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

Smooth muscle cells (SMCs) in the rat carotid artery leave the quiescent state and proliferate after balloon catheter injury. The precise signals responsible for this SMC mitogenesis need to be elucidated. Although platelet-derived growth factor (PDGF), a potent SMC mitogen, is released from activated platelets, damaged endothelium, and macrophages, it cannot be solely responsible for this proliferation. In search of other SMC growth factors, we have examined several proteins of the coagulation cascade. At nanomolar concentrations, factors X, Xa, and protein S promote cultured rat aortic SMC mitosis. In contrast, factor IX is only weakly mitogenic, whereas factor VII and protein C fail to stimulate SMC division. Protein S, the most mitogenic of these coagulation cascade factors, stimulates DNA synthesis in cultured SMCs with a time course similar to that of PDGF-AA and without the delay observed for transforming growth factor beta. Antistasin and tick anticoagulant peptide, two specific factor Xa inhibitors, inhibit SMC mitogenesis due to Xa and protein S. Coagulation factors that possess mitogenic activity may contribute to intimal SMC proliferation after vascular injury as a result of angioplasty or vascular compromise during atherogenesis.
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PMID:Coagulation factors X, Xa, and protein S as potent mitogens of cultured aortic smooth muscle cells. 153 56

A complex series of reactions are involved in the assembly, function, and regulation of the prothrombinase complex. Since the enzyme is multicomponent in nature and each component is required for catalytic function, modulation of enzymatic activity can be achieved in a variety of ways. In addition, since complex assembly so profoundly affects reaction rates, mechanisms that perturb complex formation either positively or negatively have a profound effect on thrombin generation and its local physiologic effects. All of the cells that support prothrombinase assembly and hence thrombin generation respond to thrombin in a variety of ways. Thrombin selectively binds to thrombomodulin and heparin-like molecules expressed on the endothelial cell surface. Thrombin induces the release (and possible synthesis of) prostacyclin, plasminogen activator inhibitor, platelet-derived growth factor, and interleukin-1 and inhibits the release of plasminogen activator from vascular endothelium. Interleukin-1 is a potent mediator of inflammatory phenomena as well as an inducer of tissue factor synthesis in vascular endothelium. With respect to platelets, thrombin selectively binds and stimulates the platelet release reaction and subsequent aggregation. The thrombin-induced release of platelet-derived growth factor from both platelets and vascular endothelium may play a role in inflammation, wound healing, and atherogenesis. Thrombin itself is a potent mitogen of mesenchymal cells, and more recently has been shown to be not only a chemoattractant, but also a mitogen for monocytes. Thrombin also appears to bind selectively to monocytes and in so doing induces release of interleukin-1. Thrombin affects a myriad of cellular responses related to hemostasis, thrombosis, inflammation, would repair, and atherogenesis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of thrombin generation at cell surfaces. 305 86

Antithrombin is a protease inhibitor that neutralizes the activity of the serine proteases of the coagulation cascade, such as factors IXa, Xa, XIa, XIIa, and thrombin by forming a 1:1 stoichiometric complex between enzyme and inhibitor via a reactive site (arginine)-active center (serine interaction). Heparin binds to lysyl residues on antithrombin and accelerates the rate of complex formation. Studies of the binding parameters and kinetic characteristics of the heparin-antithrombin-hemostatic enzyme interactions have revealed that binding of heparin to antithrombin is responsible for a approximately 1000-fold acceleration of the thrombin-antithrombin or factor IXa-antithrombin and factor Xa-antithrombin interactions (allosteric effect). The reactions between free thrombin or free factor IXa and heparin provide an additional 4- to 15-fold enhancement in the rate of these processes (approximation effect) and account for 1-2% of the total rate of enhancement. It has been shown that commercial heparin is composed of anticoagulantly active and anticoagulantly inactive species. The anticoagulantly active mucopolysaccharide contains a unique antithrombin-binding site. Anticoagulantly inactive heparin does not possess this structure and does not bind to the protease inhibitor. Anticoagulantly active heparin also contains a critical region required for the acceleration of the various enzyme-inhibitor interactions. The two different domains of the heparin molecule interact with separate areas of antithrombin and induce distinct conformational transitions within the protease inhibitor. Anticoagulantly active heparinlike molecules (most likely a heparan sulfate with an appropriate sequence for anticoagulant activity) are found on the luminal surface of the endothelium. This heparinlike substance appears to alter the conformation of antithrombin in a manner virtually identical to that of commercial heparin. Both anticoagulantly active heparin and inactive heparin are able to suppress smooth muscle cell proliferation in vitro and in vivo and can reverse the effects of mitogenic factors such as platelet-derived growth factor. Furthermore, it has been shown that bovine aortic endothelial cells produce heparinlike molecules with growth inhibitory potency.
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PMID:Role of heparin and heparinlike molecules in thrombosis and atherosclerosis. 315 97

