UNIPROT:P00750 - FACTA Search

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Query: UNIPROT:P00750 (PLA)
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DX-9065a is an orally active newly synthesized and specific inhibitor for factor Xa. We have examined the property of DX-9065a in vitro and ex vivo. DX-9065a prolonged human plasma recalcification time, APTT and PT. Its doubling concentrations for clotting times of each coagulation assay were 0.49, 0.97 and 0.52 microM, respectively. Kinetic study revealed that DX-9065a inhibited competitively human factor Xa (Ki value: 41 nM). Ki values (microM) for other human serine proteases were as follows; thrombin > 2000, trypsin 0.62, chymotrypsin > 2000, plasmin 23, t-PA 21, plasma kallikrein 2.3 and tissue kallikrein 1000. DX-9065a up to 100 microM had no effects on human platelet aggregation. After intravenous or oral administration, DX-9065a significantly prolonged APTT and PT with a dose dependent manner. These effects were well correlated with anti-Xa activity in plasma. These results suggest that DX-9065a may become an anticoagulant by means of the specific inhibition of factor Xa.
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PMID:DX-9065a, a new synthetic, potent anticoagulant and selective inhibitor for factor Xa. 802 95

Ecotin, a serine protease inhibitor found in the periplasm of Escherichia coli, has been characterized as an extremely potent anticoagulant and reversible tight-binding inhibitor of human factor Xa (FXa). The ecotin gene was cloned by PCR, highly expressed in E. coli, and purified from the E. coli periplasm. The binding of ecotin to FXa was stoichiometric with an equilibrium dissociation constant Ki of 54 pM. The association rate constant was 1.35 x 10(6) M-1 s-1, and the dissociation rate constant, measured in the presence of human leukocyte elastase (HLE) to prevent reassociation of ecotin with FXa, was 6.5 x 10(-5) s-1. Ecotin prolonged clotting time ca. 10-fold at 0.3 microM and at 2 microM in activated partial thromboplastin time and prothrombin time assays, respectively. Ecotin did not effectively inhibit the human plasma proteases thrombin, tissue factor.factor VIIa, factor XIa, activated protein C, plasmin, or tissue plasminogen activator (t-PA); however, it did potently inhibit factor XIIa, plasma kallikrein, HLE, and bovine trypsin and chymotrypsin. Coincubation of ecotin and FXa at 10 microM each resulted in a (ecotin)2.(FXa)2 complex as determined by gel filtration. Dimerization of ecotin alone was measured by fluorescence titration which yielded a Kd of ca. 390 nM. FXa cleaved ecotin slowly at pH 4.0 between M84 and M85. Replacement of the P1 Met84 residue with Arg and Lys led to FXa inhibitors with Ki values of 11 and 21 pM, respectively. The P1 Arg and Lys mutants also significantly inhibited thrombin, factor XIa, activated protein C, plasmin, factor XIIa, kallikrein, and bovine trypsin and chymotrypsin but did not inhibit tissue factor.factor VIIa, t-PA, or HLE.
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PMID:Ecotin is a potent anticoagulant and reversible tight-binding inhibitor of factor Xa. 814 99

Deinagkistrodon acutus venom contains a collection of anticoagulant proteins that has been reported to prevent prothrombinase assembly (Teng and Seegers, 1981, Thromb. Res. 23, 255). A partial sequence indicates that these proteins are related to the functionally equivalent protein in Trimeresurus flavoviridis (Atoda et al., 1991, J. Biochem. 106, 808). Inhibition of prothrombinase, the complex of Factors Xa and Va combined with phospholipids, is expressed in bovine, human, and rat plasmas as indicated by an assay dependent on only prothrombinase activity. The concentration dependence of inhibition of prothrombin conversion by different combinations of the components of bovine prothrombinase under the same conditions yielded estimates of apparent dissociation constants of 104 nM and 2 nM for complexes of the inhibitor with Factor Xa and with Factors Xa and Va, respectively. Because this inhibitor does not prevent Factor Xa alone from converting prothrombin, but blocks the other combinations, we conclude the inhibitor prevents the complex of Factors Xa and Va from binding to phospholipid surfaces and to prothrombin. The inhibitor also blocks the activation of Factor X by Factor VIIa and thromboplastin as well. However, the inhibitor has no effect on thrombin-induced clotting or fibrinolysis induced by either plasminogen activator or streptokinase. Therefore, this inhibitor has several properties required of an anticoagulant, therapeutic agent.
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PMID:Coagulation factor X inhibitor from hundred-pace snake (Deinagkistrodon acutus) venom. 831 Apr 45

