EC:3.4.21.6 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.6 (thromboplastin)
13,278 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The stimulation of platelets, activation of the coagulation cascade, release of platelet-derived vasoconstrictors, and endothelial dysfunction all contribute to the thrombotic vascular occlusion that results in myocardial infarction. Despite the importance of platelets in the initiation of this process, they are activated by multiple endogenous mediators. Thus, one might anticipate that redundancy in the system would confound the efficacy of antiplatelet drugs that were mediator-specific. The success of aspirin in clinical trials is likely to reflect the role of thromboxane A2 (TxA2) as an amplification signal for other platelet agonists. Activated platelets provide a substrate for assembly of the prothrombinase complex and both heparin and warfarin also reduce the mortality due to thrombotic vascular disease. The relative efficacy of these compounds versus aspirin and the safety of their combination, particularly in the setting of therapeutic thrombolysis, are under investigation. Novel antiplatelet agents, particularly those directed against the glycoprotein 11b/111a complex, are more potent than aspirin in animal models. Similarly, direct thrombin inhibitors seem superior to heparin. Whether such compounds can be administered safely in effective doses to humans is under study. It is hoped that the success of aspirin does not impede the clinical evaluation of theoretically more attractive antithrombotic drugs.
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PMID:Antiplatelet and anticoagulant drugs in coronary vascular disease. 134 4

Factor VIII is a cofactor in the tenase enzyme complex which assembles on the membrane of activated platelets. A critical step in tenase assembly is membrane binding of factor VIII. Platelet membrane factor VIII-binding sites were characterized by flow cytometry using either fluorescein maleimide-labeled recombinant factor VIII or a fluorescein-labeled monoclonal antibody against factor VIII. Following activation by thrombin, most platelets bound factor VIII within 90 s. In addition, over the course of several minutes, membranous vesicles (microparticles) were shed from the platelet plasma membrane and each microparticle bound as much factor VIII as a stimulated platelet. Over 30 min, stimulated platelets (but not microparticles) lost the capacity to bind factor VIII. Factor VIII bound saturably to microparticles from platelets stimulated with thrombin, thrombin plus collagen, or the complement proteins C5b-9. The binding of factor VIII was compared to factor V, a structurally homologous coagulation cofactor. Analysis of microparticle binding kinetics yielded similar on and off rates for factor VIII and factor Va and KD values of 2-10 nM. In the presence of 20 nM factor Va, the binding of factor VIII to microparticles was increased, and there was a comparable increase in platelet tenase activity. At higher factor Va concentrations, factor VIII binding and tenase activity were inhibited. Conversely, factor VIII had a similar dose-dependent effect on factor Va binding and platelet prothrombinase activity. Synthetic phospholipid vesicles containing phosphatidylserine competed with microparticles for binding of factor VIII and factor Va. These studies indicate that activated platelets express a transient increase in high affinity receptors for factor VIII, whereas platelet-derived microparticles express a sustained increase in receptors. The binding characteristics of platelet membrane receptors for factor VIII are similar to those for factor Va.
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PMID:Platelet-derived microparticles express high affinity receptors for factor VIII. 165 28

We have shown recently that the calcium-dependent phospholipid-binding protein annexin V (placental anticoagulant protein I) can be used to study the exposure of anionic phospholipid after platelet activation. In this study we have further examined the mechanism of this process. Collagen-induced exposure of annexin V binding sites correlated directly with increased ability to support activity of the reconstituted prothrombinase complex. The potency of annexin V as an inhibitor of platelet prothrombinase was the same as its Kd for platelets. Prior incubation of platelets with 5'-p-fluorosulfonylbenzoyladenosine or p-chloromercuribenzenesulfonate had no significant effect on annexin V binding. Similarly, inhibition of platelet cyclic endoperoxide synthesis by acetylsalicylic acid or indomethacin did not inhibit annexin V binding. Staurosporine inhibited collagen-induced, but not A23187-induced, annexin V binding. Agents that increase intraplatelet cyclic nucleotides partially inhibited collagen-induced annexin V binding. Thus, collagen-induced exposure of anionic phospholipid appears to depend primarily on increases in intraplatelet free calcium and may be independent of ADP- or endoperoxide-mediated pathways. Binding sites for annexin V on microparticles derived from collagen-stimulated platelets were demonstrated by flow cytometry and gel filtration. In addition, prior incubation of platelets with 100 nM annexin V inhibited factor Va binding to both platelets and platelet-derived microparticles. These results support the concept that the procoagulant effect of platelets and platelet-derived microparticles is mediated by calcium-induced exposure of anionic phospholipids.
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PMID:Collagen-induced exposure of anionic phospholipid in platelets and platelet-derived microparticles. 166 6

