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)

Recent studies have reported that hydroxymethylglutaryl coenzyme A (HMG-CoA) reductase inhibitors have vasculoprotective effects independent of their lipid-lowering properties, including anti-inflammatory actions. We used intravital microscopy of the rat mesenteric microvasculature to examine the effects of rosuvastatin, a new HMG-CoA reductase inhibitor, on leukocyte-endothelium interactions induced by thrombin. Intraperitoneal administration of 0.5 and 1.25 mg kg(-1) rosuvastatin 18 h prior to the study, significantly and dose-dependently attenuated leukocyte rolling, adherence, and transmigration in the rat mesenteric microvasculature superfused with 0.5 u ml(-1) thrombin. This protective effect of rosuvastatin was reversed by intraperitoneal injection of 25 mg kg(-1) mevalonic acid 18 h before the study. Immunohistochemical detection of the endothelial cell adhesion molecule P-selectin showed a 70% decrease in endothelial cell surface expression of P-selectin in thrombin-stimulated rats given 1.25 mg kg(-1) rosuvastatin. In addition, rosuvastatin enhanced release of nitric oxide (NO) from the vascular endothelium as measured directly in rat aortic segments. Moreover, rosuvastatin failed to attenuate leukocyte-endothelium interactions in peri-intestinal venules of eNOS(-/-) mice. These data indicate that rosuvastatin exerts important anti-inflammatory effects via inhibition of endothelial cell adhesion molecule expression, and that this protective action of rosuvastatin requires release of nitric oxide by the vascular endothelium. These data also demonstrate that the mechanism of the non-lipid lowering actions of HMG-CoA reductase inhibitors in vivo may be due to reduced formation or availability of mevalonic acid within endothelial cells.
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PMID:A new HMG-CoA reductase inhibitor, rosuvastatin, exerts anti-inflammatory effects on the microvascular endothelium: the role of mevalonic acid. 1137 57

Enhanced expression of tissue factor (TF) is associated with the occurrence of coronary disease, strokes and arterial thrombosis. We demonstrated previously that adenosine inhibits TF expression in human umbilical vein endothelial cells (HUVECs) stimulated with inflammatory mediators. In the present study, we evaluated the mechanism of adenosine-induced inhibition of TF expression in HUVECs. The adenosine inhibitory activity on thrombin-induced TF expression in HUVECs was potentiated by the NO precursor, l-arginine, but it was significantly suppressed by the NO scavenger, 2(4-carboxyphenyl)-4,4,5,5-tetramethyl-imidazoline-1-oxyl-3-oxide, and by endothelial NO synthase inhibitors, N(G)-monomethyl-l-arginine and N(G)-nitro-l-arginine methyl ester, in a dose-dependent manner. The concentrations of nitrites, cGMP and cAMP in the culture medium of HUVECs treated with a mixture of thrombin and adenosine were significantly higher compared with the culture medium of HUVECs treated with thrombin alone. Northern blotting showed that thrombin decreases and adenosine increases the eNOS mRNA expression in HUVECs. A cAMP-dependent protein kinase inhibitor suppressed NO-mediated TF inhibition in a dose-dependent manner. Overall, these results suggest that adenosine inhibits thrombin-induced TF expression in endothelial cells by a NO-mediated mechanism, and that increased intracellular formation of cAMP is implicated in this inhibitory activity of NO.
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PMID:Adenosine inhibits thrombin-induced expression of tissue factor on endothelial cells by a nitric oxide-mediated mechanism. 1183 36

The endothelium is the largest autocrine and endocrine organ of the human organism. It participates in the regulation of the blood flow and tonus of the vascular wall, activation of thrombocytes, adhesion of monocytes to the vascular wall, thrombogenesis, lipid metabolism and growth of vessels. Endothelial cells may produce some 25 different biologically active substances. The most important one among them is probably NO. Under physiological conditions endothelial cells release permanently a small amount of NO or EDRF (endothelium-derived relaxing factor) and participate thus in the regulation of the tonus of the vascular wall at rest. The presence of NO excreated by endothelial cells can be detected in all parts of the circulation, from large arteries to small capillaries. Increased NO excretion is caused by a number of physiological stimuli, e.g. a rise of the blood pressure, drop of the partial oxygen pressure or the action of acetylcholine, ADP, ATP, thrombin, bradykinin or histamine. NO is a chemical messenger which is formed during oxidation of L-arginine to L-citrullin by the action of the enzyme NO synthase (NOS). Endothelial NOS is described as eNOS (endothelial/Type III/NOS-3). There exist also two other different isoforms of this enzyme: nNOS (neuronal/Type I/NOS-1/bNOS) andiNOS (inducible/Type II/NOS-2. NO plays an important part on the regulation of vascular homeostasis. It has a number of potential antiatherogenic functions. It causes vascular vasodilatation.
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PMID:[NO (nitric oxide) and its significance in regulation of vascular homeostasis]. 1279 52

