Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.5 (thrombin)
 33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Purified human platelets were found to contain a collagenase inhibitor that is immunologically, functionally, and chromatographically identical to that produced by human skin fibroblasts. None of the other formed elements of the blood (erythrocytes, granulocytes, mononuclear cells) possessed detectable quantities of this protein. Virtually all the collagenase inhibitor contained within platelets was released following platelet activation with thrombin. Similarly, platelet activation accompanying blood clotting also resulted in the release of this protein, the ratio of plasma to serum inhibitor levels being approximately equal to 0.5. When platelets were subjected to subcellular fractionation, essentially all of the platelet-associated collagenase inhibitor was found to be located in the alpha-granule. Studies with radiolabeled inhibitor failed to detect uptake of inhibitor by platelets. Furthermore, immunologically reactive protein of similar quantity to that found in platelets was identified in human megakaryocyte lysates. Thus, the data suggest that the collagenase inhibitor is endogenously produced and stored within platelet alpha-granules. The platelet-derived collagenase inhibitor was antigenically identical to the collagenase inhibitor from human skin fibroblasts in double immunodiffusion and, like its fibroblast counterpart, inhibited collagenase on a 1:1 stoichiometric basis. When subjected to several of the chromatographic procedures utilized to purify the fibroblast protein, the platelet inhibitor behaved in an indistinguishable manner. Platelet factor 4, previously reported to be a collagenase inhibitor, was found to be immunologically unrelated to the platelet-derived collagenase inhibitor. Furthermore, platelet factor 4 displayed no collagenase inhibitory activity. Although the function of platelet-derived collagenase inhibitor is unknown, such a protein released by activated platelets may serve to regulate collagen turnover during the early stages of the inflammatory process.
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PMID:Platelet-derived collagenase inhibitor: characterization and subcellular localization. 298 37

Considerable evidence indicates that the glycoprotein (GP) IIb/IIIa complex on human platelets functions as a receptor for fibrinogen, but little is known about the mechanism of receptor "exposure." To investigate this mechanism, our previously described murine monoclonal antibody (10E5) and a new monoclonal antibody (7E3), both of which block the binding of fibrinogen to platelets and bind to GPIIb and/or GPIIIa, were radiolabeled and their rates of binding to native and ADP-activated platelets were studied. At low concentrations, 125I-10E5 bound nearly equally rapidly to both native and activated platelets, whereas 125I-7E3 bound slowly to native platelets and much more rapidly to activated platelets. This increased rate of 7E3 binding is unlikely to be due to an increase in the number of GPIIb/IIIa sites on the surface of activated platelets because: (a) the rate of 10E5 binding was unchanged; (b) the total number of surface GPIIb/IIIa sites increased by only 2-10% with activation as judged by equilibrium binding of near-saturating concentrations of 10E5 and 7E3, and (c) there was less than 1% release of platelet factor 4 with activation, indicating minimal fusion of alpha-granule membranes (a potential source of GPIIb/IIIa) with the plasma membrane. Other activators (epinephrine, thrombin, and ionophore A 23187) also increased the rate of 7E3 binding, as did digestion of platelets with chymotrypsin. Aspirin did not affect the rate of binding of 7E3, whereas apyrase, prostaglandin E1, and dibucaine all inhibited the enhancement of the 7E3-binding rate produced by ADP. These data provide evidence for an activation-dependent change in the conformation and/or microenvironment of the GPIIb/IIIa complex, and offer a method of studying the receptor exposure mechanism that does not rely on the binding of fibrinogen itself.
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PMID:A new murine monoclonal antibody reports an activation-dependent change in the conformation and/or microenvironment of the platelet glycoprotein IIb/IIIa complex. 299 35

