Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Activation of human platelets by complement proteins C5b-9 is accompanied by the release of small plasma membrane vesicles (microparticles) that are highly enriched in binding sites for coagulation factor Va and exhibit prothrombinase activity. We have now examined whether assembly of the prothrombinase enzyme complex (factors VaXa) is directly linked to the process of microparticle formation. Gel-filtered platelets were incubated without stirring with various agonists at 37 degrees C, and the functional expression of cell surface receptors on platelets and on shed microparticles was analyzed using specific monoclonal antibodies and fluorescence-gated flow cytometry. In addition to the C5b-9 proteins, thrombin, collagen, and the calcium ionophore A23187 were each found to induce formation of platelet microparticles that incorporated plasma membrane glycoproteins GP Ib, IIb, and IIIa. These microparticles were enriched in binding sites for factor Va, and their formation paralleled the expression of catalytic surface for the prothrombinase enzyme complex. Little or no microparticle release or prothrombinase activity were observed when platelets were stimulated with epinephrine and ADP, despite exposure of platelet fibrinogen receptors by these agonists. When platelets were exposed to thrombin plus collagen, the shed microparticles contained activated GP IIb-IIIa complexes that bound fibrinogen. By contrast, GP IIb-IIIa incorporated into C5b-9 induced microparticles did not express fibrinogen receptor function. Platelets from a patient with an isolated defect in inducible procoagulant activity (Scott syndrome) were found to be markedly impaired in their capacity to generate microparticles in response to all platelet activators, and this was accompanied by a comparable decrease in the number and function of inducible factor Va receptors. Taken together, these data indicate that the exposure of the platelet factor Va receptor is directly coupled to plasma membrane vesiculation and that this event can be dissociated from other activation-dependent platelet responses. Since a catalytic membrane surface is required for optimal thrombin generation, platelet microparticle formation may play a role in the normal hemostatic response to vascular injury.
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PMID:Assembly of the platelet prothrombinase complex is linked to vesiculation of the platelet plasma membrane. Studies in Scott syndrome: an isolated defect in platelet procoagulant activity. 279 43

Antibody against a membrane inhibitor of the C5b-9 complex has been used to investigate regulatory control of the terminal complement proteins on blood platelets. Monospecific rabbit antibody (alpha-P18) was raised against the purified 18-kDa erythrocyte membrane inhibitor of C5b-9 (Sugita, Y., Nakano, Y., and Tomita, M. (1988) J. Biochem. (Tokyo) 104, 633-637). In addition to its interaction with erythrocytes, this antibody (and its Fab) bound specifically to platelet membranes. In immunoblots of cell membrane proteins prepared under non-reducing conditions, alpha-P18 bound specifically to an 18-kDa erythrocyte membrane protein and to a 37-kDa platelet membrane protein. Absorption of this antibody by platelet membranes competed its binding to the purified 18-kDa erythrocyte protein, suggesting that epitopes expressed by the erythrocyte 18-kDa C5b-9 inhibitor are common to the platelet. When bound to the platelet surface, the Fab of alpha-P18 increased C9 activation by membrane C5b-8, monitored by exposure of a complex-dependent C9 neo-epitope. Although alpha-P18 caused little increase in the cytolysis of platelets treated with C5b-9 (total release of lactate dehydrogenase less than 5%), it markedly increased the cell stimulatory responses induced by these complement proteins, including, secretion from platelet alpha- and dense granules, conformational activation of cell surface GP IIb-IIIa, release of membrane microparticles from the platelet surface, and exposure of new membrane binding sites for components of the prothrombinase enzyme complex. Prior incubation of C5b67 platelets with 100 micrograms/ml alpha-P18 (Fab) lowered by approximately 10-fold the half-maximal concentration of C8 required to elicit each of these responses (in the presence of excess C9). Incubation with alpha-P18 (Fab) alone did not activate platelets, nor did incubation with this antibody potentiate the stimulatory responses of platelets exposed to other agonists. These data indicate that a membrane inhibitor of the C5b-9 complex normally serves to attenuate the procoagulant responses of blood platelets exposed to activated complement proteins, and suggest the mechanism by which a deletion or inactivation of this cell surface component would increase the risk of vascular thrombosis.
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PMID:Regulatory control of complement on blood platelets. Modulation of platelet procoagulant responses by a membrane inhibitor of the C5b-9 complex. 280 22

