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)

Single-stranded DNA molecules containing a 15-nucleotide consensus sequence have been reported to inhibit thrombin activity. The mechanism of the inhibition was studied using a consensus 15-mer oligonucleotide and two recombinant mutant thrombins: the anion-binding exosite mutant thrombin R70E, and thrombin K154A, in which the mutation was located in a surface loop outside of the exosite. The consensus 15-mer oligonucleotide inhibited both fibrinogen-clotting and platelet-activation activities of plasma-derived thrombin, recombinant wild type thrombin, and mutant thrombin K154A in a sequence-specific and dose-dependent manner, whereas it did not inhibit either activity of mutant thrombin R70E. The 15-mer oligonucleotide also inhibited thrombomodulin-dependent protein C activation by plasma-derived thrombin. In competition equilibrium binding experiments, binding of 125I-labeled diisopropyl phosphoryl-thrombin to thrombomodulin was completely inhibited by the consensus 15-mer oligonucleotide with a Kd value of 2.68 +/- 0.16 nM. These results suggest that Arg-70 in the anion-binding exosite of thrombin is a key determinant for interaction with specific single-stranded DNA molecules, and that binding of single-stranded DNA molecules to the exosite prevents the interaction of thrombin with fibrinogen, the platelet thrombin receptor, and thrombomodulin.
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PMID:Localization of the single-stranded DNA binding site in the thrombin anion-binding exosite. 133 57

Thrombomodulin (TM) is an endothelium-associated glycoprotein that converts thrombin from a procoagulant protease to an anticoagulant. Thrombin, a key enzyme in thrombus formation, binds to TM molecules on endothelium with very high affinity. After binding to TM, thrombin fails to act on the coagulation factors and platelets, and its ability to activate protein C is enhanced more than 1000-fold. We expressed soluble recombinant TM (rTM) in CHO cells and evaluated its antithrombotic effect on thrombin-induced thromboembolism in mice and lipopolysaccharide (LPS) induced disseminated intravascular coagulation (DIC) in rats. Thrombin injection into mouse caused acute thromboembolism resulting instantaneous death, however preinjection of rTM neutralized the lethal effect of thrombin in a dose-dependent manner. Soluble rTM also improved the consumption of fibrinogen and platelets in experimental DIC-rats induced by LPS. The effect of rTM was confirmed in histologically. These data suggest that rTM may have a therapeutic effect on thrombosis or DIC in human.
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PMID:[Therapeutic evaluation of recombinant thrombomodulin]. 133 21

We investigated coagulation system activation following estrogen treatment in 29 healthy postmenopausal women. Study participants received conjugated estrogens at 0.625 and 1.25 mg per day, and placebo for 3-month periods in a randomized crossover protocol. Blood samples were obtained on two consecutive days at the end of each treatment period for immunoassays of F1+2 and fibrinopeptide A (FPA), markers of factor Xa action on prothrombin and thrombin action on fibrinogen in vivo, respectively. Treatment with estrogens at a dose of 0.625 or 1.25 mg resulted in significant increases in mean F1+2 levels of 40 and 98%, respectively, and in mean FPA levels of 37 and 71%, respectively. The measurements of F1+2 were significantly higher in women receiving 1.25 mg of estrogen than 0.625 mg. We also observed significant declines in the levels of antithrombin III and total protein S antigen. Immunologic levels of protein C increased modestly at only the 1.25 mg estrogen dose level. These data indicate that low doses of oral estrogens (< or = 1.25 mg per day) frequently increase the amount of thrombin generated in vivo. Our observations may help to explain the increased thrombotic risk that has been observed with higher doses of this medication (> or = 2.5 mg).
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PMID:Coagulation activation following estrogen administration to postmenopausal women. 133 98