The action of AD6 was tested in vitro on human platelets by measuring beta-thromboglobulin (BTG), platelet factor 4 (PF4) and thromboxane B2 (TXB2) release as well as aggregation. BTG and PF4 release from blood anticoagulated with sodium citrate was inhibited by AD6 during a 3 h incubation. Platelet rich plasma (PRP) was stimulated with ADP, collagen, sodium arachidonate, PAF, A23187 and epinephrine, while resuspended washed platelets (WP) were stimulated by thrombin. AD6 (5-100 microM) inhibited dose dependently aggregation, BTG, PF4 and TXB2 release induced by threshold concentration of all the tested aggregating agents; however AD6 action could be overcome by increasing the concentration of the stimulating agents. After cyclo-oxygenase blockade by acetylsalicylic acid (ASA), PRP was stimulated by a supramaximal concentration of PAF. Under these circumstances we could observe a reversible aggregation and a partial release of BTG and PF4, AD6 was able to further reduce aggregation and release. Cyclic AMP accumulation induced in WP by prostacyclin was not modified by AD6 (100 microM), while theophylline greatly potentiated prostacyclin action. We conclude that AD6 is an inhibitor of platelet activation in vitro. Its mode of action is different from cyclo-oxygenase blockade and provides inhibition of platelet activation by a number of different stimuli.
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PMID:Action of AD6 (8-monochloro-3-beta-diethylaminoethyl-4-methyl-7-ethoxycarbonylmet hox y coumarin) on human platelets in vitro. 301 75

Platelet factor 4 is a polypeptide constituent of platelet alpha granules that is released during platelet aggregation and inhibits heparin-mediated reactions. Hageman factor (factor XII) is a plasma proenzyme that, when activated by certain negatively charged agents, initiates clotting via the intrinsic pathway of thrombin formation. In earlier studies using crude systems, platelet factor 4 inhibited activation of Hageman factor by dextran sulfate or cerebrosides, but not activation of Hageman factor by kaolin or ellagic acid. In the present study we examined the mechanisms of inhibition by platelet factor 4, using purified reagents. Platelet factor 4 inhibited activation of Hageman factor by ellagic acid, as measured by amidolysis of a synthetic substrate of activated Hageman factor, an effect inhibited by heparin or by an anti-platelet factor 4 antiserum. Coating glass tubes with platelet factor 4 before addition of normal plasma significantly lengthened the partial thromboplastin time of normal plasma. In addition, the clot-promoting properties of kaolin were inhibited by its prior exposure to platelet factor 4. Thus, the inhibitory properties of platelet factor 4 directed against the activation of Hageman factor were confirmed in a purified system. In this purified system, in contrast to earlier studies using crude systems, platelet factor 4 inhibited activation of Hageman factor by glass, ellagic acid, or kaolin.
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PMID:Inhibition of the activation of Hageman factor (factor XII) by platelet factor 4. 304 34

Thrombin plays a key role in thrombosis and haemostasis, and is selectively inhibited by hirudin and synthetic inhibitors. Hirudin, a polypeptide (molecular weight 7,000 daltons) extracted from medicinal leeches, can now be produced by gene technology. Hirudin binds selectively to thrombin with high affinity and inhibits its enzymatic properties. Besides heparin, hirudin is not inhibited by platelet factor 4; it prolongs in vitro and ex vivo routine blood coagulation assays and prevents thrombosis in a number of animal models without increasing haemorrhagic risk. In humans, hirudin disappears from the blood with a half-life of 1 h, is devoid of undesirable side effects and has been shown to be efficient in the treatment of chronic disseminated intravascular coagulation (DIC). A number of synthetic direct thrombin inhibitors have been described, including benzamidine derivatives which share identical pharmacological properties with hirudin; however their biological half-life after i.v. injection is shorter. Other derivatives (amidino-phenyl-pyruvic acid) have longer half-lives and have been used to treat chronic DIC in man.
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PMID:Pharmacology of selective thrombin inhibitors. 304 69