Atherosclerotic endothelial dysfunctions are associated with a reduced NO production, which is probably due to impaired NO synthase (eNOS) activity or a deficiency of the substrate L-arginine. In the present studies, the influence of argatroban on isolated rabbit carotid arteries was investigated to determine whether the arginine derivative argatroban can improve the endothelium-dependent relaxation. Rings from rabbit carotid arteries were placed in 10 ml organ baths for isometric tension recording. Endothelial integrity was assessed by the acetylcholine-induced relaxation of PGF2alpha-precontracted rings; after mechanical removal of the endothelium the relaxation was abolished. Preincubation of the vessels in vitro with L-NAME, an inhibitor of the eNOS, diminished significantly the acetylcholine-induced relaxation by more than 50%. After i.v. application of L-NAME (100 mg/kg) in rabbits, relaxation in response to acetylcholine was significantly reduced compared to the control when the vessels were studied ex vivo in an organ bath. The contractile effects of phenylephrine and 5-HT were slightly enhanced. Argatroban is a selective, potent, synthetic thrombin inhibitor; after i.v. application at doses of 0.5 and 1.0 mg/kg, a significant prolongation of the plasma coagulation time (measured as thrombin time and a PTT) of up to 60 min was found in rabbits. In vitro argatroban did not affect the acetylcholine-induced relaxation or the contractile response to phenylephrine and 5-HT. After i.v. application, the ex vivo experiments in the organ bath showed that after 30 min the relaxant responses of the carotid arteries to acetylcholine and the contractile effects of phenylephrine and 5-HT were not influenced by pretreatment with argatroban. The present studies suggest that argatroban has no vascular effects in vitro and ex vivo in normal rabbits.
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PMID:The thrombin inhibitor argatroban does not influence the endothelium-dependent relaxant and contractile responses of isolated rabbit carotid arteries. 1287 64

Intravenous gamma-immunoglobulin (i.v.Ig) is commonly used in the treatment of autoimmune and inflammatory vascular disorders to prevent thrombotic complications. The mechanism of action of i.v.Ig is, however, not yet elucidated. In view of this, we investigated the ability of i.v.Ig to modulate i) Ca(2+) signals of fura-2 loaded endothelial cells, and ii) the associated release of nitric oxide (NO) and von Willebrand factor (vWf). NO was measured either indirectly by radioimmunoassay of cGMP in unstimulated cells or directly by electrochemistry at the surface of stimulated endothelial cells from human umbilical cord veins (HUVEC). Short-term treatment of unstimulated HUVEC with intact i.v.Ig decreased the basal cytosolic Ca(2+) concentration by 20% while it activated the NO/cGMP synthesis. Following i.v.Ig treatment of HUVEC, the Ca(2+) liberation from internal stores and the vWf secretion induced by ATP, thrombin or histamine were significantly reduced by 38 and 60%, respectively. The effects on Ca(2+) signals were observed with intact i.v.Ig as well as with the F(ab')2 or the Fc fragments indicating that both portions are involved in the mechanism of action. The i.v.Ig treatment of HUVECs had no effect on the NO release induced by thrombin or histamine. By contrast, the i.v.Ig treatment increased the ATP-activated NO release by amplifying the Ser1177-eNOS phosphorylation. The i.v.Ig also activated the NO-dependent cGMP release in resting and collagen-stimulated platelets. Since NO is a potent inhibitor of platelet activation and vWF is a platelet adhesion cofactor, the beneficial effects of therapeutic i.v.Ig may lie in the inhibition of platelet adhesion to damaged endothelium.
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PMID:Therapeutic immunoglobulin reduces Ca2+ mobilization and von Willebrand factor secretion, and increases nitric oxide release in human endothelial cells. 1465 35

