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)

Platelet Factor VIII-related antigen (VIIIR:Ag) represents a significant proportion of the total circulating VIIIR:Ag pool. However, its participation in the events of primary hemostasis has not been shown. We now report that platelet-contained VIIIR:Ag is released from platelets by collagen, ADP and thrombin. The concentrations of these agonists, required for VIIIR:Ag release, are the same or lower than those required for release of serotonin, lysosomal enzymes, or fibrinogen. This release has the features of an energy-dependent secretory response because it is blocked by the metabolic inhibitors, antimycin A and 2-deoxy-D-glucose. The electrophoretic characteristics of the VIIIR:Ag released by collagen and ADP are similar to those of plasma VIIIR:Ag. However, thrombin-released platelet VIIIR:Ag differs from that of plasma in that the less anodal forms are relatively depleted. These differences do not appear to be the result of proteolytic degradation of platelet-derived VIIIR:Ag, but may reflect interactions between specific molecular forms of VIIIR:Ag and the platelet membrane. These studies suggest mechanisms by which platelet-contained VIIIR:Ag may contribute to the primary events of hemostasis.
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PMID:Active release of human platelet factor VIII-related antigen by adenosine diphosphate, collagen, and thrombin. 31 83

Exogenous arachidonate addition to intact platelets, in the absence or the presence of blood vessel microsomes, results in the production of thromboxane B(2) (the stable degradation product of thromboxane A(2)) only. Prostaglandin (PG) endoperoxides are released from intact platelets only when thromboxane synthetase is inhibited. Thus, addition of exogenous arachidonate to imidazole-pretreated platelets in the presence of bovine aorta microsomes (source of prostacyclin synthetase) results predominantly in the synthesis of 6-keto-PGF(1alpha) (the stable degradation product of prostacyclin). Strips of intact aorta were removed from aspirin-treated rabbits, thus the isolated blood vessels were unable to convert endogenous or exogenous arachidonate to prostacyclin. Human platelets, with [(14)C]arachidonate-labeled phospholipids, adhered to the blood vessel segments and released some thromboxane B(2). The subsequent addition of thrombin facilitated the release of endogenous arachidonate and thromboxane, but no labeled 6-keto-PGF(1alpha) was detectable. There is therefore no direct chemical evidence of PG-endoperoxide release from human platelets during either aggregation or adhesion, which therefore precludes the possibility that blood vessels use platelet PG-endoperoxide for prostacyclin synthesis. Imidazole inhibited the thromboxane synthetase in the labeled platelets, and thereafter thrombin stimulation resulted in the release of platelet-derived, labeled PG-endoperoxides that were converted to labeled prostacyclin by the vascular prostacyclin synthetase. The latter result suggests a potential antithrombotic therapeutic benefit might be achieved using an effective thromboxane synthetase inhibitor.
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PMID:Platelet and blood vessel arachidonate metabolism and interactions. 37 40

The ability of heparin fractions of different molecular weight to potentiate the action of antithrombin III against the coagulation factors thrombin and Xa has been examined in purified reaction mixtures and in plasma. Residual thrombin and Xa have been determined by their peptidase activities against the synthetic peptide substrates H-D-Phe-Pip-Arg-pNA and Bz-Ile-Gly-Arg-pNA. High molecular weight heparin fractions were found to have higher anticoagulant activities than low molecular weight heparin when studied with both thrombin and Xa incubation mixtures in purified mixtures and in plasma. The inhibition of thrombin by heparin fractions and antithrombin III was unaffected by other plasma components. However, normal human plasma contained a component that inhibited the heparin and antithrombin III inhibition of Xa particularly when the high molecular weight heparin fraction was used. Experiments using a purified preparation of platelet factor 4 suggested that the platelet-derived heparin-neutralizing protein was not responsible for the inhibition.
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PMID:Evidence for a plasma inhibitor of the heparin accelerated inhibition of factor Xa by antithrombin III. 47 56