The relative abilities of platelet-derived membranes and synthetic phospholipid vesicles to enhance the prothrombinase-catalyzed conversion of prothrombin to thrombin have been determined. For each type of membrane, the maximum amount of thrombin formed as a function of amount of available lipid was measured using a chromogenic substrate assay. The lipid concentration at which the amount of thrombin formed began to exceed that formed in the absence of lipid (critical phospholipid concentration) was used to compare the surfaces' abilities to support thrombin formation. For platelet-derived membranes and for equimolar, charged-lipid/phosphatidylcholine (PC) vesicles, the critical concentrations increased in the following order: platelet-derived membranes approximately equal to phosphatidylserine (PS) approximately equal to phosphatidic acid (PA) less than monomethyl PA and monoethyl PA much less than phosphatidylinositol and phosphatidylglycerol. For mixed anionic/neutral lipid vesicles above their phase transitions, measured critical concentrations were relatively insensitive to changes in lipid acyl chains, the neutral lipid component, and membrane curvature but were sensitive to changes in the anionic lipid content of the mixtures. Comparison of these data suggested that equimolar PS/PC and PA/PC vesicles can emulate reasonably well the thrombin-generating ability of platelet-derived membranes.
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PMID:Comparison of the abilities of synthetic and platelet-derived membranes to enhance thrombin formation. 408 7

Platelets are able to stimulate an increase in two distinct activities, tissue factor (thromboplastin) and fibrinolytic inhibition, in human fibroblasts in vitro. A procedure has been developed which allows the purification of a platelet macromolecule which is able to stimulate both of these changes. Washed human platelets were homogenized, sonicated, and then centrifuged at 90,000 x g for 2 h. The resulting pellet was solubilized in 0.05 M sodium carbonate, pH 10.5, and chromatographed on Sephadex G-200, then on hydroxylapatite, resulting in a 135-fold purification and a 20% yield. When the purified material was further fractionated on sodium dodecyl sulfate-polyacrylamide gels, stimulatory activity for both tissue factor and fibrinolytic inhibition was found only in the 75,000-dalton region. The active material could be inactivated by mercaptoethanol with no change in its apparent molecular weight. It was readily inactivated by trypsin with the concomitant loss of the 75,000-dalton Coomassie-staining band. Assay of the purified material for carbohydrate was negative. After isoelectric focusing, the purified material had a major band at pH 5.8 which stimulated both tissue factor and fibrinolytic inhibition. Subcellular fractionation of platelet homogenates by sucrose density gradient centrifugation resulted in a 2-fold increase in stimulatory material in the granule/mitochondrial fraction. This platelet-derived protein may represent a physiologically important regulator for both cellular procoagulant and the net fibrinolytic activity of systemic cells.
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PMID:Purification of a platelet protein which stimulates fibrinolytic inhibition and tissue factor in human fibroblasts. 711 21

Activated platelets and platelet-derived microvesicles demonstrate procoagulant properties. It is known that following stimulation, negatively charged phospholipids and factor Va become located on their surfaces. The aim of this study was to see whether activated platelets and platelet-derived microvesicles also expressed some factor Xa activity on their surfaces in a system where factor Xa did not come from external sources. In order to study this question, flow cytometry, as well as the use of a chromogenic substrate to factor Xa and a clotting assay in a factor X depleted plasma, were applied. A prothrombinase assay was also applied using prothrombin, CaCl2 and a chromogenic substrate to thrombin. The platelets were gel-filtered or washed, suspended in Tris-buffered saline, and activated by calcium ionophore A23187 or the thrombin receptor agonist peptide SFLLRN. Microvesicles and activated platelets were separated by centrifugation. Flow cytometry using a monoclonal antibody against factor Xa demonstrated the presence of factor Xa on the surface of the activated platelets. In addition, platelet-derived microvesicles and activated platelets demonstrated factor Xa activity on their surfaces detected directly by splitting of the chromogenic substrate to factor Xa, or by the prothrombinase assay. The thrombin generation in the last assay could be inhibited by a selective factor Xa inhibitor (recombinant tick anticoagulant peptide (rTAP)), soybean trypsin inhibitor, and antithrombin III plus LMW-heparin, all inhibiting at the factor Xa level, as well as by leupeptin which also inhibited the thrombin-chromogenic substrate interaction as such.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Platelet-derived microvesicles and activated platelets express factor Xa activity. 754 77

We used flow cytometry to investigate surface membrane protein expression by platelets and platelet-derived microparticles from normal individuals and a patient with Glanzmann's thrombasthenia. Microparticles were detected by both forward scatter and side scatter using FACScan. The binding of coagulation factors on microparticles was investigated by using monoclonal anti-Factor IX (IXa) and anti-Factor X (Xa) antibodies. Furthermore, the procoagulant activity of microparticles was measured with a chromogenic substrate (S-2222) using a microtiter enzyme-linked immunosorbent assay. Both types of platelets showed similar release of microparticles. Microparticles released from platelets after activation with the calcium ionophore A23187 did not bind factors IXa and Xa, but when purified factors Va and Xa were added to the incubation buffer, factor Xa binding increased markedly in both normal and thrombasthenic platelets. Both normal and thrombasthenic platelets showed a similar time-dependent release of microparticles when activated with A23187. However, the binding of an antibody to granule membrane protein-140 also increased time-dependently in normal microparticles, but was little increased in thrombasthenic microparticles. These findings suggest that glycoprotein IIb/IIIa does not participate in the expression of prothrombinase activity on the surface of activated platelets and microparticles, whereas this glycoprotein appears to have an important role in the movement of granule membrane protein-140 from platelets to microparticles.
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PMID:Flow cytometric analysis of surface membrane proteins on activated platelets and platelet-derived microparticles from healthy and thrombasthenic individuals. 814 98

