Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thrombin is a multifunctional serine protease generated at sites of vascular injury. A host of thrombin actions on vascular endothelial cells, smooth muscle cells, and macrophages has been defined in cell culture systems, but the in vivo significance of these activities is unknown. We have defined the expression of the recently identified receptor for thrombin in human arteries by both in situ hybridization and immunohistochemistry. In normal-appearing arteries, thrombin receptor was expressed almost exclusively in the endothelial layer. By contrast, in human atheroma, the receptor was widely expressed, both in regions rich in macrophages and in regions rich in vascular smooth muscle cells and mesenchymal-appearing intimal cells of unknown origin. Thrombin receptor was expressed by human vascular endothelial cells and smooth muscle cells in culture and by macrophages obtained by bronchioalveolar lavage, thus demonstrating that all three cell types are indeed capable of expressing the thrombin receptor. These results establish thrombin receptor activation as a candidate for contributing to sclerotic and inflammatory processes in the human vasculature, such as those that occur in atherosclerosis and restenosis.
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PMID:Thrombin receptor expression in normal and atherosclerotic human arteries. 132 4

Cultures of vascular smooth muscle cells (VSMC) are commonly used to study the events and defects found in hypertension and atherosclerosis. In particular Ca2+ homeostasis in cellular signalling has been the focus of extensive research. Since trypsin has been shown to mobilise Ca2+ in some cell types, we have investigated its effect on various aspects of Ca2+ homeostasis in rat aortic smooth muscle cells (RASMC). The effects of trypsin, alpha-chymotrypsin and elastase (other serine proteases) on intracellular Ca2+ in cultured aortic cells isolated from Wistar rats have been investigated. Trypsin (24 micrograms/ml) elicits intracellular Ca2+ mobilisation, after which cells become nonresponsive to thrombin Ca2+ mobilisation but retain responsiveness to Angiotensin II (AII). alpha-Chymotrypsin (24 micrograms/m) inhibits the thrombin Ca2+ mobilising response, without itself initiating a Ca2+ transient or affecting AII Ca2+ mobilisation. Elastase (24 micrograms/ml) was not effective in mobilising intracellular Ca2+ or inhibiting the thrombin response. We have also observed diminished thrombin Ca2+ mobilisation responses between cells in suspension and cell monolayers, which appeared to be unrelated to proteolysis but due to morphological changes of the cells. Our results suggest that trypsin acts on the thrombin receptor via a specific proteolysis mechanism to mobilise intracellular Ca2+ ([Ca2+]i) in RASMC. The amount of Ca2+ released by thrombin or trypsin is dependent on the morphology of the cell and the state of the tethered ligand of the thrombin receptor exposed by the protease.
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PMID:The effect of thrombin and serine proteases on intracellular Ca2+ in rat aortic smooth muscle cells. 779 84

A thrombin receptor has been cloned and is thought to mediate a variety of thrombin-induced responses. However, the transcription factors important for postreceptor signaling have been little clarified. The post-receptor signals are mediated by several protein kinases responsible for NF-kappa B activation, and most thrombin-inducible genes have the kappa B sequence in the regulatory elements. The possibility that NF-kappa B may participate in thrombin signaling was therefore investigated in cultured human vascular smooth muscle cells (VSMCs). Thrombin receptor stimulation resulted in activation of NF-kappa B. Furthermore, treatment of cells with antisense p65 ODNs of NF-kappa B inhibited thrombin-stimulated growth of VSMC in vitro. Results indicate that the activation of NF-kappa B is involved in thrombin signaling and that this pathway causes the proliferation of VSMC induced by thrombin. Therapeutic potential of antisense NF-kappa B ODNs for the treatment with atherosclerosis and restenosis is also indicated.
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PMID:Involvement of NF-kappa B activation in thrombin-induced human vascular smooth muscle cell proliferation. 798 May 66

