EC:3.4.21.5 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Exposure of purified Hageman factor (HF, Factor XII) to phenylglyoxal hydrate (PHG), an agent reacting with arginine residues in protein, inhibited its coagulant properties upon subsequent exposure of negatively charged agents. Once HF had been exposed to kaolin or ellagic acid, however, subsequent addition of PHG was much less inhibitory. PHG had no effect upon the ability of HF to bind to negatively charged surfaces. PGH also inhibited preparations of activated PTA (Factor XI) and thrombin, and, when incubated with plasma, reduced the titer of coagulable fibrinogen, PTA Christmas factor (Factor IX), antihemophilic factor (Factor VIII), Factor VII, Stuart factor (Factor X), proaccelerin (Factor V) and prothrombin (Factor II), and to a lesser degres, HF.
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PMID:Inhibition of Hageman factor, plasma thromboplastin antecedent, thrombin and other clotting factors by phenylglyoxal hydrate (38500). 23 67

The thrombogenicity of three highly purified proteases (thrombin, activated Factor X, and activated Factor IX) was determined quantitatively in an animal model. The minimal amounts required to produce a standard score 4 thrombus were 1.1 nmol for thrombin, 0.12 nmol for activated Factor X, and 0.018 nmol for activated Factor IX. After the administration of heparin at 5, 10, and 20 units/kg in rabbits, the thrombogenicity of each of these proteases decreased progressively. The heparin-induced inhibition of thrombosis decreased in the order, activated Factor IX > activated Factor X > thrombin at each heparin concentration. These differences were statistically significant. These in vivo data provide support for the following hypotheses originally developed from in vitro experiments: (i) activation of the blood coagulation system, which proceeds through a cascade mechanism, incorporates biochemical amplification; (ii) the inhibition of activated Factor IX by antithrombin III in the presence of heparin is an important reaction in the prevention of thrombosis; (iii) less heparin is required to inhibit thrombosis prior to thrombin generation than afterward; (iv) an increase in the reactivity of antithrombin III reflects a decreased tendency to thrombosis while a decrease in this reactivity reflects an increased tendency to thrombosis.
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PMID:In vitro and in vivo correlation of clotting protease activity: effect of heparin. 26 50

A study was carried out on mechanisms, independent of activated Factor XI, capable of activating Factor IX. The reaction product of tissue factor and Factor VII functioned as a potent Factor IX activator in the assay system used. Activated Factor IX itself activated Factor X; thrombin failed to activate Factor IX. Sodium dodecyl sulfate/polyacrylamide gel electrophoresis confirmed that the reaction product of tissue factor and Factor VII activated Factor IX, with replacement of the band corresponding to native factor IX [molecular weight (Mr) 55,000] by bands corresponding to the heavy chain (Mr 27,000) and light chain (Mr 17,000) of activated Factor IX. When either Factor VII or calcium ions were left out of incubation mixtures, the band of native Factor IX persisted unchanged. Contact of blood with tissue factor represents a second mechanism, bypassing activated Factor XI, for the activation of Factor IX during hemostasis. It may help to explain the discrepancy between the mild bleeding of hereditary Factor XI deficiency and the severe bleeding of hereditary Factor IX deficiency.
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PMID:Activation of factor IX by the reaction product of tissue factor and factor VII: additional pathway for initiating blood coagulation. 27 51

Thrombogenicity of the factor IX concentrate and its clinical use for stoppage of the bleeding in the case of hemophilia A with inhibitor were reported. (1) Factor IX concentrate contained the coagulation factors as prothrombin complex (factors II, VII, IX and X); Thrombin and factor Xa. (2) Prothrombin in the factor IX concentrate could be converted to thrombin without any additional procoagulant such as thromboplastin or factor V, but in just 2.5M glycine solution by the effect of factor Xa. (3) The infusion of factor IX concentrate into a rabbit induced DIC promptly which was proved by autopsy and coagulation-fibrinolytic studies. (4) Factor IX concentrate showed a great efficacy in stopping the bleeding in the case of hemophilia A with inhibitor.
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PMID:Characteristics and thrombogenicity of factor IX concentrate. 61 88