Protein C activation is catalyzed on endothelium by a complex between thrombin and thrombomodulin. Ca2+ stimulates protein C activation in the presence, and inhibits in the absence, of thrombomodulin. Protein C has Asp residues at the P3 and P3' positions relative to the scissile bond at Arg169-Leu. To determine the contribution of these residues to the Ca2+ effect on activation, we have expressed human 4-carboxyglutamic acid (Gla)-domainless protein C and 3 mutants with Asp-->Gly substitutions at P3, P3', and both positions. Ca2+ interaction with the protein C derivatives was monitored by changes in intrinsic fluorescence, and the Ca2+ dependence of activation by thrombin and a complex of thrombin-thrombomodulin with a soluble thrombomodulin derivative (the fourth through sixth epidermal growth factor domains). The affinity for Ca2+ of the mutants was reduced 3-6-fold, which was reflected by a comparable change in the Ca2+ concentration required for the half-maximal rate of activation by the thrombin-thrombomodulin complex. However, Ca2+ no longer effectively inhibited activation of the mutants by thrombin alone. We conclude that 1) the Asp residues play a specific role in the Ca(2+)-dependent inhibition of protein C activation by thrombin; 2) these mutations alter the affinity of Ca2+ for the high affinity binding site; and 3) the Asp residues in the P3 and P3' sites do not contribute in a positive fashion to rapid activation by the thrombin-thrombomodulin complex.
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PMID:The function of calcium in protein C activation by thrombin and the thrombin-thrombomodulin complex can be distinguished by mutational analysis of protein C derivatives. 133 92

Endothelial thrombomodulin (TM) plays a critical role in hemostasis as a cofactor for thrombin-dependent formation of activated protein C, a potent anticoagulant. Chloramine T, H2O2, or hypochlorous acid generated from H2O2 by myeloperoxidase rapidly destroy 75-90% of TM cofactor activity. Activated PMN, the primary in vivo source of biological oxidants, also rapidly inactivate TM. Oxidation of TM by PMN is inhibited by diphenylene iodonium, an inhibitor of NADPH oxidase. Both Met291 and Met388 in the six epidermal growth factor-like repeat domain are oxidized; however, only substitutions of Met388 lead to TM analogues that resist oxidative inactivation. We suggest that in inflamed tissues activated PMN may inactivate TM and demonstrate further evidence of the interaction between the inflammatory process and induction of thrombotic potential.
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PMID:Oxidation of a specific methionine in thrombomodulin by activated neutrophil products blocks cofactor activity. A potential rapid mechanism for modulation of coagulation. 133 78

The membrane glycoprotein thrombomodulin (TM) is an essential endothelial cell (EC) cofactor, which forms a 1:1 stoichiometric complex with thrombin. Binding of thrombin to the high affinity TM receptor transforms its procoagulant activity into an anticoagulant potential, by activating protein C. The fate of TM in the presence of thrombin is still unclear: some authors claim that the thrombin-TM complex is internalized in EC, while others find this complex to be stable for at least 2 h at 37 degrees C on the EC surface. In the present study, we investigated the interactions of thrombin and Fab-fragments of anti-TM antibodies, coupled to 5 or 15 nm gold particles with saphenous vein endothelial cells. Our results demonstrate that TM can be observed both on the plasma membrane and in coated structures only in the presence of anti-TM antibodies. Addition of thrombin decreased the extent of this labeling, while in double labeling experiments, where cells were incubated with 5 nm gold coupled thrombin and 15 nm gold coupled Fab fragments of anti-TM antibodies, thrombin was cointernalized only when anti-TM antibodies were present. These results show that thrombin-TM complex is not significantly internalized in EC. The internalization of this complex induced by anti-TM antibodies could play an important role in the thrombotic complications induced by anti-EC autoantibodies.
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PMID:Antibodies to thrombomodulin induce receptor-mediated endocytosis in human saphenous vein endothelial cells. 133 32

The coagulation response is a complex interaction involving the vascular surface, blood platelets, and the plasma coagulation factors. These reactions are integrated to give rise to a locally efficient generation of both platelet aggregates and the enzymatic process associated with fibrin formation. Following mechanical, chemical, or biological "damage" to the vascular endothelial surface, coagulation is initiated by a composite of cellular adhesive reactions certainly involving the platelet and potentially also involving other inflammatory cells. The blood coagulation mechanism can be presented as a collection of zymogen-to-enzyme transformations, with each proteases participating with a cofactor protein on a "surface" that gives rise to the competent blood clotting complex. These complexes catalyze the generation of additional enzymes required for succeeding reaction complexes. It is likely that the coagulation reaction system is continuously "on," producing products at some low "idling" rate, with the products of the various reactions being neutralized by the collection of protease inhibitors and cofactor-neutralizing reactions that regulate the blood clotting process. These latter systems include, as principal components, the antithrombin III-heparin anticoagulant and the activated protein C pathway that disables cofactor proteins. Small changes in the concentrations of modulators can cause large effects in response to relatively small inputs. The coagulation process may be regarded as being at an incipient stage, separated from visually observable coagulation by a narrow threshold, which, once crossed, gives rise to the generation of fibrin and other products associated with alpha-thrombin generation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Potential analytes for the diagnosis of thrombosis. An overview. 134 87