This review concerns our understanding of the molecular basis of platelet function in haemostasis. In particular, we indicate how research into platelet membrane glycoprotein (GP) receptors is yielding vital information on the mechanisms of platelet adhesion and aggregation. These receptors, nearly always complexes of two or more subunits, are now known to belong to distinct gene families, some of which are unique to platelets while others are widely distributed in mammalian tissues. GP Ib-IX complexes are responsible for the high-shear-rate-dependent adhesion of platelets to von Willebrand factor (vWF) exposed within the subendothelium of damaged vessels. Other adhesion receptors include members of the VLA subclass of the integrin family: VLA-2, VLA-5 and VLA-6, which mediate platelet adhesion to collagen, fibronectin and laminin, respectively. Platelet aggregation is initiated by distinct populations of receptors specific for each physiological agonist. Many of these receptors, including the highly important and recently cloned thrombin receptor, have seven transmembrane domains and possess highly selective agonist-binding determinants. Finally, we highlight platelet aggregation and the role of GP IIb-IIIa complexes which, following platelet activation, bind fibrinogen and other adhesive proteins. The latter, through being polyvalent for GP IIb-IIIa, then form the bridges linking adjoining platelets. The 'ligand-binding pocket' of GP IIb-IIIa contains at least three sequences essential for ligand binding; fibrinogen also binds to the activated complex through identified domains, one of which, the Arg-Gly-Asp (RGD) sequence, is also found in vWF and the other adhesive proteins able to support platelet aggregation. Finally, we further describe how these, and other glycoproteins in both surface and internal membrane systems, constitute a complex receptor network capable of translocation and reorganization after platelet activation. In cardiovascular disease, platelets accumulate within arteries whose luminal surface has been modified through atherosclerosis. Recent molecular advances are yielding exciting opportunities for the development of new, and more powerful, drugs acting as specific inhibitors of thrombotic processes.
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PMID:A review of the role of platelet membrane glycoproteins in the platelet-vessel wall interaction. 802 47

Thrombin, the final product of blood coagulation cascade, shows several effect on the vessel-wall cells. However the effects may be regulated by several thrombin receptors on the endothelium. They include thrombomodulin (TM), protease-Nexin, heparin-like molecule-antithrombin III complex. These binding sites do not transduce the signal of thrombin. Especially TM converts thrombin from a procoagulant protease to an anticoagulant. Recently new thrombin receptor was identified on the endothelium and platelets. Through this receptor, thrombin induces activations both on platelet end-endothelium. In brief platelets aggregate and release several factors including serotonin, PDGF, platelet factor4, beta-thromboglobulin on the stimulation by thrombin. The endothelium release t-PA inhibitor; PAI-1, prostacyclin and endothelin. Thus the activations of these cells by thrombin is a key events in hemostasis, wound healing, inflammation, atherosclerosis and restenosis of coronary artery after PTCA.
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PMID:[Regulation of the endothelial function by thrombomodulin and/or thrombin receptor]. 815 41

Thrombin is a serine protease that is released at sites of vascular injury and exerts a variety of biologic effects on different cell types. Thrombin is postulated to play a role in the pathogenesis of a number of diseases including atherosclerosis, since it activates vascular smooth muscle and endothelial cells. Thrombin mediates these effects through a specific receptor that is upregulated in vascular cells in atherosclerosis. Atherosclerosis and glomerulosclerosis are characterized by the presence of monocyte-macrophages in the lesions. Monocyte chemotactic protein (MCP-1) is believed to be an important mediator of monocyte recruitment to the tissue and can be induced in a broad variety of cells including mesangial cells. We studied the effect of thrombin on MCP-1 production and gene expression in well-characterized human mesangial cells, vascular pericytes that play a central role in fibrosis of the glomerular microvascular bed. alpha thrombin stimulates MCP-1 production and gene expression in mesangial cells in a dose- and time-dependent manner. Experiments with diisopropylfluorophosphate thrombin and gamma thrombin demonstrate that this thrombin effect requires both receptor binding as well as catalytic activity, features consistent with the known properties of the recently characterized and cloned thrombin receptor. Moreover, a human thrombin receptor activating peptide (TRAP1-7) also stimulates MCP-1 production. Northern blot analysis demonstrated that mesangial cells express an mRNA transcript that hybridizes with labeled human thrombin receptor cDNA. These data describe a novel biologic activity of thrombin and suggest an additional mechanism by which this coagulation factor may participate in the progression of glomerulosclerosis, and by analogy, atherosclerosis.
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PMID:A novel biologic activity of thrombin: stimulation of monocyte chemotactic protein production. 816 52

