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)

Anticoagulant therapy includes heparin, either unfractionned or of low molecular weight, danaparoid, vitamin K antagonists and direct thrombin inhibitors. Low molecular weight heparins are now the cornerstone of venous thromboembolism prevention in surgery, and once daily regimen is available for the treatment of acute deep vein thrombosis. Vitamin K antagonists are mostly used for secondary prevention of venous thromboembolism and for primary prevention of arterial embolism in patients with permanent atrial fibrillation or with cardiac prosthetic valve. Thrombotic complications of heparin-induced thrombocytopenia are prevented and treated by direct thrombin inhibitors or danaparoid.
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PMID:[Indications for anticoagulants]. 1058 95

Coagulation factor Xa is the sole enzyme responsible for activating the zymogen prothrombin to thrombin, resulting in fibrin generation, platelet activation, and subsequent thrombus formation. Our objective was to evaluate the antithrombotic efficacy of the novel factor Xa inhibitor, 2-(3-carbamimidoyl-benzyl)-3-[(3', 4'dimethoxy-biphenyl-4-carbonyl)-amino]-butyric acid methyl ester-trifluoroacetate (RPR208566), in a well-established rat model of arterial thrombosis, and to compare the results with those obtained with argatroban and heparin, direct and indirect inhibitors of thrombin, respectively. Thrombus formation was initiated by placing a filter paper saturated with FeCl(2) on the adventia of the carotid artery for 10 min. Time-to-occlusion was measured from initiation of injury until blood flow reached zero. Formed thrombi were removed and weighed 60 min after the placement of the filter paper. RPR208566, heparin, and argatroban dose-dependently increased time-to-occlusion and reduced thrombus mass. When administered at 500 microgram/kg+50 microgram/kg/min, RPR208566 prolonged time-to-occlusion to 56+/-4 min (vs. 18+/-2 min for vehicle) and reduced thrombus mass to 3.0+/-0.7 mg (vs. 7.3+/-0.6 mg for vehicle). The highest doses of argatroban (500 microgram/kg+50 microgram/kg/min) and heparin (300 U/kg+10 U/kg/min) increased time-to-occlusion to the maximum of 60 min and decreased thrombus mass to 5.5+/-0.8 and 2.6+/-0.3, respectively. The antithrombotic effects of heparin and argatroban at these doses were associated with increases in activated partial thromboplastin time of 5.6+/-0.9- and 2.9+/-0.3-fold over baseline, respectively. However, the highest dose of RPR208566 produced a modest 1.3+/-0.1-fold increase in activated partial thromboplastin time. These results indicate that factor Xa inhibition with compounds such as RPR208566 may be an attractive mechanism for novel antithrombotic drug therapy.
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PMID:Antithrombotic efficacy of RPR208566, a novel factor Xa inhibitor, in a rat model of carotid artery thrombosis. 1068 85

Heparin cofactor II is postulated to be an extravascular thrombin inhibitor that is physiologically stimulated by dermatan sulfate. However, the role of heparin cofactor II has not yet been clearly demonstrated in vivo. In this study, we estimated the antithrombotic effect of heparin cofactor II administered exogenously in a rat model of thrombosis. Thrombus was induced in the rat femoral artery by endothelial damage due to the photochemical reaction between systemically injected rose bengal and transillumination with green light. Pretreatment with heparin cofactor II significantly prolonged the time required to occlude the femoral artery (occlusion time) in a dose-dependent manner. At an effective dose in this thrombosis model, heparin cofactor II did not prolong the activated partial thromboplastin time and the prothrombin time in normal rats. Argatroban, a selective synthetic thrombin inhibitor, significantly prolonged the occlusion time. However, argatroban also prolonged the activated partial thromboplastin time and prothrombin time at an effective dose. These results suggest that the administration of heparin cofactor II in vivo effectively inhibited thrombus formation on the vessel walls whose endothelium is damaged without a prolongation of the coagulation time while heparin cofactor II may also inhibit the thrombin activity in the subendothelial tissue in vivo.
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PMID:Heparin cofactor II inhibits thrombus formation in a rat thrombosis model. 1070 37

