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)

The activation of the prothrombin intermediate, Prethrombin 2, has been studied in order to establish test systems that would enable identification of Prethrombin 2 in serum and Factor IX concentrates. While activation of Prethrombin 2 by Taipan Snake Venom (TSV) was slow and incomplete, inclusion of approximately molar amounts of prothrombin fragments F1 or F1.2 markedly enhanced the amount of thrombin formed by TSV. This effect could also be obtained by the inclusion of serum. Neither normal serum nor Factor V deficient serum contain any identifiable Prethrombin 2. On the other hand substantial amounts of Prethrombin 2 are present in Factor IX concentrates used for the treatment of Christmas Disease (Hemophilia B).
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PMID:The use of prothrombin activating snake venoms to measure human prethrombin 2: absence of prethrombin 2 in serum. 637 73

Enzyme immunoassays are very useful for the detection of low concentrations of coagulation proteins and pathological markers in plasma. Analytes in the ng/mL range are measurable with good reproducibility with intra- and interassay CVs of less than 5% to 10%. "Sandwich" methods have been developed for von Willebrand factor (plasma concentration about 8 micrograms/mL, Factor IX (5 micrograms/mL), protein C (4 micrograms/mL), and Factor X (10 micrograms/mL). However, this technique is only suitable for macromolecules; for low-molecular-mass peptides such as fibrinopeptide A a competitive method is used. Normal concentrations of fibrinopeptide A are below 3 ng/mL, with greater values suggesting in vivo generation of thrombin; thus this test is quite useful in detecting thrombosis. Reagents for both the sandwich and competitive methods are commercially available and cost effective, and have a longer shelf-life than those for radioimmunoassays.
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PMID:Application of enzyme immunoassays to coagulation testing. 638 Aug 14

Activated porcine Factor IX is irreversibly inhibited by an active site histidine-directed serine protease inhibitor, dansyl-glutamyl-glycyl-arginyl-chloromethylketone (DEGR-CK). The kinetics of inhibition are second order up to inhibitor concentrations of 10(-5) M. The apparent second-order rate constant (in 0.20 M NaCl, pH 8.0) is 1.7 X 10(4) M-1 min-1, which is considerably lower than values reported for Factor Xa, thrombin, plasmin, and kallikrein. Reaction of increasing concentrations of DEGR-CK with Factor IXa, followed by analysis of residual enzymatic activity, yields 1.2 mol DEGR-CK/mol protein, indicating 1:1 stoichiometry for the DEGR-CK/Factor IXa interaction. DEGR-Factor IXa is a potent anticoagulant in vitro. A concentration of 1 nM causes 50% inhibition of the ability of normal porcine-citrated plasma to correct either Factor VIII- or Factor IX-deficient plasmas (intrinsic pathway factors). In contrast, more than 100 nM DEGR-Factor IXa is required to cause 50% inhibition of Factor VII (extrinsic pathway) or Factor X (common pathway) assays. Activation of porcine Factor VIII:C by thrombin in the presence of DEGR-Factor IXa and phosphatidylcholine-phosphatidylserine vesicles reveals that DEGR-Factor IXa markedly stabilizes the spontaneous loss of Factor VIII:Ca activity as does unmodified Factor IXa [P. Lollar, G.J. Knutson, and D. N. Fass (1984) Blood 63, 1303-1308]. These results suggest that DEGR-Factor IXa incorporates into the intrinsic pathway Factor X-activator enzymatic complex, and also that stabilization of Factor VIII:Ca by this complex is independent of the active site of Factor IXa. Inhibition of Factor IXa by DEGR-CK results in the first reported irreversible active-site-modified derivative of this enzyme. DEGR-CK promises to be a useful reagent in the study of the Factor X activator complex. Conceivably, its specific anticoagulant properties could have future clinical benefit.
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PMID:Inhibition of activated porcine factor IX by dansyl-glutamyl-glycyl-arginyl-chloromethylketone. 643 27

