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)

During cardiopulmonary bypass, thrombin is generated, which is thought to be initiated by activation of factor XII on the surface of the bypass equipment. We present a patient with severe factor XII deficiency who underwent cardiac surgery. As much thrombin was formed during cardiopulmonary bypass (measured by the prothrombin activation fragment F1 + 2 and thrombin-antithrombin complexes) as in normal patients, showing that factor XII was not necessary for thrombin generation. Factor X, but not factor IX, was activated (as measured by their activation peptides), and this activation correlated with F1 + 2 and thrombin-antithrombin complexes, suggesting that the tissue-factor/factor-VIIa pathway is the trigger for thrombin formation.
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PMID:Role of factor XII in thrombin generation and fibrinolysis during cardiopulmonary bypass. 793 41

The mechanisms involved in the activation of the coagulation cascade in severe falciparum malaria were studied in 22 adult patients (19 male, three female) aged 18-45 (mean +/- SD 31 +/- 11) years. Of these, nine had multiple vital organ dysfunction, and bleeding occurred in four patients, two of whom died. During acute illness the reduction in plasma antithrombin III (AT III) concentrations and elevation in thrombin-AT III complexes were associated with significant reductions in factor XII and prekallikrein activities, and an increase in the C1 inhibitor antigen/activity ratio. Serial plasminogen activity remained within the normal range in all patients while protein C activity was significantly reduced. All patients had markedly elevated plasma polymorphonuclear leucocyte elastase (PMN-elastase) levels with mild depletion of alpha-2 macroglobulin but normal concentrations of alpha-1 antitrypsin. There was no correlation between PMN-elastase concentrations and any of the coagulation parameters or concentrations of proteinase inhibitors. These results suggest that the intrinsic pathway of the clotting cascade is activated in severe malaria. This may cause activation of the complement system and release of bradykinin and PMN-elastase and could contribute to the pathogenesis of severe malaria.
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PMID:Activation of the coagulation cascade in severe falciparum malaria through the intrinsic pathway. 794 33

Heparin coating of an extracorporeal device may reduce blood activation. To evaluate protein and platelet interaction with Duraflo II surface treatment of the cardiopulmonary bypass (CPB) circuit, thirty coronary artery bypass grafting patients were randomly divided into two groups (Duraflo II, n = 15 or Control, n = 15). Binding of antibodies against factor XII, antithrombin III (ATIII) and platelet receptor GpIb were significantly higher (p < 0.01) on the Duraflo II treated surface. Hageman Factor fragment (HFf or factor XIIf) activity observed in the fluid phase tended to be lower in the treated circuits, although complexes of factor XIIf-C1 inhibitor (C1INH) increased by the same extent in both groups. Thrombin was effectively bound on the Duraflo II surface while thrombin-antithrombin III formation was reduced during the first phase of CPB. As expected, this thrombin inhibiting capacity remained higher on the Duraflo II, although in the arterial line a reduction of 10% per hour was observed. This indicated loss of functional bound heparin of the Duraflo II surface. During the second phase of CPB, after release of the aortic crossclamp, factor XII and thrombin were strongly activated in both groups indicated by a sharp increase in concentrations of T/AT complex as well as FPA. Platelet numbers tended to increase more in the control group during CPB than in the Duraflo II group, likely by interaction of platelet GpIb receptors on the Duraflo II treated surface (p < 0.01). However, platelet activation assessed by beta-TG was similar in both groups of patients.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Contact, coagulation and platelet interaction with heparin treated equipment during heart surgery. 817