We have investigated the composition and function of membrane microparticles released from platelets exposed to the C5b-9 proteins of the complement system. Gel-filtered human platelets were incubated with sub-lytic amounts of the purified C5b-9 proteins and the distribution of surface antigens was analyzed using monoclonal antibodies and flow cytometry. C5b-9 assembly caused secretory fusion of the alpha-granule membrane with the plasma membrane and the release of membrane vesicles (approximately 0.1-micron diameter) that contained the plasma membrane glycoproteins (GP) GP Ib and GP IIb-IIIa as well as the alpha-granule membrane protein GMP-140. These microparticles were highly enriched in the C9 neoantigen of the C5b-9 complex. The apparent surface density of C5b-9 on the microparticles was approximately 10(3)-fold higher than on the platelet itself, suggesting that the vesicles were selectively shed from the plasma membrane at the site of C5b-9 insertion. C5b-9 induced the expression of an activation-dependent epitope (recognized by monoclonal antibody, PAC1) in GP IIb-IIIa on the platelet surface but not in GP IIb-IIIa on the microparticles. The surface of the microparticles was also highly enriched in alpha-granule-derived coagulation factor V (or Va), accounting for nearly half of all the membrane-bound factor V detected. The number of potential membrane binding sites for factor Va was probed by adding saturating concentrations of factor Va light chain. Under these conditions, the density of factor Va binding sites on the microparticle surface exceeded that on the C5b-9-treated platelet by three to four orders of magnitude. Moreover, the microparticles provided most of the membrane surface for conversion of prothrombin to thrombin by VaXa. These studies demonstrate that the microparticles shed by C5b-9-treated platelets (and not the platelets themselves) provide the principal binding sites for coagulation factor Va and the principal catalytic surface for the prothrombinase complex. Platelet-derived microparticles formed during complement activation in vivo could provide a membrane surface that facilitates the assembly and dissemination of procoagulant enzyme complexes.
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PMID:Complement proteins C5b-9 cause release of membrane vesicles from the platelet surface that are enriched in the membrane receptor for coagulation factor Va and express prothrombinase activity. 284 29

The role of the platelet glycoprotein IIb/IIIa (GPIIb/IIIa) receptor and the efficacy of GPIIb/IIIa receptor antagonists on reocclusion after arterial versus venous thrombolysis is unknown. We used a canine model of simultaneous carotid artery and jugular vein thrombosis to evaluate the effect of the murine monoclonal antibody 7E3 [7E3 F(ab')2] on intravascular thrombotic reocclusion after thrombolysis in both vessels. The left carotid artery and right jugular vein were instrumented with flow probes, a critical stenosis, and an electrode through which an anodal current was applied to induce formation of an occlusive thrombus. After persistent occlusion of both vessels, 7E3 (0.8 mg/kg, n = 7) or saline (n = 10) was administered intravenously (i.v.) immediately after the local administration of anisolylated plasminogen streptokinase activator complex (APSAC, 0.1 U/kg). Ex vivo platelet aggregation in response to ADP or arachidonic acid was inhibited completely, and bleeding time was increased threefold by 7E3. The administration of 7E3 did not affect the activated partial thromboplastin time as compared with control values. The time to reperfusion of either vessel was not altered significantly in the presence of 7E3. Arterial or venous thrombolysis after APSAC was achieved in 10 of 10 and 8 of 10 control animals, respectively, but rethrombosis occurred in both the carotid artery and jugular vein in each of the saline-treated animals. Treatment with 7E3 prevented cyclic flow variations and reocclusion in the carotid artery (p < 0.05) in all treated animals (n = 7). In contrast, 7E3 did not suppress cyclic flow variations in the jugular vein, and rethrombosis occurred in five of six vessels despite the presence of platelet inhibition as assessed ex vivo. Residual arterial thrombus weights were reduced by pretreatment with 7E3 (saline = 24 +/- 4 mg, 7E3 = 11 +/- 3 mg; p < 0.05), whereas residual venous thrombus weights were not affected (saline 25 +/- 5 mg and 7E3 26 +/- 11 mg). The results indicate that inhibition of the platelet GPIIb/IIIa receptor does not prevent jugular vein rethrombosis despite its ability to prevent rethrombosis in the carotid artery. Different thrombotic mechanisms are involved in forming arterial and venous thrombi. Interventions that modulate arterial thrombotic events need not affect occlusive thrombotic activity in the venous circulation.
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PMID:Monoclonal antibody [7E3 F(ab')2] prevents arterial but not venous rethrombosis. 747 49