Previous studies have demonstrated the binding of Factors IX and IXa to cultured bovine aortic endothelial cells. The present study examines the interaction of Factors IX, IXa, and Xa with the luminal surface of calf aortas, shown by microscopic examination to have a continuous layer of endothelium. Radioimmunoassay of Factor IX showed that 74 fmol/10(6) cells of Factor IX could be eluted from freshly prepared aortic segments. Binding of 3H-Factors IX and IXa to aortic segments was saturable, and comparable to binding in previous studies using cultured endothelial cells. Preincubation of aortic segments with 3H-Factor IXa and von Willebrand factor (VWF)/Factor VIII, followed by washing and addition of Factor X, resulted in formation of Factor Xa. The addition of prothrombin to these activation mixtures resulted in formation of thrombin. Exogenous phospholipid and Factor V were not required for Factor X and prothrombin activation on the intact native endothelium. Incubation of 125I-Factor Xa with the vessel segments resulted in most of the tracer being complexed with antithrombin III originally present on the aortic segment (3.8 pmol antithrombin III/10(6) cells). The Factor Xa-antithrombin III complex was observed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis exclusively in the supernatants. 125I-Factor Xa not complexed with antithrombin III bound specifically to the vessel segment. The time course of binding was biphasic, consisting of an initial more rapid reversible phase followed by a slower irreversible phase. The latter phase correlated with the formation of a covalent complex (Mr, 76,000) between 125I-Factor Xa and a vessel-localized protein presumably distinct from antithrombin III. The activation of prothrombin by vessel-bound Factor Xa was inhibited by anti-bovine Factor V IgG, suggesting that there is interaction of Factor Xa with a Factor V-like molecule provided by the endothelial cell surface. Addition of antibody to antithrombin III prevented formation of Factor Xa-antithrombin III and thrombin-antithrombin III complexes in the supernatant and increased apparent thrombin activity 30-50-fold. These studies demonstrate that freshly obtained vessels with a continuous layer of native endothelium can support activation of Factor X and prothrombin: vessel-bound Factor IXa can activate Factor X in the presence of VWF/Factor VIII. Factor Xa can also bind to the vessel and participate in the activation of prothrombin. The apparent efficiency of prothrombin activation, however, is dampened by the presence of functional antithrombin III on the vessel wall.
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PMID:A coagulation pathway on bovine aortic segments leading to generation of Factor Xa and thrombin. 643 37

Factor IX and its activated form IXa have been found to bind to confluent cultured bovine aortic and human umbilical vein endothelial cells. Binding of bovine factors IX and IXa to the bovine endothelial cells was saturable and specific and reached a plateau in 75 min at 4 degrees C and 30 min at 37 degrees C. Binding was half-maximal at a total factor IX or IXa concentration of 2.3 +/- 0.2 nM. At 4 degrees C, a maximum of 42 fmol of tritiated factor IX or IXa bound to 10(6) cells (an average of 20,000 molecules per cell). The binding of tritiated factor IX or IXa was inhibited by excess unlabeled factor IX or IXa but not by factor X, prothrombin, or thrombin. Competition studies indicated that factors IX and IXa interacted with the same site. Binding was reversible, with 50% of the specifically bound factor IX or IXa eluted in 40 min by a 400-fold excess of unlabeled protein. Specific binding required Ca2+ with half-maximal binding at 1.2 mM CaCl2. Factor IXa bound to the cells was tested for procoagulant activity in a clotting assay with factor IX-deficient plasma, cephalin, and CaCl2. Cell-bound factor IXa was at least 3-fold more active than was factor IXa in solution. The retention of procoagulant activity by cell surface-bound factor IXa provides a mechanism for the localization of clot-promoting activity.
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PMID:Binding of factors IX and IXa to cultured vascular endothelial cells. 660 86