Endothelium-dependent relaxations were studied in the thoracic aorta (TA) of the C57BL/6J mouse, a strain used commonly in the generation of genetically altered mice, to clarify some methodological questions. First, we have tested if transcardial perfusion with heparinized Krebs solution before the preparation of the TA may improve in vitro relaxant responses. Carbachol, thrombin, and ATP induced significantly stronger relaxations in TAs prepared from perfused animals than in controls. The effect of sodium nitroprusside (SNP), however, did not change, indicating that the improvement of the endothelium-dependent relaxations after perfusion was not caused by increased reactivity of the vascular smooth muscle to NO. Second, the potential regional differences within the TA were studied. Carbachol relaxed significantly stronger distal than proximal TA segments, whereas the effects of thrombin, ATP, and SNP showed no regional heterogeneity. Third, the relaxant effect of carbachol was partially preserved in TAs of endothelial NOS deficient (eNOS-/-) animals and remained unchanged in the presence of indomethacin, indicating the involvement of an eNOS- and cyclooxygenase-independent mechanism in the mediation of the response. Thrombin and ATP were ineffective in eNOS-/- TAs. Finally, TAs prepared from mice housed in cages equipped with running wheels did not show improved reactivity, indicating that the conventional housing conditions and the consequent sedentary lifestyle of the laboratory mouse do not diminish endothelial function in the TA.
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PMID:Endothelial NOS-mediated relaxations of isolated thoracic aorta of the C57BL/6J mouse: a methodological study. 1572 47

Three-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase inhibitors protect the vasculature from inflammation and atherosclerosis by cholesterol dependent and cholesterol independent mechanisms. We hypothesized that HMG-CoA reductase inhibitors decrease exocytosis of Weibel-Palade bodies, endothelial cell granules whose contents promote thrombosis and vascular inflammation. We pretreated human aortic endothelial cells with simvastatin for 24 hours, then stimulated the cells with thrombin, and measured the amount of vWF released into the media. We then measured the effect of simvastatin on myocardial infarction in mice. Simvastatin decreased thrombin-stimulated Weibel-Palade body exocytosis by 89%. Simvastatin inhibited exocytosis in part by increasing synthesis of nitric oxide (NO), which S-nitrosylated N-ethylmaleimide sensitive factor (NSF), a critical regulator of exocytosis. Simvastatin treatment attenuated myocardial infarct size by 58% in wild-type but not eNOS knockout mice. Furthermore, simvastatin decreased endothelial exocytosis and neutrophil infiltration into ischemic-reperfused myocardium, which was mediated in part by P-selectin contained in Weibel-Palade bodies. However, simvastatin did not affect exocytosis and inflammation in myocardial infarcts of eNOS knockout mice. Inhibition of endothelial exocytosis is a novel mechanism by which HMG-CoA reductase inhibitors may reduce vascular inflammation, inhibit thrombosis, and protect the ischemic myocardium. These findings may explain part of the pleiotropic effects of statin therapy for patients with cardiovascular disease.
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PMID:HMG-CoA reductase inhibitors inhibit endothelial exocytosis and decrease myocardial infarct size. 1590 63

The multifaceted process of immune cell recruitment to sites of tissue injury is key to the development of an inflammatory response and involved in the pathogenesis of numerous cardiovascular disorders. We recently identified C-type natriuretic peptide (CNP) as an important endothelium-derived mediator that regulates vascular tone and protects against myocardial ischemia/reperfusion injury. Herein, we investigated whether CNP inhibits leukocyte recruitment and platelet aggregation and thereby exerts a potential antiinflammatory influence on the blood vessel wall. We assessed the effects of CNP on leukocyte-endothelial cell interactions in mouse mesenteric postcapillary venules in vivo in animals with high basal leukocyte activation (endothelial nitric oxide synthase knockout mice, eNOS(-/-)) or under acute inflammatory conditions (induced by interleukin-1beta or histamine). CNP suppressed basal leukocyte rolling in eNOS(-/-) mice in a rapid, reversible, and concentration-dependent manner. These effects of CNP were mimicked by the selective natriuretic peptide receptor-C agonist cANF(4-23). CNP also suppressed leukocyte rolling induced by IL-1beta or histamine, inhibited platelet-leukocyte interactions, and prevented thrombin-induced platelet aggregation of human blood. Furthermore, analysis of human umbilical vein endothelial cells, leukocytes, and platelets revealed that CNP selectively attenuates expression of P-selectin. Thus, CNP is a modulator of acute inflammation in the blood vessel wall characterized by leukocyte and platelet activation. These antiinflammatory effects appear to be mediated, at least in part, via suppression of P-selectin expression. These observations suggest that endothelial CNP might maintain an anti-atherogenic influence on the blood vessel wall and represent a target for therapeutic intervention in inflammatory cardiovascular disorders.
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PMID:C-type natriuretic peptide inhibits leukocyte recruitment and platelet-leukocyte interactions via suppression of P-selectin expression. 1617 91