We have recently described the in vitro mechanism of action of anticardiolipin (aCL) and lupus anticoagulant (LA) antibodies in patients with the antiphospholipid syndrome. LA antibodies inhibit coagulation reactions in plasma because they appear to recognize the complex of lipid-bound (human) prothrombin, whereas aCL antibodies require beta 2-glycoprotein I (beta 2-GPI) for binding to anionic phospholipids. aCL antibodies can be divided into two subgroups, according to their behaviour in lipid-dependent coagulation reactions: aCL-type A enhances the anti-coagulant effect of beta 2-GPI, whereas aCL-type B does not. In the present study we investigated the effect of purified aCL-type A and B and of LA antibodies on the procoagulant activity of both Ca-ionophore activated platelets and platelet-derived microvesicles, using an assay system with highly purified bovine coagulation factors Xa, Va, and prothrombin from human and bovine origin. In the absence of beta 2-GPI neither type of aCL was able to inhibit the prothrombinase activity of platelets or microvesicles. However, a strong and dose-dependent inhibition of the prothrombinase activity of both platelets and platelet-derived microvesicles was observed within a few minutes, when aCL-type A antibodies were added in combination with beta 2-GPI. This inhibitory effect was dependent also on the concentration of beta 2-GPI. Conversely, no inhibitory effect of aCL-type B antibodies on platelet- (or microvesicle) prothrombinase activity in the presence of beta 2-GPI could be observed. LA antibodies were able to inhibit in a dose-dependent way the procoagulant activity of activated platelets and platelet-derived microvesicles. With two LA preparations this inhibition was only apparent when human prothrombin was used as substrate, while a third preparation exhibited its inhibitory effect both in the presence of human and bovine prothrombin. The data indicate that, in the presence of their respective cofactors beta 2-GPI and prothrombin, aCL and LA antibodies interact with the membrane of activated platelets and platelet-derived microvesicles in a very similar way as previously observed for their interaction with anionic phospholipid surfaces.
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PMID:Effect of antiphospholipid antibodies on procoagulant activity of activated platelets and platelet-derived microvesicles. 813 94

Seventy-four patients with PSS were evaluated with regard to plasma concentration of blood coagulation and fibrinolysis factors: fibrinogen (Fbg), prothrombin time (PT), active partial thromboplastin time (APTT), protein C, thrombin-antithrombin III complex (TAT), antithrombin-III (AT-III), factor XIII (XIII) fibrinopeptide A (FPA), alpha 1-antitrypsin (alpha 1-AT), plasminogen (Pmg), alpha 2-plasmin inhibitor plasmin complex (PIC), alpha 2-plasmin inhibitor (alpha 2-PI), alpha 2-macroglobulin (alpha 2-MG), fibrinopeptide B beta 15-42 (FPB beta-15-42) and soluble fibrin monomer complex (SFMC), FDP (fibrin degradation product) and D-dimer. They were also evaluated with regard to platelet-derived proteins: beta-thromboglobulin (beta-TG), platelet factor 4 (PF4), thromboxane B2 and 6-keto-prostaglandin F1 alpha (6KF). In the coagulation/fibrinolysis systems high plasma levels of TAT, AT-III, FPA, alpha 2-MG and FPB beta 15-42 could be demonstrated in more than 50% of total PSS patients. There was no statistical correlation between those of TAT and AT-III. Plasma levels of PIC, D-dimer, FDP and SFMC were not always high. There was no statistical correlation between those of TAT and PIC. These data lead us to consider that alpha 2-MG may play an important role for inhibiting PIC, which accelerates the conversion from fibrin into FDP. Subsequently, there were high plasma levels of FPB beta 15-42 converted from fibrin monomer. These data seem to be indicative of an involvement of coagulation and platelet disorder in PSS. These platelet-vessel system disorders might be closely related to the pathophysiology of PSS.
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PMID:Plasma levels of molecular markers of blood coagulation and fibrinolysis in progressive systemic sclerosis (PSS). 878 74

To study platelet-derived microparticle generation in diabetes mellitus, we injected alloxan into male Japanese white rabbits. Injection of alloxan induced diabetes, but did not cause any significant change in various biochemical and hematological parameters. However, diabetic rabbits showed a significant elevation of platelet-derived microparticles from 8 weeks after alloxan injection (week 0: 0.45 +/- 0.24%; week 8: 1.12 +/- 0.61%, p < 0.005). These microparticles are known to have prothrombinase activity, suggesting that they may promote vascular complications in diabetes and may be used as a marker of vascular disease.
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PMID:Platelet-derived microparticles in alloxan-induced diabetes in rabbits. 887 35

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