Previous studies have shown that factor IX and its activated form, factor IXa, bind to cultured vascular endothelial cells and that cell-bound factor IXa retains its procoagulant activity. The present studies provide evidence that factor IX bound to cultured bovine aortic endothelial cells can be activated. Factor IX activation was assessed by finding cleavage of the factor IX molecule on NaDodSO4/polyacrylamide gel electrophoresis and by the generation of procoagulant activity as assessed by thrombin-treated factor VIII-dependent generation of factor Xa activity. Cell-bound factor IX (0.8 micrograms per 4 X 10(8) cells per ml) could be activated by factor XIa (5 micrograms/ml) or by factor VIIa (0.1 micrograms/ml) without exogenous tissue factor when endothelial cells were treated with phorbol ester and acquired tissue factor-like procoagulant activity. Regardless of how factor IX was activated, the cell-bound factor IXa required thrombin-treated factor VIII and calcium, but not exogenous phospholipid, to activate factor X. In further experiments, factor X bound to endothelial cells specifically and reversibly with a dependence on calcium and with a lower affinity (half-maximal at 480 nM) than factor IX. At saturation, 9.1 X 10(6) factor X molecules were bound per cell. After activation of factor X by factor IXa, approximately 50% of the factor Xa formed could be eluted from the cells by 10 mM EDTA, suggesting that the factor Xa was cell associated. These observations indicate that endothelial cells can bind and promote the activation of factors IX and X in the absence of platelets or exogenous phospholipid.
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PMID:Activation of factor IX bound to cultured bovine aortic endothelial cells. 660 5

A clotting enzyme associated with the hemolymph coagulation system of Japanese horseshoe crab (Tachypleus tridentatus) was highly purified from the amebocyte lysate. The method for purification consisted of gel-filtration of the lysate on a pyrogen-free Sepharose CL-6B column and affinity chromatography of the endotoxin-treated clotting enzyme on a benzamidine-Sepharose 4B column. Through these procedures, about 3 mg of the purified enzyme was obtained from 70 ml of the lysate and about 390-fold purification was achieved. The purified preparation was found to give a single major band, respectively, on polyacrylamide-gel disc electrophoresis at pH 3.2 in the presence of 6 M urea and on sodium dodecyl sulfate (SDS)-gel electrophoresis in the presence and absence of 2-mercaptoethanol. It also gave a single symmetrical peak on QAE-Sephadex A-25 column chromatography. The molecular weight of the clotting enzyme was estimated to be approximately 42,000 for the unreduced sample by SDS-gel electrophoresis. For the reduced sample, it was 30,000, suggesting that the protein consists of plural polypeptide chains bridged by disulfide(s). The Tachypleus clotting enzyme was a glycoprotein, as shown by the positive periodic acid-Schiff reaction for the protein band on SDS-gel and the amino acid analysis. The purified clotting enzyme transformed Tachypleus coagulogen to coagulin gel and hydrolyzed a chromogenic peptide substrate, Tos-Ile-Glu-Gly-Arg-p-nitroanilide for Factor Xa, liberating p-nitroaniline. The enzyme was sensitive to DFP and benzamidine. It was also inhibited partially by PCMB. Antithrombin III and alpha 2-plasmin inhibitor (alpha 2-antiplasmin) were very effective inhibitors of this enzyme among ten kinds of naturally occurring proteinase inhibitors tested. The clotting enzyme had a restricted specificity towards protein substrates and activated only prothrombin among plasma zymogens including Factor IX, Factor X, fibrinogen, plasminogen and prekallikrein. The cleavage sites of bovine prothrombin for this enzyme were the same Arg-Thr and Arg-Ile linkages as those for Factor Xa, resulting in the formation of alpha-thrombin. These results indicate that the horseshoe crab clotting enzyme is a Factor Xa-like serine proteinase rather than alpha-thrombin. It seems likely that the Tachypleus clotting enzyme is a prototype of mammalian serine proteinases participating in blood coagulation.
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PMID:A clotting enzyme associated with the hemolymph coagulation system of horseshoe crab (Tachypleus tridentatus): its purification and characterization. 714 17