The activation of factor XI initiates the intrinsic coagulation pathway. Until recently it was believed that the main activator of factor XI is factor XIIa in conjunction with the cofactor high molecular weight kininogen on a negatively charged surface. Two recent reports have presented evidence that in a purified system factor XI is activatable by thrombin together with the soluble polyanion dextran sulfate. To assess the physiological relevance of these findings we studied the activation of factor XI in normal and factor XII-deficient plasma. We used either kaolin/cephalin or dextran sulfate as a surface for the intrinsic coagulation pathway, tissue factor to generate thrombin via the extrinsic pathway, or the addition of alpha-thrombin directly. 125I-factor XI, added to factor XI-deficient plasma at physiologic concentrations (35 nmol/L), is rapidly cleaved on incubation with kaolin. The kinetics appear to be exponential with half the maximum cleavage at 5 minutes. Similar kinetics of factor XI cleavage are seen when 40 nmol/L factor XIIa (equal to 10% of factor XII activation) is added to factor XII-deficient plasma if an activating surface is provided. Tissue factor (1:500) added to plasma did not induce cleavage of factor XI during a 90-minute incubation, although fibrin formation within 30 seconds indicated that thrombin was generated via the extrinsic pathway. Adding 1 mumol/L alpha-thrombin (equivalent to 50% prothrombin activation) directly to factor XII deficient or normal plasma (with or without kaolin/cephalin/Ca2+ or dextran sulfate) led to instantaneous fibrinogen cleavage, but again no cleavage of factor XI was observable. We conclude that in plasma surroundings factor XI is not activated by thrombin, and that proposals of thrombin initiation of the intrinsic coagulation cascade are not supportable.
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PMID:Activation of factor XI in plasma is dependent on factor XII. 850 85

The interaction between blood and the synthetic surfaces of the heart-lung machine activates plasma protein systems and blood cells to produce a host of vasoactive substances that mediate the "whole body inflammatory response" associated with cardiopulmonary bypass (CPB). Plasma proteins are instantaneously adsorbed onto nonendothelial surfaces; plasma factor XII is cleaved into two serine proteases; and platelets are activated to aggregate, adhere to adsorbed fibrinogen, and release granule contents. Activation of factor XII initiates coagulation by the intrinsic coagulation pathway and activates complement. Complement stimulates neutrophils to release vasoactive and cytotoxic substances. Endothelial cells, perhaps stimulated by formation of minute quantities of thrombin, produce tissue plasminogen activator, which generates plasmin, a fibrolytic enzyme. Blood becomes a stew of powerful enzymes and chemicals that alters vascular smooth muscle and endothelial cell contraction. Capillary permeability increases, fluid is retained, and function of essentially every organ is temporarily impaired. Attempts to control the morbidity of CPB have focused on reversible inhibitors of specific reactions in blood. Prostanoids and new disintegrins are promising platelet inhibitors that are reversible. Aprotinin and other serine protease inhibitors partially control fibrinolysis and activation of neutrophils. Alternatives to heparin also show promise. Eventually control of the interaction of blood and synthetic surfaces will control the adverse reactions of the heart-lung machine and reduce the bleeding, thrombotic and inflammatory complications of open heart operations.
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PMID:Blood-surface interactions during cardiopulmonary bypass. 850 71

Prothrombin fragment 1 + 2 (F1 + 2) and thrombin-antithrombin-III-complex (TAT) levels were compared in 31 orally anticoagulated patients with inferior vena caval filters and a control group of 31 orally anticoagulated patients without caval filters and the incidence of markers of thrombophilia (deficiency of antithrombin-III, protein C, protein S and factor XII, presence of lupus anticoagulants) was determined. 8 of 31 patients (26%) from the group of caval filter carriers showed markers of thrombophilia (3 protein S deficiencies, 1 protein C deficiency, 2 factor XII deficiencies and 2 patients with lupus anticoagulants). In all orally anticoagulated patients a significant interdependence (p < 0.05) between F1 + 2- and TAT-levels and intensity (INR) of the oral anticoagulation could be observed. Comparison of F1 + 2- and TAT-levels of caval filter carriers and controls revealed no significant difference which leads to the conclusion that inferior vena caval filters do not induce detectable systemic activation of prothrombin under adequate oral anticoagulation therapy.
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PMID:[Prothrombin fragment 1+2 (F1+2), thrombin-antithrombin III complex(TAT) and thrombophilia parameters in orally anticoagulated patients with inferior vena cava filters]. 851 4