Repair of a vascular wound is mediated by migration and subsequent replication of the endothelial cells that form the inner lining of blood vessels. We have measured the growth response of human umbilical vein endothelial cells (HuE) to two polypeptides that are transiently produced in high concentrations at the site of a wound; the platelet-derived growth factor (PDGF) and the protease thrombin. When 10(4) HuE cells are seeded as a dense island (2-mm diameter) in the center of a 16-mm tissue culture well in medium containing 20% human serum derived from platelet-poor plasma (PDS), no increase in cell number or colony size is observed. With the addition of 0.5 ng/ml partially purified PDGF, colony size increases and the number of cells after 8 days is 4.8 X 10(4). When human thrombin (1 microgram/ml) is added along with the PDGF, the cell number rises to 9.2 X 10(4). Thrombin alone stimulates no increase in cell number. Although partially purified PDGF stimulates endothelial cells maintained in PDS as well as those maintained in whole blood serum (WBS), pure PDGF is active only when assayed in medium that contains WBS and is supplemented with thrombin. These results suggest the existence of a second class of platelet-derived factors that enable HuE cells to respond to the mitogenic activity of the purified platelet mitogen and thrombin.
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PMID:Stimulation of human vascular endothelial cell growth by a platelet-derived growth factor and thrombin. 54 23

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

Human platelets convert leukocyte-derived leukotriene (LT) A4 to lipoxins during transcellular lipoxin biosynthesis. Here, we examined lipoxin generation in intact human platelets and compared it with that elicited from permeabilized platelets. Conversion of LTA4 to lipoxins by permeabilized cells exceeded (10-15 times) that to peptidoleukotrienes, while intact cells exposed to thrombin generated similar amounts of these two series (LT/LX). Permeabilized platelets also generated 3-5 times more lipoxins than intact cells. Lipoxin A4 (LXA4), lipoxin B4 (LXB4), and their respective all-trans isomers were identified by physical methods including HPLC and GC-MS. Chiral analysis of platelet-derived all-trans-containing LXs revealed that greater than 69.5 +/- 0.5% carried alcohol groups in the R configuration at carbons 6 and 14 (e.g., 11-trans-LXA4 and 8-trans-LXB4), respectively. More than 50% of these all-trans LX were formed by isomerization of native LXA4 and LXB4 during isolation. Lipoxin formation with permeabilized platelets gave an apparent Km of 8.9 microM and Vmax of 83.3 ng/(min-10(9) platelets) with maximal conversion in pH range 7-9. In addition, permeabilized platelets converted 14,15-LTA4 and LTA5, but not LTA3, to lipoxins. Consecutive exposure to LTA4 did not alter LXA4 generation but inhibited LXB4 by 40-50%, suggesting that LXB4 formation can be regulated by suicide inactivation. Unlike platelets, human endothelial cells did not convert LTA4 to lipoxins. These results indicate that lipoxin formation is a major route of LTA4 metabolism in thrombin-activated platelets and those that have undergone a loss of membrane barriers.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lipoxin generation by permeabilized human platelets. 138 61

The effect of transforming growth factor-beta 1 (TGF-beta 1) and platelet-derived growth factor (PDGF) was investigated on the induction of nitric oxide synthase activity caused by interleukin-1 beta in cultured smooth muscle cells from rat aorta. TGF-beta 1, PDGFAB and PDGFBB but not PDGFAA inhibited in a concentration-dependent manner the production of nitrite, an oxidation product of nitric oxide, evoked by interleukin-1 beta. The growth factors alone did not stimulate the release of nitrite. The addition of interleukin-1 beta-treated smooth muscle cells to suspensions of indomethacin-treated human washed platelets inhibited the aggregation evoked by thrombin whereas no effect was observed with untreated cells. Platelet aggregation was not inhibited by smooth muscle cells that had been pretreated with interleukin-1 beta in combination with either TGF-beta 1, PDGFAB or PDGFBB but not with PDGFAA. These observations demonstrate that platelet-derived products such as TGF-beta and PDGFs inhibit the induction of nitric oxide synthase activity in vascular smooth muscle cells.
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PMID:The induction of nitric oxide synthase activity is inhibited by TGF-beta 1, PDGFAB and PDGFBB in vascular smooth muscle cells. 138 62