Thrombo-occlusive events at sites of atherosclerotic stenosis and plaque rupture are caused by exposure of the sub-endothelial layer of the vasculature to platelets and their subsequent aggregation at the locus of injury. Thrombi are generated by the activation of platelets, which are not always inhibited by aspirin or heparin. Both unstable angina and myocardial infarction are ultimately linked to thrombus formation. In addition, various invasive procedures used to re-establish patency of coronary vessels are often followed by thrombotic events that can be life threatening. New antagonists to thrombin and the development of glycoprotein (GP) IIb/IIIa platelet receptor inhibitors have been the main focus of recent large clinical trials that have demonstrated both the efficacy and safety of these new agents. The new antithrombotics include hirudin, hirulog, and the low molecular weight heparins. Representative GP IIb/IIIa receptor blockers include: abciximab, a human-murine chimeric monoclonal antibody; tirofiban, a non-peptide tyrosine derivative with a short half-life; and eptifibatide, a cyclic heptapeptide. All three are available for clinical use, but their approved indications vary. The GP IIb/IIIa receptor antagonists are anticipated to gain wide clinical acceptance by both cardiologists and internists and should have a prominent role in the management of acute coronary syndromes, most likely in combination with an antithrombin.
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PMID:Treatment of unstable angina: the role of platelet inhibitors and anticoagulants. 1074 4

Acute myocardial infarction (AMI) remains a leading cause of morbidity and mortality in the developed countries. Thrombotic occlusion of a coronary artery has been shown to cause acute myocardial infarction in over 90% of the cases. Early and complete restoration of bloodflow in the infarct-related coronary artery is the principal mechanism by which reperfusion therapy improves outcomes in patients with acute myocardial infarction. Thrombolytic therapy has been shown to reduce mortality when given early after symptom onset. However, even the most effective, approved thrombolytic regimens achieve normal (so-called TIMI 3) flow in the infarct vessel at 60-90 minutes only in about half of the patients and reocclusion occurs in 5-10%. Bleeding events, especially intracranial bleedings, observed in up to 1% of the patients, are the most severe complication of thrombolysis. Primary percutaneous transluminal coronary angioplasty (PTCA) is associated with somewhat higher patency rates and significantly fewer strokes than thrombolysis, but confers a reocclusion rate of about 5-10% and it is not universally available. While smaller randomized studies suggested a significant advantage of PTCA over thrombolysis, these results could not be confirmed in the larger GUSTO IIb angioplasty study in over 1000 patients and in non-randomized comparisons in large registries. Therefore, a general mortality advantage of PTCA over thrombolysis could not be demonstrated. Primary PTCA should be preferred in patients with contraindications against thrombolysis, patients with a high risk for intracranial bleedings (age > 75 and high blood pressure on admission) and hemodynamically unstable patients. There are several approaches to improve outcome of patients with acute myocardial infarction: new fibrinolytic agents may improve early infarct related patency, single bolus administration of thrombolytics may reduce time-to-treatment, stent implantation may improve direct PTCA, enhanced thrombin and platelet inhibition may facilitate both, thrombolysis and primary PTCA, enhance reperfusion on the cellular level and reduce reocclusions and ultimately improve prognosis of patients with acute myocardial infarction.
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PMID:Thrombolysis and percutaneous transluminal coronary angioplasty in patients with acute myocardial infarction. 1081 Jul 75

We examined various nonSTAT commercially available coagulation activation markers in an attempt to help diagnose or exclude the often subtle clinical presentations of proximal deep vein thrombosis (PDVT) and pulmonary embolism (PE). Fifty-five patients presenting to the Emergency Department were completely assessed. Eleven patients were diagnosed with PDVT, six patients were diagnosed with PE, and three patients were diagnosed with both PDVT and PE. Thrombus precursor protein (TpP) excluded the diagnosis in 19 of the 35 patients negative for PDVT and/or PE, D-Dimer in 15 patients, prothrombin fragment 1.2 in 17 patients, and thrombin-antithrombin (TAT) in 14 patients. Both the TpP and TAT enzyme-linked immunosorbent assay (ELISA) tests had 100% sensitivity and negative predictive value for evaluating PDVT and/or PE. The TpP ELISA had the highest specificity (54%) of all four markers studied.
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PMID:The use of thrombus precursor protein, D-dimer, prothrombin fragment 1.2, and thrombin antithrombin in the exclusion of proximal deep vein thrombosis and pulmonary embolism. 1084 25