Regulated secretion of EC (endothelial cell) vWF (von Willebrand factor) is part of the haemostatic response. It occurs in response to secretagogues that raise intracellular calcium or cAMP. Statins are cholesterol-lowering drugs used for the treatment of cardiovascular disease. We studied the effect of fluvastatin on regulated secretion of vWF from HUVEC (human umbilical-vein ECs). Secretion in response to thrombin, a protease-activated receptor-1 agonist peptide, histamine, forskolin and adrenaline (epinephrine) was inhibited. This inhibition was reversed by mevalonate or geranylgeranyl pyrophosphate, and mimicked by a geranylgeranyl transferase inhibitor, demonstrating that the inhibitory mechanism includes inhibition of protein geranylgeranylation. To investigate this mechanism further, calcium handling and NO (nitric oxide) regulation were studied in fluvastatin-treated HUVEC. Intracellular calcium mobilization did not correlate with vWF secretion. Fluvastatin increased eNOS [endothelial NOS (NO synthase)] expression, but NOS inhibitors failed to reverse the effect of fluvastatin on vWF secretion. Exogenous NO did not inhibit thrombin-induced vWF secretion. Many small GTPases are geranylgeranylated and some are activated by secretagogues. We overexpressed DN (dominant negative) Rho GTPases, RhoA, Rac1 and Cdc42 (cell division cycle 42), in HUVEC. DNCdc42 conferred inhibition of thrombin- and forskolin-induced vWF secretion. We conclude that, via inhibition of protein geranylgeranylation, fluvastatin is a broadspectrum inhibitor of regulated vWF secretion. Geranylgeranylated small GTPases with functional roles in regulated secretion, such as Cdc42, are potential targets for the inhibitory activity of fluvastatin.
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PMID:Fluvastatin inhibits regulated secretion of endothelial cell von Willebrand factor in response to diverse secretagogues. 1747 73

Coronary artery disease results in progressive vascular stenosis associated with chronic myocardial ischemia. Vascular endothelial growth factor (VEGF) stimulates endothelial cell angiogenic responses to revascularize ischemic tissues; however, the effect of chronic hypoxia on the responsiveness of endothelial cells to VEGF remains unclear. We, therefore, investigated whether hypoxia alters VEGF-stimulated signaling and angiogenic responses in primary human coronary artery endothelial (HCAE) cells. Exposure of HCAE cells to hypoxia (1% O(2)) for 24 h decreased VEGF-stimulated endothelial cell migration ( approximately 82%), proliferation ( approximately 30%), and tube formation. Hypoxia attenuated VEGF-stimulated activation of endothelial nitric oxide (NO) synthase (eNOS) ( approximately 72%) and reduced NO production in VEGF-stimulated cells from 237 +/- 38.8 to 61.3 +/- 28.4 nmol/l. Moreover, hypoxia also decreased the ratio of phosphorylated eNOS to total eNOS in VEGF-stimulated cells by approximately 50%. This effect was not observed in thrombin-stimulated cells, suggesting that hypoxia specifically inhibited VEGF signaling upstream of eNOS phosphorylation. VEGF-induced activation of Akt, ERK1/2, p38, p70S6 kinases, and S6 ribosomal protein was also attenuated in hypoxic cells. Moreover, VEGF-stimulated phosphorylation of VEGF receptor-2 (KDR) at Y996 and Y1175 was decreased by hypoxia. This decrease correlated with a 70 +/- 12% decrease in KDR protein expression. Analysis of mRNA from these cells showed that hypoxia reduced steady-state levels of KDR mRNA by 52 +/- 16% and decreased mRNA stability relative to normoxic cells. Our findings demonstrate that chronic hypoxia attenuates VEGF-stimulated signaling in HCAE cells by specific downregulation of KDR expression. These data provide a novel explanation for the impaired angiogenic responses to VEGF in endothelial cells exposed to chronic hypoxia.
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PMID:Chronic hypoxia attenuates VEGF signaling and angiogenic responses by downregulation of KDR in human endothelial cells. 1924 79

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