The efficacy of local delivery of an antithrombotic drug on neointimal hyperplasia was investigated in 17 rabbits. One rabbit iliac artery was injured by a balloon catheter as a control injured artery. The other iliac artery was also injured and treated by local delivery of 25 U/kg of heparin. One hour after the balloon injury, angioscopy demonstrated an occlusive or mural thrombus in all the controls, but few in the locally-treated arteries. Four weeks after balloon injury, the percent stenosis was 34 +/- 31% in the heparin treated group (n = 7, p < 0.005) vs control side 73 +/- 17%). Accumulation of FITC-labeled heparin at the injured site was confirmed by microscopy. The activated partial thromboplastin time and fibrinogen level did not change significantly. PDGF-B chain was prominent at the neointimal layer in all the controls, whereas it was less in the locally treated arteries. Thus local delivery of heparin can inhibit neointimal hyperplasia after balloon injury by reducing thrombus-related growth stimulation.
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PMID:Local delivery of heparin inhibits neointimal hyperplasia in injured rabbit artery. 855 70

Tissue factor (TF), a transmembrane glycoprotein, forms a high affinity complex with factor VII/VIIa (FVIIa) and thereby initiates blood coagulation. Tissue factor pathway inhibitor (TFPI) is an endogenous protease inhibitor of TF/FVIIa-initiated coagulation. We previously reported that TF was a strong chemotactic factor for cultured vascular smooth muscle cells (SMCs). In this study, we examined the contribution of FVIIa and the effect of TFPI to TF-induced cultured SMC migration. TF/FVIIa complex showed a strong migration ability, however, neither TF alone nor FVIIa induced SMC migration. TF/FVIIa treated by a serine protease inhibitor and the complex of TF and inactivated FVIIa (DEGR-FVIIa) did not stimulate SMC migration. Pretreatment with hirudin and the antibodies to alpha-thrombin and factor X had no effect on TF/FVIIa-induced SMC migration, although alpha-thrombin and factor Xa also induced SMC migration respectively. TFPI markedly inhibited TF/FVIIa-induced SMC migration in a concentration-dependent manner, but did not affect the SMC migration induced by platelet-derived growth factor (PDGF)-BB, basic fibroblast-growth factor (bFGF), or alpha-thrombin. These results indicate that the catalytic activity of TF/FVIIa complex is important on SMC migration, and TFPI can reduce SMC migration as well as thrombosis.
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PMID:Tissue factor pathway inhibitor inhibits aortic smooth muscle cell migration induced by tissue factor/factor VIIa complex. 930 67