Cyclotheonamide A (CA), a cyclic peptide isolated from the marine sponge of the genus Theonella was shown to be a slow-binding inhibitor of several trypsin-like serine proteinases. Values of 4.6 x 10(4), 4.8 x 10(4), 9.3 x 10(3), 2.1 x 10(3) and 2.7 x 10(2) M-1 s-1 were determined for the second-order rate constants for formation of CA complexes with thrombin, trypsin, plasmin, 2-chain t-PA and factor Xa, respectively. The equilibrium constant (Ki) was measured for dissociation of CA from the CA complex with human thrombin (Ki = 1.0 nM), bovine trypsin (Ki = 0.2 nM), human plasmin (Ki = 12 nM), human factor Xa (Ki = 50 nM) and human 2-chain tissue plasminogen activator (t-PA) (Ki = 40 nM). CA produces dose dependent increases in clotting time assays. The clotting time in the thrombin time, activated partial thromboplastin time and prothrombin time assays, were doubled by 1.5, 0.9 and 48 microM CA, respectively. A model for the binding of CA to the active site of thrombin is proposed.
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PMID:Inhibition of thrombin and other trypsin-like serine proteinases by cyclotheonamide A. 832 86

A recent report described a thrombin inhibitory activity in the soluble fraction of human placenta and the cytosolic fraction of K562 cells. Isolation and characterization of the functionally inactive 35-38-kDa placental form of this protein revealed that it was a novel serine proteinase inhibitor (Coughlin, P. B., Tetaz, T., and Salem, H. H. (1993) J. Biol. Chem. 268, 9541-9547). In the present study, we observed a 67-kDa sodium dodecyl sulfate (SDS)-stable complex when 125I-thrombin was incubated with the cytosolic fraction of a monkey kidney epithelial cell line, BSC-1. This complex was not observed in either the particulate cell fraction extracted with 0.2% Triton X-100 or medium conditioned by cells, suggesting that the thrombin-complexing factor is confined to the cytoplasm. The cytoplasmic antithrombin activity was purified to apparent homogeneity from the cytosol of BSC-1 cells previously pulsed with [35S]methionine by a combination of heparin-agarose chromatography, Mono Q fast protein liquid chromatography, and anhydrotrypsin-Affi-Gel 10 affinity chromatography. Analysis of the affinity-purified preparation by SDS-polyacrylamide gel electrophoresis and fluorography revealed a single protein with an apparent molecular mass of 38 kDa. The purified 38-kDa protein inhibited the amidolytic activities of thrombin, trypsin, urokinase, and factor Xa but not that of elastase. Incubation of the 38-kDa protein with excess thrombin identified approximately 60% of the labeled 38-kDa protein in an SDS-stable 67-kDa complex. The purified 38-kDa inhibitor was cleaved with cyanogen bromide and the isolated peptides subjected to microsequencing. Amino acid sequence obtained for a region within this protein exhibited significant homology with human antithrombin III and plasminogen activator inhibitors 1 and 2. This homologous peptide contained the full complement of residues designated as highly conserved in helix F of the greater serine proteinase inhibitor superfamily. In addition, an internal sequence of GGGGDIHQGF was found in the monkey cytoplasmic inhibitor, which is identical to that reported for an internal sequence of the human placental inhibitor. These findings confirm the existence of a novel cytoplasmic serine proteinase inhibitor in mammalian cells and provide additional details of its molecular properties. The physiological function of this novel serine proteinase inhibitor in cytoplasm is unknown.
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PMID:Isolation and characterization of an intracellular serine proteinase inhibitor from a monkey kidney epithelial cell line. 840 7

The myxoma and malignant rabbit fibroma poxviruses are lethal tumorigenic viruses of rabbits whose virulence is modulated by the production of a virus-encoded secreted serine proteinase inhibitor, SERP-1. This viral protein was detected in medium harvested from myxoma and malignant rabbit fibroma virus-infected cells, and its inhibitory profile has been characterized by gel and kinetic analysis. SERP-1 forms complexes with and inhibits the human fibrinolytic enzymes plasmin, urokinase, and two-chain tissue-type plasminogen activator (association rate constants 3.4 x 10(4), 4.3 x 10(4), and 3.6 x 10(4) M-1 s-1 respectively). It is also able to inhibit C1S, the first enzyme in the complement cascade with an association rate constant which was unaffected by the addition of heparin (1.3 x 10(3) M-1 s-1). SERP-1 acts as a substrate for and is cleaved by thrombin, porcine trypsin, human neutrophil elastase, porcine pancreatic elastase, thermolysin, subtilisin, bovine alpha-chymotrypsin, and factor Xa. Incubation with kallikrein and cathepsin G had no effect. The structure of SERP-1 has been modeled on other members of the serpin family which revealed the characteristic serpin architecture apart from the absence of the D-helix. Structural analysis and kinetic assays demonstrate that the absence of this region does not prevent inhibitory activity and furthermore allow the identification of cysteine residues involved in internal and intermolecular disulfide bonding.
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PMID:Inhibition of plasmin, urokinase, tissue plasminogen activator, and C1S by a myxoma virus serine proteinase inhibitor. 841 56

