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)

An influence of the ABO blood group on von Willebrand and Factor VIII:C levels is known. Von Willebrand factor interacts with at least two platelet membrane receptors, but the effect of ABO group on platelet function is an unstudied area. The authors examined platelet function in 40 plateletpheresis donors using an impedance lumi-aggregometer. Aggregation responses to collagen, adenosine diphosphate (ADP), and ristocetin were measured and the adenosine triphosphate (ATP) release to thrombin. Twenty donors were Group O and 20 were Group A. Measurements of von Willebrand factor antigen (vWf:Ag), Factor VIII: C, and ristocetin co-factor (RiCoF) in the same group showed reduced levels of vWf:Ag and Factor VIII:C in Group O, as previously reported. The aggregation response to collagen and ADP and the release of ATP did not differ. The aggregation response to ristocetin, however, was better in Group O than in Group A despite the lower vWf:Ag levels. The explanation for this is unclear, but the data suggest an influence of blood group antigens on the interaction between von Willebrand's factor and platelets.
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PMID:Platelet function and ABO blood group. 249 26

Some properties of a monoclonal antibody generated against the fibrinogen component of a factor VIII preparation were investigated. The antibody bound with equal affinity in solid phase radioimmunoassays to fibrinogens isolated from both normal patients and patients with von Willebrand disease. It reacted in a sensitive immunoassay of plasma fibrinogen. The specificity of the antibody was confined to the parent molecule with no significant inhibition of fibrinogen binding by the fibrinogen degradation products (FDPs) X, Y, D, or E. The antibody had no significant effect on the activated partial thromboplastin time and prothrombin time of normal plasma. However, it prolonged the thrombin time as determined by the Clauss chronometric fibrinogen method. During fibrinogen lysis by plasmin immunoreactivity of fibrinogen to the antibody was lost at the same rate as the clottable fibrinogen content determined by the Clauss assay. The lack of reactivity of the antibody with FDPs makes it a suitable reagent for investigating plasmin activity as well as studying fibrinogen and fibrin. These findings suggest that the epitope of the antibody lies within the polar protruberance of the carboxy terminal end of the A alpha chain of fibrinogen and is destroyed by plasmin cleavage.
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PMID:Some studies with a monoclonal antibody directed against human fibrinogen. 257 30

A thrombus is an abnormal manifestation of normal haemostasis occurring on the internal surface of the blood vessels. Endothelial injury is the first event which ultimately may result in arterial thrombosis. Platelets stick to subendothelial components, are activated and release a number of mediators which aggregate new platelets. Simultaneously, thrombin is generated on the platelet surface and enhances these phenomenons. Due to the high blood flow which avoids local thrombin accumulation, arterial thrombosis is mainly composed of platelets with a poor fibrin content. A mural arterial thrombosis may embolize, be incorporated in the vessel wall, or occlude the lumen of the artery. Platelets are involved in the development of atherosclerosis: severe thrombocytopenia or von Willebrand disease protect efficiently against experimental atherosclerosis; several clinical conditions known to increase cardiovascular diseases are also associated with an increased platelet aggregability; in contrast, polyunsaturated fatty acids decrease platelets aggregability and protect against vascular diseases.
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PMID:[Role of platelets in atherosclerosis and arterial thrombosis]. 259 16

The effects of Buyang Huanwu Decoction (BYHWD) on the antithrombotic functions of vessel wall were studied with human umbilical vein perfusion. It was observed that the both of Von Willebrand factor release stimulated by thrombin from the vessel walls and conversion of fibrinogen to fibrin catalyzed by thrombin were inhibited by BYHWD. There were no obvious effects of BYHWD on the thrombin adsorption to the vessel walls and the thrombin induced release of PGI2 as well as fibrinolysis inhibiting activity from the vessel walls.
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PMID:[Effect of buyang huanwu decoction on the antithrombotic functions of the vessel wall]. 259 61

Most causes of abnormal bleeding can be determined from a complete blood count including platelet count and bleeding, prothrombin, activated partial thromboplastin, and thrombin times. Occasionally, further evaluation is necessary, such as tests of factor XIII function, fibrinolysis, and vascular integrity. Possible diagnoses include disseminated intravascular coagulation, thrombotic thrombocytopenic purpura, vitamin K deficiency, von Willebrand's disease, heparin-induced thrombocytopenia, acquired inhibitors of factor VIII, lupus anticoagulants, and coagulation disorders related to the acquired immunodeficiency syndrome.
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PMID:Laboratory evaluation of a bleeding patient. 266 Apr 7

Clinical and laboratory evaluation of severe bleeding can detect the presence of an intrinsic or acquired coagulation disorder. The three most common inherited coagulation disorders are factor VIII deficiency (hemophilia A), factor IX deficiency (hemophilia B), and von Willebrand's disease. Vitamin K deficiency, liver disease, and disseminated intravascular coagulation are the most common acquired disorders. A thorough clinical history is crucial to diagnosis. Screening tests that measure prothrombin time, partial thromboplastin time, thrombin time, and platelet count permit initial classification and guide selection of more specific tests. Results can then be used to determine appropriate therapy.
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PMID:Potentially catastrophic bleeding disorders. Approach to diagnosis and management. 267 67