Despite their widespread use in patients with acute myocardial infarction, all currently available thrombolytic agents suffer from a number of significant limitations, including resistance to reperfusion, the occurrence of acute coronary reocclusion, and bleeding complications. Several lines of research towards improvement of thrombolytic therapy are being explored, including strategies to enhance the fibrinolytic potency of plasminogen activators and to improve conjunctive antiplatelet or antithrombotic agents. Mutants and variants of plasminogen activators, chimeric plasminogen activators, and conjugates of plasminogen activators with monoclonal antibodies have been constructed, and plasminogen activators from animal or bacterial origin have been evaluated. Some of these new thrombolytic agents have shown promise in animal models of venous or arterial thrombosis and in pilot studies in patients with acute myocardial infarction. Such molecules include mutants of tissue-type plasminogen activator (t-PA) with prolonged half-life and/or resistance to protease inhibitors and staphylokinase. Antiplatelet strategies include the use of platelet glycoprotein IIb/IIIa receptor blocking agents, of thromboxane synthase inhibitors and endoperoxide receptor antagonists. Antithrombotic strategies include the use of selective inhibitors of thrombin, tissue factor or factor Xa. The efficiency and safety of these new agents in man will have to be carefully evaluated.
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PMID:New thrombolytic agents and strategies. 754 72

Platelet activation plays a critical role in thromboembolic disorders, and aspirin remains a keystone in preventive strategies. This remarkable efficacy is rather unexpected, as aspirin selectively inhibits platelet aggregation mediated through activation of the arachidonic-thromboxane pathway, but not platelet aggregation induced by adenosine diphosphate (ADP), collagen and low levels of thrombin. This apparent paradox has stimulated investigations on the effect of aspirin on eicosanoid-independent effects of aspirin on cellular signalling. It has also fostered the search for antiplatelet drugs inhibiting platelet aggregation at other levels than the acetylation of platelet cyclo-oxygenase, such as thromboxane synthase inhibitors and thromboxane receptor antagonists. The final step of all platelet agonists is the functional expression of glycoprotein (GP) IIb/IIIa on the platelet surface, which ligates fibrinogen to link platelets together as part of the aggregation process. Agents that interact between GPIIb/IIIa and fibrinogen have been developed, which block GPIIb/IIIa, such as monoclonal antibodies to GPIIb/IIIa, and natural and synthetic peptides (disintegrins) containing the Arg-Gly-Asp (RGD) recognition sequence in fibrinogen and other adhesion macromolecules. Also, some non-peptide RGD mimetics have been developed which are orally active prodrugs. Stable analogues of prostacyclin, some of which are orally active, are also available. Thrombin has a pivotal role in both platelet activation and fibrin generation. In addition to natural and recombinant human antithrombin III, direct antithrombin III-independent thrombin inhibitors have been developed as recombinant hirudin, hirulog, argatroban, boroarginine derivatives and single stranded DNA oligonucleotides (aptanes). Direct thrombin inhibitors do not affect thrombin generation and may leave some 'escaping' thrombin molecules unaffected. Inhibition of factor Xa can prevent thrombin generation and disrupt the thrombin feedback loop that amplifies thrombin production.
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PMID:Novel antithrombotic drugs in development. 764 2