Factor Va is the essential cofactor in prothrombinase-dependent activation of prothrombin. Resistance of Factor VaLeiden to inactivation by activated protein C (APC) contributes to thrombotic tendencies in subjects with the variant due, in part, to the inability to terminate thrombin production which increases both fibrin accretion and the frequency of thrombus formation. A reduced ability to inhibit thrombin generation, however, may lead to the stabilization of a clot through the activation of thrombin activatable fibrinolysis inhibitor (TAFI). This hypothesis was tested by determining the profibrinolytic effect of APC on lysis time using clots formed with plasma from either homozygous normal (n = 4) or homozygous factor VLeiden (n = 4) subjects. Clots were formed in the presence of tissue-type plasminogen activator, thrombin, phosphatidylcholine/phosphatidylserine vesicles, Ca2+, and various concentrations of APC. Approximately 10-fold more APC was required to reduce lysis time from 140 to 50 min in clots containing factor VLeiden compared to normal factor V. This effect was specific to the form of factor V present in plasma since identical results were obtained in an appropriately reconstituted purified system, which included both TAFI and either form of factor V purified from pooled plasma. In the absence of TAFI, APC did not affect clot lysis in experiments with either normal factor V or factor VLeiden. During the various lysis assays performed with purified components, clots were solubilized and the proteolytic alterations in factor V/Va were assessed by Western blotting using a specific factor Va heavy chain monoclonal antibody. The heavy chain of factor VaLeiden persisted for as long as 60 min, in the presence of 6.3 n APC indicating sustained activity of factor VaLeiden during the lysis assay. In contrast, no factor Va heavy chain was present after the first 5.0 min in clots formed in the presence of normal factor V and 6.3 n APC. These combined data indicate that factor VaLeiden specifically attenuates the profibrinolytic effect of APC. Thus, an impaired TAFI-dependent profibrinolytic response to APC in APC-resistant individuals appears to be an additional factor contributing to the prothrombotic tendencies in subjects with factor VLeiden.
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PMID:An antifibrinolytic mechanism describing the prothrombotic effect associated with factor VLeiden. 879 78

Barley serpin BSZx is a potent inhibitor of trypsin and chymotrypsin at overlapping reactive sites (Dahl, S.W., Rasmussen, S.K. and Hejgaard, J. (1996) J. Biol. Chem., in press). We have now investigated the interactions of BSZx with a range of serine proteinases from human plasma, pancreas and leukocytes, a fungal trypsin and three subtilisins. Thrombin, plasma kallikrein, factor VIIa/tissue factor and factor Xa were inhibited by BSZx at heparin independent association rates (k(ass)) of 4.5 X 10(3)-1.3 x 10(5) M(-1) s(-1) at 22 degrees C. Only factor Xa turned a significant fraction of BSZx over as substrate. Complexes of these proteinase with BSZx resisted boiling in SDS, and amino acid sequencing showed that cleavage in the reactive center loop only occurred after P1 Arg. Activated protein C and leukocyte elastase were slowly inhibited by BSZx (k(ass)=1-2 x 10(2) M(-1) s(-1)) whereas factor XIIa, urokinase and tissue type plasminogen activator, plasmin and pancreas kallikrein and elastase were not or only weakly affected. The inhibition pattern with mammalian proteinases reveal a specificity of BSZx similar to that of antithrombin III. Trypsin from Fusarium was not inhibited while interaction with subtilisin Carlsberg and Novo was rapid but most BSZx was cleaved as a substrate. Identification of a monoclonal antibody specific for native BSZx indicate that complex formation and loop cleavage result in similar conformational changes.
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PMID:Inhibition of coagulation factors by recombinant barley serpin BSZx. 884 56