Platelet-derived endothelial cell growth factor (PD-ECGF) has been expressed in Escherichia coli as a fusion protein with glutathione S-transferase (GST). The fusion protein was purified by one-step affinity chromatography on glutathione-agarose beads, and recombinant PD-ECGF was proteolytically cleaved with thrombin from its GST leader peptide to yield pure protein. Recombinant PD-ECGF stimulated [3H]methylthymidine uptake by endothelial cells in vitro; however, we were unable to detect stimulation of cell proliferation under a wide variety of conditions. We confirm that in accord with the recent report that PD-ECGF and human thymidine phosphorylase are products of the same gene [Furukawa, T., Yoshimura, A., Sumizawa, T., Haraguchi, M., & Akiyama, S. I. (1992) Nature 356, 668] recombinant PD-ECGF has thymidine phosphorylase activity comparable to that of E. coli thymidine phosphorylase. Further, E. coli thymidine phosphorylase was able to mimic the activity of recombinant PD-ECGF in the [3H]methylthymidine uptake assay, and it appears that recombinant PD-ECGF's effect on the uptake of thymidine by endothelial cells may be due to modulation of cellular thymidine pools. The mechanism by which PD-ECGF stimulates angiogenesis remains to be elucidated.
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PMID:Expression of platelet-derived endothelial cell growth factor in Escherichia coli and confirmation of its thymidine phosphorylase activity. 145 9

Vitamin K-dependent protein S is an anticoagulant plasma protein serving as cofactor to activated protein C in degradation of coagulation factors Va and VIIIa on membrane surfaces. In addition, it forms a noncovalent complex with complement regulatory protein C4b-binding protein (C4BP), a reaction which inhibits its anticoagulant function. Both forms of protein S have affinity for negatively charged phospholipids, and the purpose of the present study was to elucidate whether they bind to the surface of activated platelets or to platelet-derived microparticles. Binding of protein S to human platelets stimulated with various agonists was examined with FITC-labeled monoclonal antibodies and fluorescence-gated flow cytometry. Protein S was found to bind to membrane microparticles which formed during platelet activation but not to the remnant activated platelets. Binding to microparticles was saturable and maximum binding was seen at approximately 0.4 microM protein S. It was calcium-dependent and reversed after the addition of EDTA. Inhibition experiments with monoclonal antibodies suggested the gamma-carboxyglutamic acid containing module of protein S to be involved in the binding reaction. An intact thrombin-sensitive region of protein S was not required for binding. The protein S-C4BP complex did not bind to microparticles or activated platelets even though it bound to negatively charged phospholipid vesicles. Intact protein S supported binding of both protein C and activated protein C to microparticles. Protein S-dependent binding of protein C/activated protein C was blocked by those monoclonal antibodies against protein S that inhibited its cofactor function. In conclusion, we have found that free protein S binds to platelet-derived microparticles and stimulates binding of protein C/activated protein C.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Binding of anticoagulant vitamin K-dependent protein S to platelet-derived microparticles. 146 47

Mononuclear phagocytes synthesize chondroitin sulfate proteoglycan (CSPG), which is constitutively secreted. Because mononuclear phagocytes are known to interact with blood platelets, the effect of platelets on the release of CSPG in cultured human monocytes was investigated. After 6 days in vitro, the monocytes were supplied with fresh medium with different additions and subsequently exposed to [35S]sulfate for 24 hours before the medium fractions were harvested and analyzed for content of [35S]CSPG. Indirect evidence for the release of stimulatory factors from blood platelets was found when the addition of medium containing 50% serum made from platelet-rich plasma increased the expression of [35S]CSPG almost sevenfold compared with serum-free medium, whereas medium containing 50% serum made from platelet-depleted plasma increased the expression of [35S]CSPG about fourfold. Further, direct evidence for the stimulatory effect of platelets was found as the addition of autologous platelets to serum-free medium increased the expression of [35S]CSPG about threefold, and addition of supernatant from a corresponding number of thrombin-stimulated platelets was almost as efficient. The effect of five different platelet-derived factors (which are all present in serum) was investigated. Both platelet-derived growth factor (PDGF), platelet factor 4 (PF 4), and prostaglandin E2 (PGE2) used in physiologic concentrations were found to stimulate the expression of [35S]CSPG twofold to threefold, whereas transforming growth factor-beta had a slight inhibitory effect. 12-Hydroxyeicosatetraenoic acid had no significant effect on the expression of [35S]CSPG. Further evidence for the stimulatory effect of PDGF, PF 4, and PGE2 was found as serum depleted of these factors had significantly less stimulatory effect than control serum. The increased incorporation of [35S]sulfate into [35S]CSPG in cultures stimulated with serum or platelet-derived factors was not due to differences in molecular size or extent of sulfation of the proteoglycan molecules.
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PMID:Blood platelets stimulate the expression of chondroitin sulfate proteoglycan in human monocytes. 149 23

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