Cytotoxic drugs may potentiate the thrombotic complications in patients with malignancies and platelet function abnormalities have been reported after initiation of cisplatin therapy. This report describes a prolonged activation of platelets over 6-24 h co-culture with peripheral blood mononuclear cells (PBM) by pharmacological doses of cisplatin. Cisplatin had no direct effect on platelets and depended on PBM to produce aggregation which was apparently not mediated by products of the cyclooxygenase or lipoxygenase pathways, by platelet activation factor (PAF) or by thrombin. Although platelet aggregation normally involves the binding of fibrinogen to the beta 3 integrin, GP IIb-IIIa, on activated platelets, the cisplatin-dependent platelet aggregation observed in the co-culture experiments was not inhibited by an anti-GP IIb-IIIa monoclonal antibody which blocks fibrinogen-dependent aggregation nor by an adhesive peptide containing the RGDS integrin recognition sequence. Rather, aggregation appeared to involve a novel 140 kD granule membrane protein (GMP-140) mediated mechanism since aggregation was almost completely blocked by Fab fragments of an antibody to GMP-140 and was inhibited by fluid-phase GMP-140. At concentrations of cisplatin, adriamycin, and LPS that induced equivalent levels of tissue factor of blood monocytes, prothrombinase activity was significantly greater in cultures containing cisplatin. Prothrombinase activity was dependent on the presence of platelets and the rate of thrombin formation was enhanced by factor Xa generated by the tissue factor-factor VIIa complex. These studies suggest that the vascular and thrombotic complications associated with cisplatin therapy are mediated, at least in part, by platelet activation and aggregation and monocyte procoagulant activity.
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PMID:Cisplatin-induced platelet activation requires mononuclear cells: role of GMP-140 and modulation of procoagulant activity. 768 17

Prothrombinase complex assembly, in real time, on platelets adherent to immobilized von Willebrand Factor (vWf) was examined by total internal reflection fluorescence spectroscopy (TIRFS). Electron microscopy showed that the platelets adhered to vWf in a largely unactivated state and could be activated by thrombin. Antibody binding to glycoprotein (GP) Ib and functional GPIIb-IIIa receptor molecules on adherent platelet membranes monitored by TIRFS also indicated that platelets adhered in a largely unactivated state. Maximal expression of the receptor form of GPIIb-IIIa detected by antibody binding was seen only after thrombin stimulation of the adherent platelets. Antibody binding to GPIb was detected on adherent platelets. A reduction in antibody binding was observed after thrombin stimulation of the platelets, indicating a change in GPIb as a consequence of thrombin stimulation of the platelets. The binding of the protein components of the prothrombinase complex to adherent and thrombin-stimulated adherent platelets was then studied individually. Factor Va bound to adherent and thrombin-stimulated adherent platelets was then studied individually. Factor Va bound to adherent and thrombin-stimulated adherent platelets with an estimated Kd of 58 nmol/L. Minimal factor Xa binding was observed on adherent platelets before thrombin stimulation. Factor Xa binding was, however, readily observed on thrombin-stimulated adherent platelets. This factor Xa binding was not saturable, and no Kd value could be estimated. Direct measurement of prothrombinase complex assembly was demonstrated by using an energy transfer phenomenon between fluorescein-labeled factor Va and rhodamine-labeled factor Xa. Prothrombinase complex assembly was observed on both adherent and thrombin-stimulated adherent platelets. The estimated Kd for the factor Va/factor Xa interaction was 4 nmol/L. TIRFS demonstrated that adherent platelets have the ability to support prothrombinase complex assembly, as shown by a direct energy transfer reaction between fluorescently labeled factors Va and Xa.
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PMID:The assembly of the prothrombinase complex on adherent platelets. 821 1

