate content and distribution, number of gamma-carboxyglutamic acid residues, and beta-OH aspartic acid content, and in its binding to an anti-IXN monoclonal antibody which has been shown previously to inhibit the interaction of factor VIIIa with factor IXaN. Further, IXER is cleaved to yield a factor IXa-like molecule by factor XIa/Ca2+ at a rate similar to that observed for IXN. However, in contrast to IXaN, IXaER does not bind to antithrombin-III (specific inhibitor of IXaN) and does not catalyze the activation of factor X (substrate) to factor Xa. To identify the mutation in IXER, all eight exons of IXN and IXER gene were amplified by the polymerase chain reaction technique and cloned. A single point mutation (G----T) which results in the replacement of Val for Gly363 in the catalytic domain of IXER was identified. Gly363 in factor IXa corresponds to the universally conserved Gly193 in the active site sequence of the chymotrypsin serine protease family. X-ray crystallographic data in the literature demonstrate a critical role of this Gly in stabilizing the active conformation of chymotrypsin/trypsin in two major ways: 1) in the formation of the substrate binding site; and 2) in the development of the oxyanion hole. Our computer structural data support a concept that the Gly363----Val change prevents the development of the active site conformation in factor IXa such that the substrate binding site and the oxyanion hole are not formed in the mutated enzyme.
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PMID:Experimental and theoretical evidence supporting the role of Gly363 in blood coagulation factor IXa (Gly193 in chymotrypsin) for proper activation of the proenzyme. 230 34

The effects of standard heparin, three low molecular weight derivatives of heparin, dermatan sulphate and pentosan polysulphate on the intrinsic coagulation pathway were compared in order to evaluate the contributions of the anti-factor Xa and anti-thrombin activities to their anticoagulant activities. The anticoagulant potency was measured by the ability of each sulphated polysaccharide to inhibit the generation of thrombin activity in plasma. Similarly, the ability of the six sulphated polysaccharides to enhance the rates of inactivation either factor Xa or thrombin in defibrinated plasma containing calcium chloride and cephalin were also determined. Standard heparin was the only sulphated polysaccharide that could equally inhibit thrombin generation and enhance the inactivation of factor Xa and thrombin by plasma. Dermatan sulphate and pentosan polysulphate were more effective as inhibitors of thrombin generation than potentiators of factor Xa inactivation. The two smallest derivatives of heparin, which had high anti-factor Xa (but low antithrombin) activity, were the poorest inhibitors of thrombin generation. Our results therefore suggest that only sulphated polysaccharides that enhance the inactivation of thrombin by plasma and/or inhibit the generation of thrombin activity in plasma are good anticoagulants. These two activities of sulphated polysaccharides appear to be good predictors of the relative antithrombotic potency in vivo.
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PMID:The importance of thrombin inhibition for the expression of the anticoagulant activities of heparin, dermatan sulphate, low molecular weight heparin and pentosan polysulphate. 241 Dec 83

A method has been developed for detailed kinetic studies of the inhibition of factor Xa in human plasma. Radiolabeled enzyme is not required, and the method can be used at initial factor Xa levels of 1 nM. The method is discontinuous and based on the removal of samples into an amidolytic assay done in the presence of 1% Lubrol-PX detergent. This permits the study of inhibition in mixtures containing phospholipid, platelets, or thromboplastin. The method can be used at inhibition rates in excess of 1 min-1, and by suitable analysis can be used to estimate the contribution of inhibition by alpha 2-macroglobulin, which does not itself inhibit amidolytic activity. The method is at present limited to cases where thrombin is not generated in large excess. Factor Xa inhibition has been studied in citrated plasma as a function of total plasma concentration, and--by the use of antithrombin-depleted plasma--as a function of the antithrombin concentration of the plasma. In all situations inhibition is characterized by second-order behavior: (i) total inhibition rate is proportional to plasma concentration up to 95%, giving a maximum rate in the absence of calcium of 1 min-1; (ii) inhibition in depleted plasma reconstituted with antithrombin shows inhibition rate to remain linearly related to antithrombin concentration; and (iii) the estimated rate due to alpha 2-macroglobulin is proportional to plasma concentration. It is thus confirmed that, as in pure systems, inhibition of factor Xa in whole plasma is linearly related to the concentration of each class of inhibitor.
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PMID:Measurement of the kinetics of inhibition of activated coagulation factor X in human plasma: the effect of plasma and inhibitor concentration. 242 4

Protease inhibitors are useful tools for increasing the inhibitor potential of plasma. In this context, thrombin inhibitors attracted special interest. However, other clotting enzymes, especially factor Xa, are target enzymes of protease inhibitors besides thrombin. Our studies on structure-activity relationships of benzamidine derivatives resulted in selective inhibitors of thrombin and factor Xa. The use of these inhibitors enabled us to clarify whether the antithrombin activity or the anti-factor Xa activity of a compound is more efficient in anticoagulation. We assessed the concentration-dependent inhibition of the activated partial thromboplastin time by these compounds. If one correlates the inhibitor concentration, which prolonged the clotting time by 60 s, with the dissociation constants one will realize that thrombin inhibition is significantly more efficient in anticoagulation than inhibition of factor Xa.
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PMID:Are factor Xa inhibitors superior to thrombin inhibitors in anticoagulation? 245 11

