HUMANGGP:027518 - FACTA Search

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Query: HUMANGGP:027518 (factor Xa)
5,167 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The kinetics of inhibition of prothrombinase during prothrombin conversion by antithrombin and antithrombin-heparin complexes was studied in a tubular flow reactor. Prothrombinase was assembled at a macroscopic phospholipid membrane, composed of 25 mol % phosphatidylserine and 75 mol % phosphatidylcholine, deposited on the inner wall of a glass capillary, by perfusion with a factor Xa-factor Va mixture. Measurement of thrombin production allowed estimation of the amount of prothrombinase present at the capillary wall. Perfusion with a mixture of prothrombin and antithrombin or antithrombin-heparin complexes caused a progressive decline of the prothrombinase activity. The rate of inactivation steeply decreased with increasing prothrombin concentrations, indicating competitive inhibition. Analysis of competitive inhibition data requires estimation of the time-dependent substrate concentration, Co, near the prothrombin converting surface using earlier developed transport theory [Billy, D., et al. (1995) J. Biol. Chem. 270, 1029-1034]. It appears that the inhibition rate is proportional to the fraction of enzyme, Km/(Km+Co), not occupied by substrate. The value of Km of prothrombinase estimated from the dependence of the inhibition rate on the prothrombin concentration (Km = 2-3 nM) is in excellent agreement with the value estimated from the substrate conversion rate (Km = 3 nM). Therefore inhibition of prothrombinase by antithrombin and antithrombin-heparin complexes is fully competitive with the substrate: prothrombin. Our results show that prothrombinase assembled on macroscopic lipid surfaces by virtue of its low Km value is protected for inhibition due to highly effective competition of prothrombin with antithrombin for the active site of factor Xa.
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PMID:Inhibition of prothrombinase at macroscopic lipid membranes: competition between antithrombin and prothrombin. 757 61

Mutation of residue 192 (chymotrypsin numbering) from Glu to Gln in thrombin and activated protein C has been shown to dramatically alter substrate and inhibitor specificity, in large part by allowing these enzymes to accept substrates with acidic residues in the P3 and/or P3' positions. In factor Xa, residue 192 is already a Gln. We now compare the properties of a Q192E mutant of Gla-domainless factor X (GDFX). Kinetic analysis of prothrombin activation indicates similar affinity of factor Va for GDFXa and GDFXa Q192E (Kd(app) = 3.6 and 3.7 microM, respectively). Prothrombin activation rates are similar for both enzymes with factor Va, but are approximately 10-fold slower for the Q192E mutant without factor Va. This defect is in the activation of prethrombin 2 and is corrected by factor Va only in the presence of fragment 2. Without factor Va, fragment 2 has no influence on bovine prethrombin 2 activation by GDFXa, but fragment 2 enhances prethrombin 2 activation by the Q192E mutant at least 10-fold. These results indicate that the fragment 2 domain of prothrombin probably alters the conformation of the prethrombin 2 domain, selectively improving its presentation to GDFXa Q192E. With respect to inhibition, tissue factor pathway inhibitor and bovine pancreatic trypsin inhibitor are > or = 30 times poorer inhibitors of GDFXa Q192E than of GDFXa, but these enzymes are inhibited at comparable rates by antithrombin. These results indicate that Gln-192 in factor Xa is a key determinant of substrate/inhibitor specificity.
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PMID:Contribution of residue 192 in factor Xa to enzyme specificity and function. 760 83