A 62 year old male (R.H.) presented with a mild anemia (Hb 11-12 gm%) and a history of multiple hemorrhagic episodes. The marrow had 40-50% sideroblasts. Marrow chromosomes were normal. His wife was hematologically normal, while one daughter, age 30 years, had a sideroblastic anemia (Hb 11-12 gm%) with 40-50% sideroblasts in the marrow. Her anemia was first noted at age 15 years. Administration of vitamin B6 did not correct the anemia in either the father or daughter. Platelet abnormalities inherited jointly with this disorder are described for the first time. Both R.H. and his daughter had prolonged bleeding times, with normal PTT, PT times, fVIII:C, fVIII:Ag levels, and vWF multimers, which may rule out a von Willebrand's disease. They have normal platelet numbers but abnormally low platelet adhesiveness and greatly depressed ADP, collagen, and epinephrine responsiveness. Response to ristocetin was in the low normal range, and aggregation with thrombin was normal. While desmopressin completely normalized R.H.'s bleeding time, none of these platelet parameters were improved. No differences in the SDS PAGE protein patterns of RH platelets could be detected in comparison to normal samples. His platelets took up and released serotonin (5HT) normally, and electron micrographs defined no morphological abnormalities. However, no ATP was released from platelets activated with collagen, and when followed by thrombin about fourfold greater ATP was released by control platelets as compared to RH platelets. The dense granule fraction derived from RH platelets contained about 20% the level of ATP, 40% the level of ADP, and 50% the level of 5HT detected in a normal sample. The results indicate that the bleeding disorder is related to a non-classical heritable storage pool defect. The connection between the inherited sideroblastic anemia and platelet defects is obscure.
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PMID:Hereditary sideroblastic anemia with associated platelet abnormalities. 281 25

There is now considerable evidence to suggest that some aspects of early lesion formation and later lesion growth are a reaction to injury. Hemodynamic factors are important in determining the site of injury and may produce injury directly. Injury can lead to atherogenesis in animal models as well as in humans. Superficial injury exposes the subendothelium, allowing platelet adhesion, which at high shear rates is dependent on vWF. Platelet adhesion and degranulation release PDGF, which stimulates smooth muscle cell proliferation, synthetic functions, and vasoconstriction. LDL stimulates smooth muscle cell growth as well as damages endothelium in some experimental systems. Thus, a link is provided between platelet and lipid involvement in atherosclerosis. Direct evidence for a role of platelets in atherogenesis comes from studies in which animals were treated to reduce platelet number or function or in which platelet function is genetically impaired (pigs with von Willebrand's disease). In these models, reduced platelet function is associated with less atherosclerosis. Deeper injury exposes collagen, with subsequent platelet aggregation, thrombin and fibrin generation. The role of reduced production of PGI2 and fibrinolytic agents following severe damage is unknown. Deep injury to the vessel occurs during plaque fissuring, the pathologic process underlying most cases of myocardial infarction, unstable angina, and some cases of sudden death. Angioplasty produces amelioration of many patients' symptoms and is safe. However, acute occlusion occurs occasionally, and restenosis in the first year occurs in some 30 percent of patients treated. Angioplasty damages the arterial wall, with endothelial denudation and intimal and medial splitting. Why does this, and plaque injury, by stimulating platelet deposition, not produce more restenosis? Changes in arterial anatomy are likely to be important: the increase in vessel diameter and in blood flow produce conditions less favorable for thrombotic or arteriosclerotic restenosis.
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PMID:Role of platelets in atherogenesis: relevance to coronary arterial restenosis after angioplasty. 295 94

Activated protein C (APC) acts as a potent anticoagulant enzyme by inactivating Factor V and Factor VIII. In this study, protein S was shown to increase the inactivation of purified Factor VIII by APC ninefold. The reaction rate was saturated with respect to the concentration of protein S when protein S was present in a 10-fold molar excess over APC. The heavy chain of Factor VIII was cleaved by APC and protein S did not alter the degradation pattern. Factor VIII circulates in a complex with the adhesive protein von Willebrand factor. When purified Factor VIII was recombined with von Willebrand factor, the inactivation of Factor VIII by APC proceeded at a 10-20-fold slower rate as compared with Factor VIII in the absence of von Willebrand factor. Protein S had no effect on the inactivation of the Factor VIII-von Willebrand factor complex by APC. After treatment of this complex with thrombin, however, the actions of APC and protein S towards Factor VIII were completely restored. In hemophilia A plasma, purified Factor VIII associated with endogenous von Willebrand factor, resulting in a complete protection against APC (4 nM). By mixing hemophilic plasma with plasma from a patient with severe von Willebrand's disease, we could vary the amount of von Willebrand factor. 1 U of von Willebrand factor was needed to provide protection of 1 U Factor VIII. Also in plasma from patients with the IIA-type variant of von Willebrand's disease, Factor VIII was protected. In von Willebrand's disease plasma, which was depleted of protein S, APC did not inactivate Factor VIII. These results indicate that protein S serves as a cofactor in the inactivation of Factor VIII and Factor VIIIa by APC and that von Willebrand factor can regulate the action of these two anticoagulant proteins.
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PMID:Inactivation of human factor VIII by activated protein C. Cofactor activity of protein S and protective effect of von Willebrand factor. 297 73

Platelet-type von Willebrand's disease (vWD) is a bleeding disorder characterized by a heightened interaction between platelets and von Willebrand factor (vWF) as the result of an intrinsic platelet abnormality (probably in GPIb). Platelet aggregability was nearly normal in response to thrombin, wheat germ agglutinin and Ricinus communis agglutinin in this disorder. Unmodified platelets showed no aggregation upon the addition of peanut agglutinin. Partially purified human vWF induced little aggregation of washed patient platelets, but the aggregation was greatly enhanced in the presence of plasma devoid of vWF. Monoclonal antibodies directed against GPIb and GPIIb/IIIa as well as EDTA completely inhibited vWF-induced aggregation. These results indicate that human vWF induces aggregation of platelet-type vWD platelets in the presence of divalent cations and some plasma cofactor(s), and that both GPIb and GPIIb/IIIa are involved in this aggregation.
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PMID:Further studies on aggregation of platelet-type von Willebrand's disease platelets by human von Willebrand factor. 301 56

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