Factor IX concentrate was obtained using DEAE-Sephadex A-50 as an adsorbent. The yield of factor IX in vitro averaged 81%. Each bottle of the concentrate contained 288-512 u. of factor II, 96--360 u. of factor VII, 440--660 u. of factor IX and 256--680 u. of factor X. The results of studies showed trace amounts of factor Xa in the final product, in the range of 0.01--0.04 u/ml. The concentrate was found to be free of thrombin. In the years 1976--1977 the new concentrate was administered 48 times to 10 patients with severe haemophilia B. The in vivo recovery of factor IX was 27--65%. Clinical results of treatment were satisfactory in all patients. No significant changes were observed in platelet count, fibrinogen level and the concentration of fibrinogen degradation products after infusion of the concentrate. The ethanol gelation test was negative in all cases.
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PMID:[Preparation and clinical use of a new factor IX concentrate]. 66 30

Improved methods are described to obtain bovine prothrombin, Factor IX, Protein C, and autoprothrombin III (Factor X, Auto-III) in purified form. The prothrombin had a specific activity of 4,340 Iowa units/mg. Theoretically, a preparation of clean thrombin should have a specific activity of 8,200 U/mg, because 47.08% of the protein in prothrombin is lost when thrombin forms. Such thrombin preparations have been obtained (Arch. Biochem. Biophys. 121, 372 (1967)). The prothrombin concentration of bovine plasma is near 60 mg/liter. Protein C, first isolated by Stenflo (J. Biol. Chem. 251, 355 (1976)), was found to be the precursor of autoprothrombin II-A (Auto-II-A), discovered earlier (Thromb. Diath. Haemorrh. 5, 218 (1960)). Protein C (Factor XIV) was converted to Auto-II-A (Factor XIVa) by thrombin. Digesting purified Auto-III with purified thrombin removed a small glycopeptide from the COOH-terminal end of the heavy chain to yield Auto-IIIm. Auto-III thrombin leads to Auto-IIIm + peptide. Auto-IIIm was not converted to the active enzyme with thromboplastin, and furthermore, inhibited the activation of purified native Auto-III with thromboplastin. Auto-IIIm was also not converted to the active enzymes when the procoagulants consisted of purified Factor VIII, purified Factor IXa, platelet factor 3 and calcium ions. The "activation peptide" released by RVV-X from the NH2-terminal end of the heavy chain and the active enzyme (Auto-Cm) were purified. Auto-III was also activated with purified RVV-X. The same "actid of Auto-Cm. Purified Factor IX developed anticoagulant activity when reacted with an optimum concentration of purified thrombin. A suitable reagent for the assay of Factor IX was prepared by removing prothrombin complex from anticoagulated bovine plasma and restoring the prothrombin and Auto-III concentration with use of the respective purified proenzymes.
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PMID:Improved procedures for the purification of selected vitamin K-dependent proteins. 78 72

Partially purified human antihemophilic factor (AHF, factor VIII), when treated with high concentrations of salt, has been shown to dissociate into two components: one, of relatively low molecular weight, possesses procoagulant activity, and the other, of higher molecular weight, forms precipitates with heterologous antiserum against AHF and supports ristocetin-induced platelet aggregation. The ease of separation suggests that the two components in the native state might be held together by noncovalent bonds. Earlier observations do not exclude the possibility that the subunits may be covalently bonded in nature but might be severed by plasma proteolytic enzymes during laboratory manipulation. The issue was examined by preparing partially purified AHF from fresh human plasma in the presence of protease inhibitors, including benzamidine, soybean trypsin inhibitor, epsilon-aminocaproic acid, heparin, and hirudin. Under these conditons, gel filtration in the presence of 0.25 M calcium chloride and 0.001 M benzamidine resulted in its separation into two components, having properties identical to those separated in the absence of these protease inhibitors. The inhibitor mixture blocked generation and action of streptokinase- and kaolin-activated plasmin from plasma, and protected both plasma AHF and partially purified AHF from the action of thrombin. Surface-induced activation of PTA (factor XI) was partially inhibited, and that of Christmas factor (factor IX) was completely inhibited. This observation provides further evidence that in the native state the high- and low-molecular-weight components of preparations of antihemophilic factor are held together by noncovalent bonds.
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PMID:Evidence that functional subunits of antihemophilic factor (Factor VIII) are linked by noncovalent bonds. 94 7