Vascular restenosis is one of the major concerns for the treatment of atherosclerotic cardiovascular diseases using therapeutic vascular procedures. Hirulog-1, a synthetic thrombin inhibitor, effectively reduced ischemic events in coronary heart disease patients and caused less hemorrhagic complications compared to heparin. Thrombin stimulated the expression of platelet-derived growth factor (PDGF) in vascular cells. PDGF receptor blockers reduced angioplasty-induced restenosis in the swine model. The present study examined the effects of hirulog-1 on vascular stenosis, platelet deposition and the expression of PDGF in rat carotid arteries injured by balloon catheter. Multiple intravenous infusions of hirulog-1 (1 mg/kg/h for 4 h for 6 times), but not bolus injection or 1-2 times of infusion, reduced neointima/media ratio by 50% in balloon-injured carotid arteries compared to injured animals receiving saline alone. Activated partial thromboplastin time in hirulog-1-treated rats was significantly prolonged compared to saline controls but shorter than that in animals receiving heparin (50 U/kg/h). One of heparin-treated rat, but none of hirulog-1-treated, died from bleeding complication. Hirulog-1 injection transiently reduced platelet deposition on denuded intima visualized by scanning electron microscopy. Abundance of PDGF in neointima of injured carotid arteries detected by immunohistochemistry was significantly decreased following infusions of hirulog-1. The results suggest that balloon catheter injury induced neointima formation and the overexpression of PDGF in the neointima of rat carotid artery may be effectively suppressed by infusions with hirulog-1, a thrombin-specific inhibitor.
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PMID:Hirulog-1 reduces expression of platelet-derived growth factor in neointima of rat carotid artery induced by balloon catheter injury. 1075 93

Intraglomerular activation of the coagulation cascade is a common feature of mesangioproliferative glomerulonephritis. Besides thrombin, very little is known about the cellular effects of other components of the coagulation system. This study investigated the effect of activated factor X (FXa) on cultured human mesangial cells. This serine protease induced a significant and dose-dependent increase in DNA synthesis. In addition to its mitogenic effect, FXa caused a striking upregulation of platelet-derived growth factor (PDGF) A and B chain gene expression. Next, the intracellular mitogenic signaling pathways activated by FXa were investigated. FXa induced a rapid spike in cytosolic calcium concentration followed by a sustained plateau. This response was not influenced by the downregulation of thrombin receptors. In addition, FXa stimulated a significant upregulation of different tyrosine-phosphorylated proteins. One of these phosphorylated cellular proteins was represented by the c-jun N-terminal kinase, a member of the mitogen-activated protein kinase family. To evaluate the role of FXa enzymatic activity and of PDGF autocrine secretion, FXa-induced DNA synthesis was studied in the presence of leupeptin, a specific serine protease inhibitor, and neutralizing anti-PDGF antibody. To investigate the role of tyrosine kinase (TK) activation on FXa mitogenic effect, FXa-stimulated thymidine uptake was evaluated in the presence of genistein and herbimycin A, two powerful and specific TK inhibitors. FXa-elicited DNA synthesis was also examined after protein kinase C (PKC) downregulation by prolonged incubation with phorbol-12-myristate-13-acetate to study the influence of the phospholipase C-PKC axis. The proliferative effect of FXa required its proteolytic activity, and the activation of TK was only partially dependent on PKC activation while it was PDGF independent. Finally, it was shown by reverse transcription-PCR that mesangial cells do not express the signaling splicing variant of the putative FXa receptor, effector protease receptor-1. In conclusion, the present study demonstrated that FXa is a powerful mitogenic factor for human mesangial cells, and it induces its cellular effect not through effector protease receptor-1, but most likely by binding a protease-activated receptor and activating phospholipase C-PKC and TK signaling pathways.
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PMID:Activated coagulation factor X: a novel mitogenic stimulus for human mesangial cells. 1131 47

Vascular restenosis is one of the major concerns for the management of coronary artery disease using therapeutic vascular procedures. Treatments with thrombin-specific inhibitors, hirudin or hirulog-1, reduced ischemic events in coronary artery disease patients. Early started and prolonged infusions of these thrombin inhibitors partially prevented balloon catheter injury induced restenosis or neointima formation in experimental animal models, but increased the bleeding tendency. Hirulog-like peptide (HLP) was rationally designed to enhance the inhibition of the binding of thrombin to its receptor with less interruption of coagulation activity in comparison to hirulog-1. A single infusion of HLP for 4 h started 0.5 h before balloon catheter injury reduced neointima formation by 36% in rat carotid artery compared to vehicle controls. Tail bleeding time and activated partial thromboplastin time during HLP infusion were not significantly different from vehicle controls, but were significantly shorter than during heparin or hirulog-1 infusion. HLP treatment attenuated the expression of platelet-derived growth factor in the neointima of injured arteries. HLP also inhibited thrombin-induced thymidine incorporation in cultured baboon aortic smooth muscle cells. The findings suggest that HLP may substantially inhibit balloon catheter injury induced neointima formation without noticeable increase in bleeding tendency in rats. The inhibition by HLP of the expression of platelet-derived growth factor and of the smooth muscle cell proliferation in the vascular wall potentially contributes to the preventive effect of the new thrombin inhibitor on injury-induced neointima formation in the vascular wall.
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PMID:Hirulog-like peptide reduces balloon catheter injury induced neointima formation in rat carotid artery without increase in bleeding tendency. 1131 50