A possible role of bovine platelets in the surface-mediated activation of Factor XII and prekallikrein was studied, using the contact system reconstituted with the purified proteins from bovine plasma. The washed platelets before and after aggregation by ADP, thrombin or collagen did not show any ability to trigger or accelerate the activation of Factor XII and prekallikrein. On the contrary, these aggregates showed a potent inhibitory activity on the activation of those zymogens triggered by kaolin, amylose sulfate and sulfatide. The inhibitory substances from the supernatant of the thrombin-induced aggregates were separated into two major fractions, a low affinity fraction and a high affinity fraction, on a heparin-Sepharose column. The high affinity protein was identified as platelet factor 4, based on the amino acid composition. From the low affinity fraction, a beta-thromboglobulin (beta-TG)-like substance and three kinds of unknown proteins, named LA1, LA2, and LA3, were isolated by gel-filtration on a column of Sephadex G-100 or Sephadex G-75 followed by chromatography on a column of Mono S. The molecular weights of LA1, LA2, and LA3 were estimated to be 35,000, 26,000, and 11,000, respectively, on SDS-PAGE. LA2 was identified as a carbohydrate-less LA1, as judged from the amino acid composition and carbohydrate content. The inhibitory activities of these five cationic proteins on the activation of Factor XII and prekallikrein mediated with amylose sulfate, sulfatide and kaolin were different from each other. In the case of kaolin-mediated activation, LA3 was the most potent inhibitor, while platelet factor 4 and beta-TG-like substance did not show any significant inhibitory activity. Moreover, the inhibitory activities of all the cationic proteins were not correlated with their anti-heparin activities. Since these proteins were rapidly liberated from platelets by the action of the stimulants, the present results demonstrate a negative role of platelets in the surface-mediated activation of Factor XII and prekallikrein.
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PMID:Isolation of bovine platelet cationic proteins which inhibit the surface-mediated activation of factor XII and prekallikrein. 315 44

Org 10172, a low MW heparinoid derived from animal intestinal mucosal tissue, has a mean molecular weight of 6500 D and a specific activity of 8.0 anti-Xa U/mg. Its elimination half-life after i.v. administration is 18 hours. Six human volunteers received repeated single i.v. injections of 800 and 3200 anti-Xa units of Org 10172, 5000 IU heparin or placebo. Bleeding time, platelet count and plasma beta thromboglobulin were not affected by Org 10172 or heparin. Heparin stimulated ADP-induced platelet aggregation (0.2 uM; p less than 0.05) and inhibited thrombin induced aggregation (0.3 U/ml; p less than 0.05), while the heparinoid lacked these effects. Heparin increased plasma platelet factor 4, whereas Org 10172 had no effect. In contrast to heparin Org 10172 had only a minor effect on the activated partial thromboplastin time and thrombin time, while both compounds induced anti-Xa activity in plasma. In a crossover study in six haemodialysis patients, both heparin and Org 10172 (34.4 and 22.4 anti-Xa units/kg/body weight) successfully prevented clotting of the extracorporeal circuit. Microscopical analysis of the artificial kidney membranes showed that the 34.4 unit Org 10172 dosage was as effective as heparin in preventing fibrin deposition. The haemostatic and coagulation effects were as expected from those observed in the volunteers except that there was a slower elimination of the plasma anti-Xa response. In addition heparin and Org 10172 (34.4 anti-Xa units/kg) inhibited the Xa-induced platelet aggregation (0.5 U/ml; p less than 0.01 and p less than 0.001 respectively).
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PMID:Anticoagulant effects of a low molecular weight heparinoid (Org 10172) in human volunteers and haemodialysis patients. 316 Dec 13