In order to promote homogeneity of recombinant antithrombin III interactions with heparin, an asparagine-135 to alanine substitution mutant was expressed in baculovirus-infected insect cells. The N135A variant does not bear an N-linked oligosaccharide on residue 135 and is therefore similar to the beta isoform of plasma antithrombin. Purified bv.hat3.N135A is homogeneous with respect to molecular mass, charge and elution from immobilized heparin. Second-order rate constants for thrombin and factor Xa inhibition determined in the absence and presence of heparin are in good agreement with values established for plasma antithrombin and these enzymes. Based on far- and near-UV CD, bv.hat3.N135A has a high degree of conformational similarity to plasma antithrombin. Near-UV CD, absorption difference and fluorescence spectroscopy studies indicate that it also undergoes an identical or very similar conformational change upon heparin binding. The Kds of bv.hat3.N135A for high-affinity heparin and pentasaccharide were determined and are in good agreement with those of the plasma beta-antithrombin isoform. The demonstrated similarity of bv.hat3.N135A and plasma antithrombin interactions with target proteinases and heparins suggest that it will be a useful base molecule for investigating the structural basis of antithrombin III heparin cofactor activity.
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PMID:Elimination of glycosylation heterogeneity affecting heparin affinity of recombinant human antithrombin III by expression of a beta-like variant in baculovirus-infected insect cells. 764 63

Identical or highly similar antigenic determinants, not present in the intact inhibitor, were induced in antithrombin on cleavage of the reactive bond, on formation of a complex between antithrombin and a synthetic reactive-loop tetradecapeptide, and on partial denaturation of antithrombin at low concentrations of guanidinium chloride. Previous studies indicate that the common structural feature of these three modified forms of antithrombin is that the region of the reactive-bond loop on the amino-terminal side of the reactive bond, or the corresponding synthetic peptide, is inserted as a middle strand in the main beta-sheet of the inhibitor, the A sheet. The new epitopes in the three modified antithrombin forms therefore most likely are exposed as a result of this insertion. Identical or highly similar epitopes were exposed also in complexes between antithrombin and thrombin or factor Xa, strongly suggesting that a substantial segment of the reactive-bond loop is inserted into the A sheet also in these complexes. In contrast, the new epitopes were not exposed in antithrombin on binding of heparin, implying that the conformational change induced by heparin does not involve such loop insertion. These results provide the first experimental verification of recent hypotheses that insertion of the reactive-bond loop of serpins into the A beta-sheet is involved in the binding of target proteinases.
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PMID:Immunologic evidence for insertion of the reactive-bond loop of antithrombin into the A beta-sheet of the inhibitor during trapping of target proteinases. 768 44

A comprehensive three-dimensional picture of the coagulation process is beginning to emerge. Crystallographic structure determinations of prothrombin, factor Xa, factor IXa, tissue factor and factor XIII represent important advances in our understanding of the coagulation cascade. Similarly, structures of antithrombin, tissue factor pathway inhibitor and thrombomodulin provide details of endogenous anticoagulatory mechanisms. NMR spectroscopy of multiple domains of coagulation proteins represents an important contribution to the analysis of flexibility and rigidity of modular proteins. Thrombin, as the prime candidate for antithrombotic drug design, continues to be an object of intense efforts in applied crystallography.
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PMID:Coagulation factors and their inhibitors. 771 86