The hypothesis that heparin-coated perfusion circuits reduce thrombin formation and activity; fibrinolysis; and platelet, complement, and neutrophil activation was tested in 20 consecutive, randomized adults who had cardiopulmonary bypass. Twenty identical perfusion systems were used; in 10, all blood-contacting surfaces were coated with partially degraded heparin (Carmeda process; Medtronic Cardiopulmonary, Anaheim, Calif.). All patients received a 300 U/kg dose of heparin. Activated clotting times were maintained longer than 400 seconds. Cardiopulmonary bypass lasted 36 to 244 minutes. Blood samples for platelet count, platelet response to adenosine diphosphate, plasma beta-thromboglobulin, inactivated complement 3b, neutrophil elastase, fibrinopeptide A, prothrombin fragment F1.2, thrombin-antithrombin complex, tissue plasminogen activator, plasminogen activator inhibitor-1, plasmin alpha 2-antiplasmin complex, and D-dimer were obtained at these times: after heparin was given, 5 and 30 minutes after cardiopulmonary bypass was started, within 5 minutes after bypass was stopped, and 15 minutes after protamine was given. After cardiopulmonary bypass, tubing segments were analyzed for surface-adsorbed anti-thrombin, fibrinogen, factor XII, and von Willebrand factor by radioimmunoassay. Heparin-coated circuits significantly (p < 0.001) reduced platelet adhesion and maintained platelet sensitivity to adenosine diphosphate (p = 0.015), but did not reduce release of beta-thromboglobulin. There were no significant differences between groups at any time for fibrinopeptide A, prothrombin fragment F1.2, or thrombin-antithrombin complex or in the markers for fibrinolysis: D-dimer, tissue plasminogen activator, plasminogen activator inhibitor-1, and alpha 2-antiplasmin complex. In both groups, concentrations of prothrombin fragment F1.2 and thrombin-antithrombin complex increased progressively and significantly during cardiopulmonary bypass and after protamine was given. Concentrations of D-dimer, alpha 2-antiplasmin complex, and plasminogen activator inhibitor-1 also increased significantly during bypass in both groups. Fibrinopeptide A levels did not increase during bypass but in both groups increased significantly after protamine was given. No significant differences were observed between groups for levels of inactivated complement 3b or neutrophil elastase. Radioimmunoassay showed a significant increase in surface-adsorbed antithrombin on coated circuits but no significant differences between groups for other proteins. We conclude that heparin-coated circuits used with standard doses of systemic heparin reduce platelet adhesion and improve platelet function but do not produce a meaningful anticoagulant effect during clinical cardiopulmonary bypass. The data do not support the practice of reducing systemic heparin doses during cardiac operations with heparin-coated extracorporeal perfusion circuitry.
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PMID:Surface-bound heparin fails to reduce thrombin formation during clinical cardiopulmonary bypass. 880 Jan 82

The variable bleeding tendency associated with a genetic deficiency of factor XI (FXI) and the lack of bleeding disorders in individuals with a genetic deficiency of factor XII (FXII) suggest an alternative mechanism for FXI activation in vivo. Recently, thrombin has been shown to activate FXI. However, in plasma this activation has been shown to occur only with exogenous FXI and a non-physiological cofactor (sulphatides), and the occurrence of this reaction in a plasma environment has been questioned. Using recently developed sensitive assays for FXIa-inhibitor complexes we found thrombin-mediated and FXII-dependent activation of endogenous FXI in plasma in the presence of heparan sulphate, heparin, dermatan sulphate or dextran sulphate. Using heparan sulphate, which is present in the human vascular system, activation of about 1-2% of plasma FXI was observed, however, only after addition of very high amounts (500 nmol/l) of human alpha-thrombin to FXII-deficient plasma (at a 1 to 4 final dilution). We conclude that endogenous FXI in plasma can be activated by thrombin in the presence of various glycosaminoglycans, including the physiological compounds heparan sulphate and dermatan sulphate, but only at very high concentrations of thrombin, corresponding to 100% prothrombin activation in undiluted plasma.
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PMID:Thrombin-mediated activation of endogenous factor XI in plasma in the presence of physiological glycosaminoglycans occurs only with high concentrations of thrombin. 860 18