Coagulation Factor VII from bovine plasma is a glycoprotein containing a single peptide chain. The NH2-terminal sequence of Ala-Asx-Gly-Phe-Leu- is homologous with the NH2 termini of prothrombin, Factor IX, and the light chain of Factor X. Factor Xa in the presence of calcium ions and phospholipid cleaves Factor VII at an Arg-Ile bond in the sequence Arg-Ile-Val-Gly-Gly-, producing a two-chain molecule with at least 85 times the coagulant activity of single-chain Factor VII and a new NH2-terminal sequence homologous with the corresponding chains of thrombin, Factor IXa and Factor Xa. A second slower cleavage at an Arg-Gly bond destroys Factor VII activity. Bovine Factor VII, unlike prothrombin, Factor IX, and Factor X, is rapidly inhibited by diisopropylphosphorofluoridate (iPr2PF). [3H]iPr2PF is readily incorporated into one-chain, two-chain, and three-chain forms of Factor VII up to ratios of approximately 0.9 moles of [3H]diisopropylphosphate per mole of protein. The radioactive peptides generated from each form of [32P]iPr2PF-inhibited Factor VII by tryptic and thermolytic digestion were found to migrate together on paper electrophoresis. This indicates that the iPr2PF is incorporated stoichiometrically into the same specific site in each form.
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PMID:Mechanism of activation of bovine factor VII. Products of cleavage by factor Xa. 95 65

Human prothrombin has been purified from American Red Cross Factor IX concentrates. Studies of the activation of the human prothrombin with the use of sodium dodecyl sulfate electrophoretic analysis of activation products indicated that human prothrombin activation is similar to bovine prothrombin activation. Molecular weight analysis of human prothrombin and intermediated by sodium dodecyl sulfate co-electrophoresis with bovine prothrombin and its intermediates resulted in molecular weights of 70,000 for prothrombin, 51,000 for intermediate 1, 41,000 for intermediate 2, 23,000 for intermediate 3, and 13,000 for intermediate 4. Amino acid compositions of human prothrombin and intermediates are similar to those for bovine prothrombin and intermediates. NH2-terminal sequence studies of human prothrombin, intermediates, and alpha-thrombin A and B chains placed the intermediates in the parent human prothrombin molecule as described for the bovine system. Intermediate 3 is the NH2-terminal of prothrombin, and intermediate 1 is the COOH-terminal segment of the zymogen. Intermediate 4 is the NH2-terminal of intermediate 1. Intermediate 2', the immediate precursor of alpha-thrombin, is the COOH-terminal segment of intermediate 1. In general, a high degree of homology in the primary structure of prothrombin and intermediates was observed between the human and bovine system. The NH2-terminal sequences of human intermediate 2' and alpha-thrombin A chain are identical. However, human intermediate 2' isolated in a manner identical with that used for the isolation of bovine intermediate 2 is homologous with bovine intermediate 2, beginning with residue 14.
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PMID:Human prothrombin activation. 123 94

Procoagulant, anticoagulant, and fibrinolytic activities are associated with endothelial cells and involve the production, secretion, and receptor mediated binding of proteins involved in these processes. The procoagulant aspect of endothelial cells function involves the production and release of von Willebrand Factor(vWF), the production of tissue factor, and the presence of Factor IX/IXa receptors on the cell surface. Secretion of vWf will promote the initial steps in thrombus formation by supporting platelet-platelet interaction and platelet-subendothelial matrix adhesion. Tissue factor which is undetectable in resting cells appears after exposure to various cytokines and initiates factor VIIa activation of factors IX and X. Receptors of Factor IX/IXa are also present and mediate the assembly of the prothrombinase complex on the endothelial cell surface. The anticoagulant pathway involves the cell surface protein thrombomodulin, protein C and its cofactor protein S. Thrombomodulin binds thrombin which activates protein C which in the presence of protein S cleaves and inactivates Factors V and VIII. Inactivation of these two coagulation cofactors halts the coagulation. Finally, endothelial cells also play a pivotal role in the fibrinolytic system. Production and regulated secretion of tissue plasminogen activator creates a profibrinolytic state in the endothelial cell environment. In addition, receptors for plasminogen and urokinase are also present, constituting a cell surface mediated fibrinolytic pathway. Plasminogen activator inhibitor type I, the primary inhibitor of tPA, is also produced by endothelial cells. Thus endothelial cells can promote and inhibit fibrinolysis, depending on the prevailing environmental conditions.
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PMID:[Endothelial cells and vascular hemostasis]. 131 12

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