The role of the sequence-specific pentasaccharide region of high affinity heparin (HAH) in heparin acceleration of antithrombin-proteinase reactions was elucidated by determining the accelerating mechanism of low affinity heparin (LAH) lacking this sequence. LAH was shown to be free of HAH (< 0.001%) from the lack of exchange of added fluorescein-labeled HAH into LAH after separating the polysaccharides by antithrombin-agarose chromatography. Fluorescence titrations showed that LAH bound to antithrombin with a 1000-fold weaker affinity (KD 19 +/- 6 microM) and 5-6-fold smaller fluorescence enhancement (8 +/- 3%) than HAH. LAH accelerated the antithrombin-thrombin reaction with a bell-shaped dependence on heparin concentration resembling that of HAH, but with the bell-shaped curve shifted to approximately 100-fold higher polysaccharide concentrations and with a approximately 100-fold reduced maximal accelerating effect. Rapid kinetic studies indicated these differences arose from a reverse order of assembly of an intermediate heparin-thrombin-antithrombin ternary complex and diminished ability of LAH to bridge antithrombin and thrombin in this complex, as compared to HAH. By contrast, LAH and HAH both accelerated the antithrombin-factor Xa reaction with a simple saturable dependence on heparin or inhibitor concentrations which paralleled the formation of an antithrombin-heparin binary complex. The maximal accelerations of the two heparins in this case correlated with the inhibitor fluorescence enhancements induced by the polysaccharides, consistent with the accelerations arising from conformational activation of antithrombin. 1H NMR difference spectroscopy of antithrombin complexes with LAH and HAH and competitive binding studies were consistent with LAH accelerating activity being mediated by binding to the same site on the inhibitor as HAH. These results demonstrate that LAH accelerates antithrombin-proteinase reactions by bridging and conformational activation mechanisms similar to those of HAH, with the reduced magnitude of LAH accelerations resulting both from a decreased antithrombin affinity and the inability to induce a full activating conformational change in the inhibitor.
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PMID:Mechanism of acceleration of antithrombin-proteinase reactions by low affinity heparin. Role of the antithrombin binding pentasaccharide in heparin rate enhancement. 772 17

The venous antithrombotic profile of naroparcil or (4-[4-cyanobenzoyl]-phenyl)-1.5-dithio-beta-D-xylopyranoside was investigated in the rabbit following single i.v. and oral administration. Naroparcil attenuated thrombus development in a Wessler stasis model of venous thrombosis (jugular vein) employing bovine factor Xa as a thrombogenic stimulus giving ED50 values of 21.9 mg/kg and 36.0 mg/kg after respectively i.v. and oral administration. Venous antithrombotic activity was maximal 2-3 h after i.v. administration and 4-8 h after oral administration. Four hours after the oral administration of maximal antithrombotic (Wessler model, factor Xa) doses (100 and 400 mg/kg), naroparcil had no significant effect on bleeding time. In platelet poor plasma obtained from animals treated 4 h previously with various doses (25 to 400 mg/kg) of naroparcil, there was no detectable anti-factor Xa nor antithrombin activity. Similarly, naroparcil had no effect on APTT nor on thrombin time. A sensitized thrombin time (to about 35 s) was modestly but significantly increased following oral administration of the compound at 400 mg/kg. However, thrombin generation by the intrinsic pathway was reduced in a dose-related manner, maximal reduction being 65% at 400 mg/kg. The same dose of naroparcil enhanced the formation of thrombin/heparin cofactor II complexes at the expense of thrombin/antithrombin III complexes in plasma incubated with (125I)-human alpha-thrombin and induced the appearance of dermatan sulfate-like material in the plasma of treated rabbits, as measured by a heparin cofactor II-mediated thrombin inhibition assay.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The venous antithrombotic profile of naroparcil in the rabbit. 774 Apr 57

Although coronary angioplasty has been in clinical use for only 15 years, continued refinements in technique, instrumentation, and adjunctive therapy have led to high initial success rates despite broader patient selection and the increasing complexity of lesions attempted. Antiplatelet therapy in the form of 80 to 325 mg of aspirin begun before the procedure has been demonstrated to be of benefit in decreasing the acute complication rate associated with PTCA. In the future, this beneficial effect may be augmented by the addition of monoclonal antibody inhibitors to platelet membrane glycoprotein IIB/IIIa, possibly at the expense of a mild-to-moderate increase in bleeding complications. Although routine prolonged antithrombotic therapy has not been useful after uncomplicated angioplasty, there is evidence that antithrombotic therapy with heparin for 1 or more days before angioplasty will benefit patients with unstable angina or evidence of thrombus on angiography. Although patients with thrombus or coronary dissection after the procedure probably also benefit from extended heparin therapy, most trials have specifically excluded these patients from study. More potent and specific antithrombin and antiplatelet agents are currently being investigated in human trials and may further lower acute complication rates. Although platelets, thrombin, and mural thrombosis have all been implicated as factors in restenosis, the process itself remains incompletely understood, and no therapy has been shown to be of benefit in humans. The specific platelet IIb/IIIa inhibitors, hirudin, hirulog, and factor Xa inhibitors have all shown promise in animal models of restenosis, and ongoing or planned trials will define their efficacy in humans.
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PMID:Antiplatelet and anticoagulant therapy in patients undergoing percutaneous transluminal coronary angioplasty. 780 84