A double-blind, placebo-controlled, cross-over study was conducted in 21 men with combined hyperlipoproteinaemia to examine if lipid-lowering treatment with gemfibrozil (10-12 weeks) affects blood coagulation and fibrin gel structure at rest or during mental stress. Gemfibrozil lowered plasma triglycerides by 57 +/- 4%, whereas high density lipoprotein (HDL) cholesterol increased by 22 +/- 5%. Gemfibrozil lowered the triglyceride content of low density lipoprotein (LDL). Gemfibrozil reduced the plasma concentrations of thrombin-antithrombin complex (TAT) and prothrombin fragment F1 + 2 (F1 + 2), both at rest and during mental stress. However, there were no effects of gemfibrozil treatment on the plasma concentrations of fibrinogen, factor VII antigen, activated factor VII (VIIa) or activated factor XII (XIIa), or on fibrin gel structure. Acute mental stress per se did not influence coagulation factors, reaction products or fibrin gel structure, or their responses to the study drug. Thus, gemfibrozil reduced thrombin generation in men with combined hyperlipoproteinaemia, without influencing the plasma levels of fibrinogen, VIIa and XIIa, or fibrin gel structure. Attenuation of thrombin generation may contribute to the primary-preventive effects of gemfibrozil on coronary heart disease.
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PMID:Gemfibrozil reduces thrombin generation in patients with combined hyperlipidaemia, without influencing plasma fibrinogen, fibrin gel structure or coagulation factor VII. 886 25

Pulmonary injury may result from the use of cardiopulmonary bypass (CPB). We investigated changes in the haemostatic system in the pulmonary vein during CPB compared with blood that circulated through the bypass circuit. Paired samples were taken from the pulmonary vein and central venous pressure (CVP) line during the peri-operative period from ten patients. Plasma levels of factor VII (P < 0.001), prekallikrein (P < 0.05), antithrombin III (P < 0.001) and heparin cofactor II (P < 0.005) were decreased in the pulmonary vein after 20 min of bypass compared with pre-operative levels. In the pulmonary vein there was a significant increase in neutrophil expressed CD11b (P < 0.001), neutrophil elastase: alpha 1-antitrypsin complexes (P < 0.001), endothelin-1(P < 0.001) and thrombin-antithrombin complexes (P < 0.001) by the end of bypass compared with pre-operative levels. There was no significant change in monocyte expressed CD11b, factor XII or C1-esterase inhibitor in the pulmonary vein for the study period. None of these variables were significantly different in the pulmonary vein compared with CVP line. In the pulmonary vein plasma levels of activated factor VII decreased following heparin administration (P < 0.001) in the majority of patients which was coincidental to an increase (P < 0.001) in tissue factor pathway inhibitor (TFPI). This increase in TFPI was significantly higher in the pulmonary vein compared with CVP line (P < 0.05) There was a decrease in neutrophil count by 20 min on CPB in both the pulmonary vein and CVP line (P < 0.001) and this did not return to pre-operative levels in the pulmonary vein. Soluble thrombomodulin levels decreased by 20 min on CPB in the CVP line (P < 0.05) but tended to increase in the pulmonary vein, although this was not statistically significant. In conclusion we found evidence of thrombin generation and possible endothelial damage together with increased neutrophil activation and adhesion molecule expression in the pulmonary vein during CPB which may play an important role in the development of post-CPB pulmonary injury.
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PMID:Haemostatic changes in the pulmonary blood during cardiopulmonary bypass. 887 68

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