A familial bleeding disorder characterized by an association of Type IIB von Willebrand's disease (vWD) with a complex thrombocytopenic thrombocytopathy is described in two patients from the same generation. Findings typical of type IIB vWD included enhanced ristocetin-induced binding of patient von Willebrand factor (vWF) to platelets of patients and normal individuals in association with the absence of larger multimers from plasma. Abnormalities in platelet function included deficient platelet aggregation to ADP, collagen, epinephrine, and arachidonic acid; and defective release of 14C-serotonin, vWF, and platelet factor 4 (PF4) in response to thrombin, collagen, or ADP. Platelet factor 4 and platelet vWF were decreased when measured per mg of total platelet protein. In addition, the binding of normal vWF to patient platelets stimulated with thrombin was decreased. Platelet size was increased with a very heterogeneous distribution width. Electron microscopic evaluation showed giant platelets with dense and alpha bodies present. The platelet count was borderline or slightly decreased in the resting state and declined to frankly thrombocytopenic levels at the time of acute bleeding episodes; this state was associated with the presence of platelet aggregates in blood smears.
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PMID:Type IIB von Willebrand's disease associated with a complex thrombocytopenic thrombocytopathy. 325 74

Ticlopidine is an inhibitor of platelet action that has been used in the treatment of a variety of disease states in which platelets play a prominent role. Studies in animals and man have demonstrated that ticlopidine is a potent inhibitor of platelet aggregation induced by adenosine diphosphate (ADP), and variably inhibits aggregation due to collagen, adrenaline (epinephrine), arachidonic acid, thrombin, and platelet activating factor. Inhibition of platelet aggregation is both dose- and time-related, with its onset of activity being 24 to 48 hours, its maximal activity occurring after 3 to 5 days, and its activity still being present 72 hours after a final dose. Ticlopidine also inhibits the release reaction of platelets, prolongs bleeding time, reduces plasma levels of platelet factor 4 and beta-thromboglobulin in patients in whom these proteins are elevated, and may also inhibit platelet adhesion, increase red cell filtrability and decrease whole blood viscosity. In a large number of animal models, ticlopidine markedly inhibits thrombus formation or graft occlusion. Ticlopidine is well absorbed after oral administration. It is extensively metabolised and at least one of its metabolites is pharmacologically active. Therapeutic trials in patients with chronic arterial occlusion due to thrombangitis obliterans or arteriosclerosis obliterans, post-myocardial infarction, cerebrovascular thromboembolic disease, subarachnoid haemorrhage, vascular shunts or fistulas for haemodialysis, and sickle cell disease have shown promise for the use of ticlopidine. However, trials of patients with intermittent claudication, angina pectoris, diabetes mellitus with microvascular disease, aortocoronary bypass grafts, and vascular prostheses have had conflicting results or have shown an unfavourable side effect profile. Further studies are clearly required to establish the role of ticlopidine in many of these areas, some of which are already in progress. Overall, side effects occur in 10 to 15% of patients receiving ticlopidine. The most common side effects are gastrointestinal disturbances and skin rashes. Neither of these necessarily require discontinuation of therapy in most patients. Agranulocytosis, thrombocytopenia, and cholestatic jaundice have also been reported. Bleeding is infrequent except possibly in patients receiving ticlopidine prior to some surgical procedures.
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PMID:Ticlopidine. A review of its pharmacodynamic and pharmacokinetic properties, and therapeutic efficacy in platelet-dependent disease states. 330 67

A murine monoclonal antibody (anti-C2G7), reactive with fibrinogen, was used to analyse the structure and function of the fibrinogen epitope C2G7. Anti-C2G7 was found to be reactive with fibrinogen but not with fibronectin, Factor VIII-von Willebrand Factor (FVIII-vWF), beta-thromboglobulin (beta TG), platelet factor 4 (PF4) nor with a range of normal cells and cell lines. Biochemical and plasmin digestion studies of fibrinogen revealed that C2G7 is present on the carboxy-terminal end of the alpha chain on a fragment with a Mr approximately 30-40 K. Functional studies, on the role of fibrinogen in coagulation and platelet function, demonstrated the importance of C2G7 (or a closely associated region) for thrombin-associated fibrin polymerization and collagen induced fibrinogen binding to platelets.
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PMID:Role of A alpha chain of fibrinogen in coagulation and platelet interaction investigated with a monoclonal antibody. 331 Mar 25


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