Recently, basic and clinical advances have provided insights into the molecular events that link inflammation with blood coagulation and thrombosis. At least in cell culture, the inflammatory cytokines, especially tumour necrosis factor alpha (TNF) and interleukin 1-beta (IL-1), are major mediators that can elicit changes in cell phenotype. With respect to coagulation, one of the clot-promoting and one of the inhibitory pathways seem especially prone to modulation by these cytokines. Whenever Tissue Factor contacts the blood, coagulation is initiated rapidly. These cytokines can elicit Tissue Factor production on endothelium and monocytes. Thus, the cytokines elaborate Tissue Factor formation intravascularly. This contrasts with the normal situation in which Tissue Factor is located exclusively in the extravascular space, largely on fibroblasts, where it is expressed constitutively. Furthermore, cytokines, especially interleukin 6 (IL-6), can stimulate new platelet formation, and the new platelets responding to IL-6 have increased sensitivity to thrombin activation and increased procoagulant activity. Regulating the clotting process are a large number of anticoagulant and fibrinolytic mechanisms. The three major anticoagulant mechanisms appear to involve antithrombin-heparin, Tissue Factor pathway inhibitor (TFPI) and the Protein C pathway. Of these, the Protein C pathway appears to be the primary target for cytokine action. The Protein C pathway is initiated when thrombin binds to thrombomodulin (TM). TM is expressed constitutively on endothelium. In tissue culture, TNF, IL-1 or endotoxin lead to a slow loss of TM and endothelial cell Protein C receptor (EPCR) from the cell surface. In addition, Protein S levels decrease in patients with disseminated intravascular coagulation (DIC). Taken together, these results suggest that cytokines should elicit massive thrombotic responses when administered systemically. At near toxic levels, TNF fails to elicit an overt DIC or thrombotic response in patients, although sensitive markers of coagulation do detect changes in coagulation in response to TNF. In baboons, very high levels of TNF also fail to elicit fibrinogen or platelet consumption. However, if the Protein C pathway is blocked, these cytokines can elicit either DIC or deep-vein thrombosis, depending on the conditions. Thrombus formation is potently potentiated by impeding flow and/or by catheterization. DIC is facilitated by providing membrane surfaces, possibly mimicking complement mediated platelet activation/damage that occurs in shock. Thus, available evidence suggests important roles for inflammatory cytokines in DIC and thrombosis, but they seem insufficient by themselves to elicit overt thrombotic responses without secondary stimuli. Current data suggest that anti-inflammatory drugs are a viable candidate to blocking DIC or thrombosis without impairing the haemostatic balance.
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PMID:Possible involvement of cytokines in diffuse intravascular coagulation and thrombosis. 1085 74

We studied 88 hemodialysis patients for the presence of antibodies to human factor II (hFII), bovine factor V (bFV), and human beta2-glycoprotein 1 (beta2GPI). Forty-one patients had elevated anti-hFII antibodies, 17 had elevated anti-bFV antibodies, and 9 had elevated anti-beta2GPI antibodies. Fifty-two patients had elevated antibodies to one or more protein. Patients with PTFE grafts had elevated antibodies most frequently (21 [75%] vs. 20 fistulas [45%; p = 0.016 compared with PTFE] and 11 tunneled catheters [68.8%]). Twelve of 13 patients (92.3%) with PTFE grafts and thrombosis had elevated antibody levels, compared with 9 of 15 without thrombosis (60%; p = 0.049). The number of thromboses and mean thrombosis rates were significantly higher in PTFE patients with antibodies (1.24 vs. 0.14 thromboses, p < 0.01; 42.67 vs. 6.44 thromboses/100 patient years, p < 0.05). When analyzed individually, thrombotic complications occurred more frequently in patients with PTFE grafts and elevated anti-bFV antibodies (p = 0.016), but did not correlate with anti-hFII or anti-beta2GPI antibodies. Thrombotic complications did not correlate with elevated antibody levels in patients with AV fistulas or cuffed catheters. In conclusion, hemodialysis patients with PTFE grafts frequently have elevated antibodies to FII, FV, and beta2GPI, and the presence of elevated antibody levels to one or more of these proteins is associated with an increased thrombotic risk. Further studies are necessary to determine whether limiting exposure to bovine thrombin preparations will decrease the incidence of these antibodies and PTFE graft thrombosis.
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PMID:Antibodies to prothrombin, factor V, and beta2-glycoprotein I and vascular access thrombosis. 1157 27