This study compares some in vivo pharmacological properties of CY 216 and of its ACLM and BCLM components having a molecular weight above and below 5.4 kDa respectively. The anti-factor Xa/antithrombin ratio of these compounds determined in a rabbit plasma system were 2.5 and 1.2 for CY 216 and ACLM respectively while BCLM was devoid of anti-thrombin effect. After bolus intravenous injection, continous infusion and subcutaneous administration, the clearances of anti-factor Xa activity generated by ACLM were, on the average, 2 and 1.5 times higher than those generated by BCLM and CY 216 respectively. The clearances of the anti-thrombin activity were comparable for CY216 and ACLM, and higher than those of the antifactor Xa activity. The duration of the antithrombotic effect was investigated in the Wessler model after a single subcutaneous injection of 1000 anti-factor Xa units of one of the compounds. Using thromboplastin as thrombogenic stimulus, the most efficient agent was ACLM and the antithrombotic activity was essentially correlated to the circulating anti-thrombin activity. Using human serum as thrombogenic stimulus, ACLM and BCLM were more efficient than CY 216 and the antithrombotic activity was mainly correlated to the anti-factor Xa activity. The ability of the 3 compounds to inhibit venous thrombosis growth was compared: they were found equipotent and the antithrombotic effect was independent of the anti-thrombin activity. The prohaemorrhagic properties were compared in the rabbit ear model. The activity of the 3 compounds were comparable and significantly less prohaemorrhagic than unfractionated heparin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Pharmacological properties of CY 216 and of its ACLM and BCLM components in the rabbit. 783 64

Recombinant hirudin (r-hirudin) is a new anticoagulant with specific antithrombin activity independently of antithrombin III. Low molecular weight heparins (LMWH) exert predominantly anti-Xa activity. Therefore, we hypothesized that combined administration of r-hirudin and LMWH would induce a stronger antithrombotic effect as compared to r-hirudin administered alone or combined with unfractionated heparin. To assess the effect on thrombus growth, we determined the accretion of 125I-labeled fibrinogen onto autologous non-radioactive thrombi preformed in the jugular veins of rabbits. The rabbits received unfractionated heparin (80 anti-factor Xa U), LMWH (80 anti-factor Xa U) or r-hirudin (0.3, 5.0 and 10.0 mg/kg) either separately or by combined infusion for a 3 h period. R-Hirudin reduced the thrombus growth in a dose dependent fashion. The combined administration of 80 anti-Xa U LMWH and r-hirudin at a dose of 0.3 mg/kg resulted in a stronger antithrombotic effect as compared to the combined infusion of unfractionated heparin and r-Hirudin (thrombus growth: 14.3% +/- 6.0 vs 28.9% +/- 6.5; p = 0.001). This difference in additive antithrombotic effect of 80 anti-Xa U LMWH versus unfractionated heparin on r-hirudin was also observed when LMWH was combined with 5.0 mg/kg and 10.0 mg/kg r-hirudin versus unfractionated heparin combined with r-hirudin (thrombus growth: 16.4% +/- 1.6 vs 29.1% +/- 3.9; p = 0.01 and 10.1% +/- 1.8 vs 20.4% +/- 4.5; p = 0.001, respectively). In conclusion, this study showed an additive antithrombotic effect of LMWH on the thrombus growth reducing effect of r-hirudin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Additive effect of the combined administration of low molecular weight heparin and recombinant hirudin on thrombus growth in a rabbit jugular vein thrombosis model. 785 87

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