Five purified concentrates--Nanotiv (Kabi Pharmacia), Immunine (Immuno), Factor IX VHP (Biotransfusion), Alphanine (Alpha Therapeutic Corporation), and Mononine (Armour Pharmaceutical Company)--were characterized biochemically and their in vivo pharmacokinetic and thrombogenic properties evaluated. The results were compared with those for two prothrombin complex concentrates (PCCs): Preconativ (Kabi Pharmacia) and Prothromplex TIM4 (Immuno). The measured values for factor IX coagulant activity (FIX:C) generally agreed with the manufacturers' labeled values. The purified concentrates were virtually devoid of other vitamin K-dependent coagulation factors, the inhibitor proteins C and S, and either fibrinogen, fibronectin, or immunoglobulins. Indicators of thrombin generation (i.e., prothrombin fragments F1 + 2 and thrombin-antithrombin complex) were present in varying amounts in all preparations. The level of specific activity in the purified concentrates exceeded that in the PCCs by a factor of 50- to 100-fold. Pharmacokinetic variables were studied in severe hemophilia B patients: Nanotiv was compared with Preconativ; Immunine was compared with Prothromplex TIM4 in crossover studies; and Mononine was tested in a single-drug study. No differences were apparent between Nanotiv, Preconativ, and Mononine, but recovery rates were lower, clearance rates higher, and FIX:C half-life shorter for Immunine and Prothromplex TIM4, although the disparate results might have been attributable to methodologic differences. Purified factor IX concentrates were used successfully as cover for surgery and in immune tolerance induction without observable adverse effects.
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PMID:Properties of factor IX concentrates. 757 97

A prospective cross-over study was carried out on 19 patients with haemophilia B. comparing the pharmacokinetics of a purified factor IX concentrate prepared by metal chelate affinity chromatography (9MC) with a conventional three-factor prothrombin complex concentrate (9A). The highly purified factor IX concentrate was shown to have a half-life comparable to the PCC; the in vivo recovery of the purified concentrate was significantly greater than that of the complex (P < 0.01). The 20% change in the value of the International Standard for Factor IX Concentrate, introduced in 1988, might have been expected to lower the recovery values. However, the in vivo recovery for both concentrates was somewhat higher than reported previously, particularly in the older literature. In nine patients, serial assays for fibrinopeptide A, prothrombin fragment F1+2 and thrombin-antithrombin complexes (TAT) were performed to assess the potential thrombogenicity of the two concentrates. Evidence was obtained that there was significantly less activation of coagulation following administration of purified factor IX (9MC), as compared to the activation that occurred after the PCC.
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PMID:A cross-over pharmacokinetic and thrombogenicity study of a prothrombin complex concentrate and a purified factor IX concentrate. 798 19

The purified factor IX concentrates Nanotiv (Kabi Pharmacia), Immunine (Immuno), Factor IX VHP (Bio-transfusion), Alphanine (Alpha) and Mononine (Armour) have been studied in vitro and compared with the prothrombin complex concentrates (PCCs) Preconativ (Kabi Pharmacia) and Prothromplex TIM4 (Immuno). The measured values for factor IX coagulant activity (IX:C) were in good agreement with the manufacturer's label values. In contrast to the PCCs, most of the purified concentrates were virtually devoid of other vitamin K-dependent coagulation factors, the inhibitors protein C and S as well as fibrinogen, fibronectin and immunoglobulins. Indicators of thrombin generation, namely prothrombin fragments 1 and 2 (F 1 + 2) and thrombin-antithrombin complex (TAT), were present in varying amounts in all preparations. The specific activity in the purified concentrates exceeded that in the PCCs by a factor of 50-100. Some differences in purity were found between the purified concentrates. In vivo, Nanotiv was compared with Preconativ and Immunine with Prothromplex TIM4 in crossover studies in patients with severe hemophilia B, and Mononine was tested in a single drug study. Most of the preparations yielded postinfusion increases in TAT, but not in F 1 + 2. Pharmacokinetic variables were analyzed with non-linear curve-fitting combined with model-independent methods. In retrospective comparisons, there were no apparent differences between Nanotiv, Preconativ and Mononine, whereas in vivo recovery seemed lower and the apparent clearance higher for Immunine and Prothromplex. Purified factor IX concentrates were successfully used as cover for surgery or in immune tolerance induction.
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PMID:Biochemical and in vivo properties of high purity factor IX concentrates. 812 33

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