The importance of low-density lipoprotein (LDL) in the etiology of atherosclerosis is well recognized. We have established a reproducible stenosis model in hypercholesterolemic hamsters, and the process of arterial stenosis by thrombus or neointima was studied and compared with that in normal hamsters. The level of plasma LDL was 4.6 times higher in hamsters fed a high-cholesterol diet than in hamsters fed normal food. Endothelial injury in right common carotid arteries was induced using a modified catheter. Arterial blood flow was monitored continuously using a Doppler flow probe. Arterial patency after the initiation of injury in high-cholesterol hamsters was significantly changed as compared with that of normal hamsters. Neointima was observed 2 wk after the vascular injury. The neointimal area of high-cholesterol hamsters was significantly larger than that of normal hamsters. To characterize the stenosis in hypercholesterolemic hamsters, we measured platelet aggregation, thrombin time, activated partial thromboplastin time, and proliferating smooth muscle cells (SMC) in vitro and in vivo. The half-maximal inhibitory concentration value for platelet aggregation induced by thrombin or collagen, the DNA synthesis stimulated by platelet-derived growth factor (PDGF)-BB, and 5-bromo-2-deoxy-uridine labeling indices (proliferating index of SMC in vivo) in high-cholesterol hamsters were each significantly higher than the comparable value from normal hamsters. However, specific binding of PDGF-BB in SMC was not different between the two types of hamsters. Furthermore, we investigated the inhibitory effects of probucol or losartan on neointima formation using this model. Probucol, but not losartan, significantly reduced the neointimal area in hypercholesterolemic hamsters. These findings indicated that high levels of plasma LDL strongly contributed to the development of thrombus and neointima formation via both up-regulation of platelet aggregation and the enhancement of SMC proliferation. This stenosis model may be useful for the investigation of hypercholesterolemia-associated cardiovascular diseases.
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PMID:Characterization of simple and reproducible vascular stenosis model in hypercholesterolemic hamsters. 1143 56

The coagulation cascade protease thrombin is a fibroblast mitogen, but the proliferative potential of other coagulation proteases is not known. In this study we show that factor Xa stimulated human fetal lung fibroblast DNA synthesis in a concentration-dependent manner from 1 nM onward with a fourfold increase at 200 nM. The mitogenic effect of factor Xa was confirmed using a colorimetric proliferation assay and direct cell counting. Factor Xa and thrombin had equivalent potencies, and their stimulatory effects followed a similar time course. Comparable results were also obtained with primary human adult fibroblasts derived from lung, kidney, heart, skin, and liver. Factor VIIa also stimulated fibroblast proliferation, but only at concentrations >10 nM, whereas factor IXa had no effect. To begin to address the mechanism by which factor Xa is acting, we show that human fibroblasts express effector-cell protease receptor-1 and that blocking antibodies to this receptor and the catalytic site of factor Xa inhibited its mitogenic effect. Furthermore, factor Xa upregulated platelet-derived growth factor-A (PDGF-A) mRNA expression, whereas PDGF-B could not be detected, and a blocking antibody to PDGF inhibited the mitogenic effect of factor Xa. We conclude that factor Xa acts as a fibroblast mitogen via binding to effector-cell protease receptor-1 and the autocrine release of PDGF.
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PMID:Factor Xa is a fibroblast mitogen via binding to effector-cell protease receptor-1 and autocrine release of PDGF. 1144 67


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