Patients with acute myocardial infarction who undergo thrombolytic therapy may shortly thereafter present evidence for increased platelet activation and thrombin activity, and recurrent thrombosis. This study investigated whether plasmin activates platelets and prothrombin in recalcified platelet-rich plasma (RPRP) to cause (at least in part) these side-effects of thrombolytic therapy. Plasmin (0.1 and 1.0 CU/ml) addition to RPRP with microM r-tick anticoagulant peptide (the latter a factor Xa inhibitor which abrogates prothrombin activation by prothrombinase at the concentration used) resulted in no change in the concentration of prothrombin fragment 1 + 2, or in the expression of GMP-140, the resting and activated GP IIb-IIIa conformers, and GPIb on platelets. Thus, plasmin neither activates platelets nor prothrombin in RPRP. However, plasmin accelerated platelet activation and secretion, and prothrombin fragment 1 + 2 production in RPRP. When combined with 1 microM r-tick anticoagulant peptide and 1 or 10 mM alpha-thrombin to RPRP, plasmin also increased the number of GMP-140 molecules expressed/platelet without enhancing alpha-thrombin binding to the platelets. Additionally, plasmin accelerated prothrombin activation when it was added to washed platelets resuspended in factor V depleted plasma simultaneously with 10 mM CaCl2, 10 nM alpha-thrombin for 10 s (to activate platelets and platelet factor V), followed by 4 microM hirudin and 1 nM factor Xa. Thus, plasmin potentiates the platelet release reaction in response to alpha-thrombin (probably by increasing the availability of factor V on the platelets) to enhance prothrombin activation in RPRP. These actions of plasmin may contribute to the increased platelet activation and thrombotic side-effects that can occur after thrombolytic therapy.
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PMID:Plasmin accelerates platelet-dependent prothrombinase formation without activating the platelets. 860 17

The procoagulant activity of platelets induced by collagen, thrombin, and collagen plus thrombin, measured as their capacity to promote the conversion of prothrombin to thrombin in the presence of factors Va and Xa, was studied in patients with alpha, alpha delta, and delta storage pool deficiency (SPD), thrombasthenia, and in two new patients with isolated defects in platelet coagulant activity, and compared with that in Scott syndrome. The most significant abnormality in the new patients, whose defect may differ from that in Scott syndrome, is an impairment in collagen plus thrombin-induced prothrombinase activity in the absence of added factor Va. In one of these patients this may be caused by an abnormality in platelet alpha-granule factor V distinct from that described for factor V Quebec, alpha delta-SPD, or alpha-SPD (gray platelet syndrome). Prothrombinase activity in response to all agonists was impaired in delta-SPD and was associated with an inability of these platelets to maintain elevated intracellular calcium levels. Both the rapid decline in agonist-induced [Ca2+]i levels and the impaired prothrombinase activation in delta-SPD platelets were corrected by the addition of adenosine diphosphate (ADP) after stimulation. These findings suggest that secreted ADP may play an important role in the generation of prothrombinase activity by contributing to the maintenance of a critical [Ca2+]i level necessary to maintain aminophospholipids on the outer surface of the platelet membrane, and provide evidence that dense granules may be a major source of ADP which can contribute to calcium influx in stimulated platelets. Parallel alterations, including both increases and decreases, in the [Ca2+]i and prothrombinase responses were also observed in thrombasthenia, depending on the agonist and stirring conditions. Both responses were increased in collagen-stimulated, unstirred platelets, whereas an inability to maintain increased [Ca2+]i levels, associated with decreased prothrombinase activity in all but one atypical patient, was seen in stirred collagen plus thrombin-activated platelets. Although the parallel alterations in these responses in thrombasthenia, as in SPD, further show the close association between the generation of prothrombinase activity and the maintenance of increased intracellular Ca2+ levels, the specific role that GPIIb-IIIa may play in both these events remains unresolved. Our findings of both enhancement and inhibition of these activation-related events in thrombasthenic platelets may be related to previous conflicting reports on the promotion or inhibition of fibrin formation by GPIIb-IIIa, and could be relevant to the use of specific inhibitors of GPIIb-IIIa as antithrombotic agents. In addition, the study provides further support for the concept that the development of agents that could induce a Scott syndrome defect in normal platelets may provide a new approach to antithrombotic therapy.
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PMID:Platelet prothrombinase activity and intracellular calcium responses in patients with storage pool deficiency, glycoprotein IIb-IIIa deficiency, or impaired platelet coagulant activity--a comparison with Scott syndrome. 905 42


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