Thrombotic disease is rare in neonates. The main risk factors at this age are perinatal asphyxia, maternal diabetes, sepsis, polycythemia, dehydration, a low cardiac output, and in primis the catheterization of central lines. Another important risk factor is inherited thrombophilia. Arterial thrombosis is even more rare than venous thrombosis and less related to most of the risk factors listed above; it occurs more frequently in the iliac, femoral, and cerebral arteries but very rarely in the aorta. Most of the described cases of aortic thrombosis are associated with the catheterization of an umbilical artery and involve the descending tract and the renal arteries; very few relate to the ascending tract and the aortic arch. The possible role of virus-induced primary vascular endothelium damage in the etiopathogenesis of neonatal arterial thrombosis has been previously hypothesized. Herpesviruses, particularly human cytomegalovirus (HCMV), can infect endothelial cells and directly damage intact vascular endothelium, altering its thromboresistant surface as a result of procoagulant activity mediated by specific viral surface phospholipids, necessary for the coagulation enzyme complex assembly that leads to thrombin generation. We describe a case of congenital aortic arch thrombosis. The clinical, laboratory, and virologic pictures; the anatomopathologic findings (fully compatible with viral infection); the detection of HCMV in various tissues (including the aorta); and the absence of other causes of aortic thrombosis make it possible to attribute the case to a severe congenital HCMV infection with multiple organ involvement, after the primary infection of the mother. The hemostatic system disorders and hemodynamic disturbances related to viral cardiac damage explain the clinical features of the case and indicate that congenital HCMV infection should be included among the causes of neonatal aortic thrombosis.
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PMID:Neonatal aortic arch thrombosis as a result of congenital cytomegalovirus infection. 1173 41

Factor Xa is a serine protease positioned at the convergence point of the intrinsic and extrinsic coagulation pathways and is therefore an attractive target in the development of novel anticoagulant drugs. The objective of this study was to evaluate the efficacy of CI-1031 (N-[2-[5-amidino-2-hydroxyphenoxy]-6-[3-(1-methyl-1H-imidazolin-2-yl)-phenoxy]-3,5-difluoropyrid), a potent and selective inhibitor of Factor Xa, in a canine electrolytic injury model of arterial and venous thrombosis. Enoxaparin (enoxaparin sodium), a low molecular weight heparin currently approved for treatment and prevention of deep vein thrombosis and unstable angina, was also tested for efficacy in this model. CI-1031 was administered intravenously to anesthetized dogs at three doses: 1.25, 2.5 and 5 microg/kg/min (n=5 for each group) as a continuous infusion for 5.5 h. The control group (n=5) received a continuous infusion of vehicle (3.69 mmol citric acid and 0.9% sodium chloride solution) at a rate of 1 ml/kg/h. Ninety minutes after administration of CI-1031 prothrombin times increased 1.2-, 1.6- and 2.0-fold over baseline values in the 1.25, 2.5 and 5 microg/kg/min groups, respectively. The time to formation of an occlusive thrombus in the femoral arteries averaged 69+/-5 min in the control group compared to 127+/-19, 192+/-33 and 219+/-15 min in the low-, mid- and high-dose CI-1031 groups. In the femoral veins, occlusion time in the controls averaged 56+/-11 min compared to 153+/-22, 137+/-30 and 214+/-26 min in the three treatment groups. Thrombus weights in the control arteries averaged 51+/-4 mg compared to 45+/-5, 28+/-10 and 15+/-3 mg in the CI-1031 treated groups. On the venous side, control thrombus weights averaged 96+/-18 mg compared to 75+/-16, 51+/-16 and 25+/-4 mg in the low-, mid- and high-dose CI-1031 groups. A plasma CI-1031 concentration of approximately 400 ng/ml was associated with a 50% reduction in thrombus weight relative to control animals. Enoxaparin was administered intravenously at a loading dose of 50, 100 or 200 IU/kg for 1 h followed by a maintenance infusion of 25, 50 or 100 IU/kg/h for 4.5 h. The most dramatic changes in coagulation parameters were observed in thrombin time with virtually no changes in prothrombin time. Enoxaparin elicited a dose-dependent increase in time to thrombotic occlusion and a dose-dependent decrease in thrombus weight similar to that observed with CI-1031. Time to occlusion in the enoxaparin-treated groups averaged 117+/-33, 188+/-32 and 217+/-22 min in the low-, mid- and high-dose groups in the femoral arteries and 84+/-22, 171+/-31 and 133+/-33 min in the femoral veins. Thrombus weights averaged 33+/-10, 12+/-5 and 10+/-4 mg in the arteries and 32+/-9, 13+/-2 and 21+/-6 mg in the veins in the low-, mid- and high-dose groups. Blood loss with CI-1031 tended to be less than enoxaparin at doses that provided comparable efficacy. These results demonstrate that CI-1031, like enoxaparin, is an effective antithrombotic agent in an established canine model of arterial and venous thrombosis. CI-1031 provided dose-dependent efficacy with minimal changes in ex vivo coagulation parameters, suggesting it may be a safe and effective antithrombotic agent for both arterial and venous indications.
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PMID:The antithrombotic effects of CI-1031 (ZK-807834) and enoxaparin in a canine electrolytic injury model of arterial and venous thrombosis. 1174 Sep 55

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