The relationship between two anticoagulant actions of glycosaminoglycans (GAGs), namely the catalysis of thrombin inhibition (assessed by thrombin-antithrombin-III and thrombin-heparin-cofactor-II formation) and the inhibition of prothrombin activation, was explored by comparing the effects of heparin, heparan sulfate, and dermatan sulfate on the two reactions in plasma. Heparan sulfate and dermatan sulfate were also resulfated in vitro to yield products with sulfate/carboxylate ratios similar to those of heparin. Their effects on thrombin inhibition and the activation of prothrombin were also determined. The catalytic efficiency of the five GAGs on thrombin inhibition and their inhibitory effects on prothrombin activation decreased in the following order: heparin; resulfated dermatan sulfate; resulfated heparan sulfate; heparan sulfate = dermatan sulfate. These results suggest that the catalytic efficiency of a glycosaminoglycan on thrombin inhibition translates to its inhibitory effect on prothrombin activation, since catalysis of thrombin inhibition results in the inhibition of the thrombin-dependent positive feedback reactions of coagulation which facilitate prothrombinase formation.
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PMID:Plasma anticoagulant mechanisms of heparin, heparan sulfate, and dermatan sulfate. 252 56

We studied the mode of action of the low molecular weight heparin PK10169 and two of its constituent fractions: EMT 966 High Molecular Weight Fraction and EMT 967 Low Molecular Weight Fraction. EMT 966 like standard heparin, acts primarily on thrombin formed and not on prothrombinase (S type heparin). In contrast EMT 967 has no direct effect on thrombin. At high concentrations, it inhibits the prothrombinase complex (P type heparin). PK10169, that contains the two EMTs shows both activities: antithrombin and antiprothrombinase (mixed type heparin). The addition of increasing amounts of EMT 967 to a constant amount of EMT 966 does not influence the breakdown constant of endogenous thrombin which is determined by the concentration of EMT 966 only. This demonstrates the absence of competition for AT III between the two components of PK10169. In platelet rich plasma, EMT 966 inhibits and postpones thrombin generation more efficiently than unfractionated heparin, probably because it is less sensitive to neutralization by platelet components (platelet factor 4). Amounts of EMT 967 that hardly inhibit thrombin generation in platelet rich plasma enhance the effect of EMT 966 probably by neutralizing platelet factor 4.
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PMID:The mode of action of low molecular weight heparin preparation (PK10169) and two of its major components on thrombin generation in plasma. 254 77

Commercially available heparin preparations slightly enhanced the rate of thrombin/antithrombin (AT) III reaction at pH 6.05 in the absence of NaCl. However, this accelerative activity was significantly lower than that induced by heparin with high affinity for AT III (HA-heparin), probably due to the formation of the binary complexes of HA-heparin-AT III as well as that composed of thrombin and heparin with low affinity for AT III (LA-heparin). The HA-heparin-catalyzed thrombin/AT III reaction was faster in the presence of 0.1 M NaCl at pH 6.05 than that in the absence of the salt. LA-heparin and dextran sulfate (DS) were also found to accelerate the thrombin/AT III reaction rate, but neither substance catalyzed the formation of the complex in the presence of 0.1 M NaCl at pH 7.4. LA-heparin was also confirmed to compete with HA-heparin for enhancement of the thrombin/AT III reaction. Thus, it appears that AT III tends to form a ternary complex with the thrombin-DS or thrombin-LA-heparin complex, even in the presence of 0.1 M NaCl, whereas factor Xa reacts with the AT III-DS or AT III-LA-heparin complex. These results indicate that HA-heparin is the only substance having the ability to catalyze the thrombin/AT III reaction, and that its turnover rate is markedly elevated in the presence of strongly electropositive and electronegative ions because of the decreased affinity of the enzyme for heparin under such conditions.
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PMID:Dependence of the rate of thrombin/antithrombin III reaction upon the turnover rate of a catalytic amount of heparin. 259 15

The thromboresistant function of a surface with end-point attached heparin is based upon interaction among the immobilized heparin, antithrombin, and at least factor Xa or thrombin. Heparinized arteriovenous shunts were implanted in dogs. By compressing a segment of the shunt, high and low wall shear rate regions were obtained in each shunt. After removal, the tubings were tested for their factor Xa and thrombin inhibitory capacity. It was found that on a molar basis, the factor Xa and thrombin inhibitory capacity were similar in low wall shear rate segments. In high wall shear rate segments, the thrombin inhibitory capacity was decreased, thus indicating that the AT-mediated inhibition of the serine protease is dependent on the wall shear rate.
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PMID:Influence of high and low wall shear rates on the inhibition of factor Xa and thrombin at surfaces coated with immobilized heparin. 260 95


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