The success of current thrombolytic strategies is undermined by ongoing thrombin activity, but it is uncertain whether prevention of thrombin generation or direct thrombin antagonism is effective in achieving more optimal thrombolysis. To address this question, 24 dogs with electrically induced coronary thrombus undergoing thrombolysis with tissue-type plasminogen activator (1 mg/kg) over 20 min, were given one of the following adjunctive regimens in a random fashion. Twelve dogs received saline, and served as the control group; a direct thrombin antagonist, hirudin, was given at a dose of 20 micrograms/kg/min for 90 min to six dogs, and a selective factor Xa inhibitor, tick anticoagulant peptide (TAP), was administered to six dogs at a dose of 30 micrograms/kg/min for 90 min. The time to reperfusion was similar in the saline and hirudin groups (34 +/- 4 vs 37 +/- 7 min; P = NS) but shorter in the TAP group (21 +/- 4 min; P < 0.05). Coronary blood flow was restored to 100% of its baseline value for 7 +/- 2 min in control dogs, and for 20 +/- 6 min in the hirudin group (P < 0.05). In the TAP group, coronary blood flow was restored to 100% of its baseline value for more than 120 min in all dogs (P < 0.01 vs others treatments). Reocclusion occurred in 89% and 50% of dogs receiving saline and hirudin, respectively (P = NS), but in none of the TAP-treated dogs (P < 0.01). Plasma fibrinopeptide A (FpA) and thrombin-antithrombin III complex (TAT) levels were determined in all dogs as indicators of thrombin activation. In the saline group, FpA and TAT during reperfusion were 19 +/- 2 ng/ml and 104 +/- 24 ng/ml respectively (P < 0.02 vs baseline) indicating high thrombin activity. In contrast, during reperfusion in hirudin-treated dogs FpA and TAT remained similar to baseline (10 +/- 3 ng/ml and 53 +/- 4 ng/ml respectively; both P < 0.05 vs saline). Reperfusion in TAP-treated dogs did not alter FpA and TAT in plasma, which remained similar to baseline (9 +/- 1 ng/ml and 39 +/- 5 ng/ml respectively; both P < 0.05 vs saline). Scanning electron microscopy of coronary arteries showed residual thrombi with intense platelet and fibrin deposition adherent to the deendothelialized surface of the vessels following saline and hirudin therapy. In contrast, TAP-treated arteries were characterized by the absence of fibrin and minimal platelet deposition. In conclusion, these hemodynamic, biochemical and morphologic data suggest that adjunctive treatment with a higher tier blockade of the coagulation cascade is superior to direct thrombin inhibition in maintaining coronary artery patency following thrombolysis in the experimental canine electrolytic model. These findings highlight the potential adverse effects of unchecked thrombin generation in the setting of thrombolytic therapy.
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PMID:Selective inhibition of factor Xa during thrombolytic therapy markedly improves coronary artery patency in a canine model of coronary thrombosis. 884 61

A series of 54 fluorogenic substrates have been synthesized and evaluated for tissue-type plasminogen activator (tPA) hydrolysis in an attempt to create efficient sensitive substrates for tPA and to investigate substrate structure-efficiency correlations. All substrates contain the 6-amino-1-naphthalenesulfonamide (ANSN) leaving group, Arg in the P1 position, various amino acids in the P2 and P3 positions, and various substituents in the sulfonamide moiety of the leaving group (P' position). The majority of substrates have relatively low K(M) values (< 100 microM), reaching as low as 2.6 microM, and reasonably high k(cat) values (up to 3.6 s(-1)). These substrates have higher affinity, higher hydrolysis rates, and higher efficiency for two-chain tPA than for the single-chain form of this enzyme. Analysis of the P3 structure influence on substrate efficiency demonstrates that compounds which contain D-isomers of N-blocked bulky amino acids, such as Phe, Leu, and Val, in this position are more efficient for tPA than substrates with N-unblocked small amino acids (Ser or Pro) in the P3 position. The second-order rate constants and k(cat) values for substrate hydrolysis increase with decreases in the P2 amino acid hydrophobicity in the following manner: Leu < Val and Gly < Ser < Pro. Substrates which contain an ANSN leaving group had a higher affinity for tPA than substrates with p-nitroaniline or 7-amino-4-methylcoumarin leaving groups. Analyses of substrate hydrolysis dependence on the substrate P' structure show that the k(cat) and the second-order rate constants increased with an increase in the size of monoalkyl substituent in the sulfonamide moiety, whereas substrates which contain either glycine methyl ester or a dialkyl group displayed the lowest efficiency for tPA. The substrate Boc-(p-F)Phe-Pro-Arg-ANSNHC2H5 allowed quantitation of tPA at a concentration as low as 1 pM, a concentration significantly lower than the plasma concentration of this protein. Evaluation of the activation of single-chain tPA by factor Xa demonstrates that prothrombinase is approximately 3-fold more efficient in activating sc-tPA than factor Xa alone, increasing the initial rate of activation from 0.0055 nM/s per 1 nM of factor Xa to 0.017 nM/s per 1 nM.
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PMID:Analysis of tissue plasminogen activator specificity using peptidyl fluorogenic substrates. 904 11

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