1. Guinea-pig blood clots rapidly and the clots retract in glass tubes. The prothrombin time is long and the activated partial thromboplastin time short compared to human. The Russel viper venom time is similar to human. 2. Factors VII and X assay at levels far below and factors V, VIII and XII assay far above human levels. Other coagulation factors (fibrinogen, II, IX, XI, Fletcher and Fitzgerald) assay within or close to the human range. 3. The thromboplastin generation test results for guinea-pigs and humans are similar. 4. Platelets are numerous and small. They aggregate with ADP, arachidonic acid and pig plasma, variably with ristocetin and poorly with bovine collagen or thrombin. On electron microscopy, platelets appear small with many dark granules (dense bodies). There is an open canicular system. Glycogen particles are sparse. Microtubules are occasionally seen, mitochondria are rare and alpha-granules are not readily distinguished from dark granules. 5. Ristocetin cofactor is very low, assaying at < 16% of human (< 0.16 U/ml). 6. Leukocyte counts are variable (6300-17,000 per microliters) and differential counts show neutrophils slightly lower and lymphocytes slightly higher than average human counts. 7. Guinea-pig erythrocyte parameters fall within human ranges. 8. Protein electrophoresis shows total protein and albumin to be slightly lower than human. 9. Antithrombin III, Protein C and alpha 2-antiplasmin assay within the human range and plasminogen at very low levels. 10. Bleeding times are consistently about 4 min.
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PMID:Comparative hematology: studies on guinea-pigs (Cavia porcellus). 135 40

Coronary thrombolysis reduces morbidity and mortality in patients with acute myocardial infarction, however, the exact effects of thrombolytic agents on the status of intrinsic hemostases are not fully understood. In the present study, we examined serial changes in plasma thrombin and protein C activities of 6 patients with acute myocardial infarction treated with urokinase. Fibrinolysis occurred immediately after urokinase injection with an increase in the plasma thrombin-antithrombin III complex, suggesting a subsequent procoagulant state due to thrombin generation. Correspondent increases in plasma protein C activity were observed, however, protein S levels did not change at all. Our findings suggest that urokinase administration for coronary thrombolysis not only causes fibrinolysis, but also induces thrombin activity, which may be antagonized by augmented intrinsic protein C activity.
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PMID:Augmented plasma protein C activity after coronary thrombolysis with urokinase in patients with acute myocardial infarction. 138 46

Effects of human placental calphobindin II (CPB-II) on the protein C activation and prothrombin activation on the cell surface of cultured calf pulmonary arterial endothelial cells have been investigated. CPB-II inhibited thrombin generation by factor Xa bound to the surface of the cultured endothelial cells in a dose-dependent manner. The amount (IC50) of CPB-II causing the inhibition at 50% was estimated to be approximately 10 nM. CPB-II was found to be ineffective, however, in the protein C activation by thrombin-thrombomodulin (TM) complex on the cell surface. Assay using purified TM revealed that CPB-II was able to exhibit the inhibitory potency for the protein C activation exclusively in the reconstituted system with negatively charged phospholipids. These results suggest that the neutral phospholipids participate in the protein C activation through the thrombin-TM system on the endothelial cell surface. The ability of CPB-II to inhibit procoagulant activity without affecting anticoagulant activity on the cultured endothelial cells is probably related to its potential physiological function, while it is able to exert various degrees of influence upon these activities in blood coagulation by interacting with negatively charged phospholipids in vitro.
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PMID:Effects of calphobindin II (annexin VI) on procoagulant and anticoagulant activities of cultured endothelial cells. 139 5

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