Despite long-standing knowledge about the relationship between thrombosis and atherosclerosis, the specific role of thrombin in modulating atherosclerosis and the response to vascular injury is not well understood. Thrombin receptor stimulation in vitro signals many cellular events that are associated with the response to vascular injury (atherosclerosis) in vivo. Proliferation of smooth muscle cells (SMCs) is an important component of the response to vascular injury. We have previously shown that human alpha-thrombin and the 14-amino acid human thrombin receptor-activating peptide (huTRAP-14) stimulate proliferation of cultured rat aortic SMCs. However, thrombin-induced SMC proliferation demonstrates delayed kinetics relative to platelet-derived growth factor (PDGF-BB, another potent SMC mitogen). Several mechanisms may be responsible for these delayed kinetics in vitro, including production of necessary secondary growth factors and thrombin-induced upregulation of its receptor. In vivo studies have demonstrated that thrombin inhibition limits the response to vascular injury in a hypercholesterolemic rabbit model of focal femoral atherosclerosis. However, this effect does not appear to be mediated by effects on early SMC proliferation. In this discussion, we will address the mechanisms of thrombin-induced SMC proliferation in vitro and apply this knowledge to our understanding of the role of thrombin inhibition in limiting the response to vascular injury in vivo.
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PMID:Thrombin and vascular smooth muscle cell proliferation: implications for atherosclerosis and restenosis. 880 10

Thrombin's proteolytically activated "tethered-ligand" receptor is widely expressed and mediates many of thrombin's actions on cells. Its central role in thrombin-stimulated human platelet activation and vascular smooth muscle proliferation as well as location in atherosclerotic plaques suggests receptor involvement in arterial thrombosis and atherosclerosis. Thrombin receptor antagonists, should they be effective, could be more selective than thrombin active site inhibitors in antithrombotic therapy as well as other indications. Blocking antibodies to peptides derived from the thrombin receptor have been used as prototypical thrombin receptor antagonists in vitro and have been useful in implicating this receptor in thrombin's actions on a variety of cell types. These antibodies have also shown the involvement of the receptor in arterial thrombosis models in nonhuman primates. Amino acid substitution studies have shown the structural requirements for receptor activation of peptides homologous to the new NH2-terminus. Peptide-based partial agonists and antagonists have been synthesized by NH2-terminal replacements of the serine in the receptor activating peptides. Current thrombin receptor antagonists lack potency and some are partial agonists; however, it is expected that more potent compounds will result from further investigation. The potency limitations are important to overcome before serious evaluation of their efficacy can be determined.
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PMID:Thrombin receptor antagonists. 883 6

Thrombin has been implicated as an important mediator of vascular lesion formation in atherosclerosis and restenosis. To investigate a potential role for thrombin signaling in the vascular response to hypertension, we have studied thrombin receptor (TR) expression and regulation in hypertensive rats. Aortic TR mRNA was upregulated by angiotensin II (Ang II)-induced hypertension (10.7 +/- 2.5 times control, P < .02), which correlated with a 4-fold increase in thrombin-induced constriction in isolated endothelium-denuded aortic rings. The AT1 receptor antagonist losartan normalized blood pressure and TR mRNA. Conversely, lowering blood pressure to the same degree with hydralazine did not abolish the upregulation of TR mRNA expression. When low-renin low-Ang II hypertension was induced in Dahl salt-sensitive rats, there was no detectable increase in the expression of aortic thrombin receptor mRNA. Finally, treatment with a chimeric heparin-binding form of the recombinant human Cu/Zn superoxide dismutase caused complete inhibition of TR mRNA upregulation, suggesting that an increased rate of superoxide anion production is an important signaling mechanism. Thus, increased TR expression via a redox-sensitive mechanism in the aortic smooth muscle of rats treated with Ang II represents a novel in vivo mechanism through which the hypertensive effects of Ang II are mediated.
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PMID:Vascular thrombin receptor regulation in hypertensive rats. 916 86

We investigated the role of thrombin in the pathogenesis in atherosclerosis and restenosis. First we examined the effect of thrombin on cultured human vascular smooth muscle cells (VSMC). We showed that thrombin acts as a mitogen on VSMC through thrombin receptor. The expression of thrombin receptor was increased in the cell lines of VSMC established from directional coronary atherectomy (DCA). This is more pronounced in the cells from patients with restenosis after PTCA. Next we investigated the signaling pathway from thrombin/thrombin receptor. Thrombin activates thrombin receptor resulting in the exposing of the agonist peptide domain (thrombin receptor agonist peptide, TRAP). The signal from thrombin/thrombin receptor activated protein C kinase, tyrosine kinase, and MAP kinase and resulted in NF-kappa B activation. Furthermore, treatment of the cells with antisense p65 oligodeoxynucleotides of NF-kappa B inhibited the thrombin-stimulated growth of VSMC in vitro. These results suggest that thrombin may have a role in the pathogenesis of atherosclerosis and restenosis after PTCA through the thrombin receptor.
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PMID:Thrombin activates NF-kappa B through thrombin receptor and results in proliferation of vascular smooth muscle cells: role of thrombin in atherosclerosis and restenosis. 918 20


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