UMLS:C0406810 - FACTA Search

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The proteolytic enzyme thrombin activates its receptor by cleavage of a peptide from the extracellular N-terminus. The newly generated N-terminus acts as a tethered ligand to activate the receptor. Receptor-mediated cellular effects of thrombin can be mimicked by synthetic peptides, which correspond to the amino acid sequence of the newly formed N-terminus. The aim of the present study was to investigate vascular effects of thrombin and the thrombin receptor activating peptide (TRAP: SFLLRN) in vitro and in vivo in rats. In precontracted rat aortic rings, both thrombin (0.3, 1, 3 U/ml) and TRAP (1, 3, 10, 20, 40 microM) induced endothelium-dependent relaxant responses. In anaesthetized rats, the mean arterial blood pressure (MAP) was measured continuously in the carotid artery by a pressure transducer. Thrombin and TRAP were administered as intravenous bolus injection via the femoral vein. Thrombin at doses of 3-100 U/kg, as well as TRAP at doses of 0.1-0.6 mg/kg i.v., caused a reversible decrease in MAP. Administration of TRAP at doses of 0.3 and 0.6 mg/kg led to a triphasic response in most of the animals treated (50% and 75%, respectively), i.e. a short drop of MAP was followed by an increase and finally a longer lasting decrease in MAP. Pretreatment with the nitric oxide (NO)-synthase inhibitor N(G)-nitro-L-arginine-methylester (L-NAME) suppressed the dose-dependent vasodilator effects of thrombin. Heparin and hirudin also inhibited the hypotensive response to thrombin. The TRAP-induced triphasic reaction on MAP was not affected by the serotonin antagonists ketanserin and tropisetron, as well as the aminopeptidase inhibitor amastatin. Pretreatment with L-NAME led to an inhibition of hypotension induced by TRAP at 0.1 mg/kg, as well as of the initial transient fall in blood pressure at doses of 0.3 and 0.6 mg/kg. The studies suggest that the thrombin- and TRAP-induced vasodilation in vitro and in vivo is in part due to the release of endothelial NO. In the blood pressure response to TRAP, additional effects seem to be involved.
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PMID:Systemic vascular effects of thrombin and thrombin receptor activating peptide in rats. 1132 4

Despite evidence of elevated levels of tissue factor and platelet binding by apoptotic endothelial cells, microthrombi do not appear to be associated with apoptotic endothelium and this suggests maintained anti-aggregatory activity for platelets. We report that anti-aggregatory activity is maintained by apoptotic endothelium obtained by serum and or matrix deprivation, which we propose as models for apoptotic endothelial cells released during microvascular remodelling and traumatic detachment respectively. Both apoptotic and non-apoptotic endothelium had strong anti-aggregatory activity for platelets stimulated with either ADP or thrombin. Inhibition experiments using L-NAME and indomethacin indicated a role for nitric oxide and prostacyclin in this activity. Experiments with latex beads further confirmed that inhibited platelet aggregation by endothelium was not merely a non-specific phenomenon. These data support the idea that EC maintain active antithrombotic activity during apoptosis, consistent with maintained urokinase levels and canalicular fragmentation reported elsewhere.
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PMID:Human endothelial cells maintain anti-aggregatory activity for platelets during apoptosis. 1137 88

Serine proteinases elicit profound cellular effects in various tissues mediated by activation of proteinase-activated receptors (PAR). In the present study, we investigated the vascular effects of cathepsin G, a serine proteinase that is present in the azurophil granules of leukocytes and is known to activate several cells that express PARs. In prostaglandin F2alpha (3 microM)-precontracted rings from porcine pulmonary arteries with intact endothelium, cathepsin G caused concentration-dependent relaxant responses (pEC(50)=9.64+/-0.12). The endothelium-dependent relaxant effect of cathepsin G could also be demonstrated in porcine coronary arteries (pEC(50)=9.23+/-0.07). In pulmonary arteries the cathepsin G-induced relaxation was inhibited after blockade of nitric oxide synthesis by L-NAME (200 microM) and was absent in endothelium-denuded vessels. Bradykinin- and cathepsin G-induced relaxant effects were associated with a 5.7 fold and 2.4 fold increase in the concentration of cyclic GMP, respectively. Compared with thrombin and trypsin, which also produced an endothelium-dependent relaxation in pulmonary arteries, cathepsin G was 2.5 and four times more potent, respectively. Cathepsin G caused only small homologous desensitization. In cathepsin G-challenged vessels, thrombin was still able to elicit a relaxant effect. The effects of cathepsin G were blocked by soybean trypsin inhibitor (IC(50)=0.043 microg ml(-1)), suggesting that proteolytic activity is essential for induction of relaxation. Recombinant acetyl-eglin C proved to be a potent inhibitor (IC(50)=0.14 microg ml(-1)) of the cathepsin G effect, whereas neither indomethacin (3 microM) nor the thrombin inhibitor hirudin (5 ATU ml(-1)) elicited any inhibitory activity. Due to their polyanionic structure defibrotide (IC(50)=0.11 microg ml(-1)), heparin (IC(50)=0.48 microg ml(-1)) and suramin (IC(50)=1.85 microg ml(-1)) diminished significantly the relaxation in response to the basic protein cathepsin G. In conclusion, like thrombin and trypsin, cathepsin G is able to induce endothelium-dependent vascular relaxation. It can be released from activated leukocytes at sites of vascular injury and inflammation and, therefore, sufficiently high concentrations might be reached locally in the vascular space to induce vasodilatation.
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PMID:Endothelium-dependent relaxation induced by cathepsin G in porcine pulmonary arteries. 1137 59

Adhesion and transmigration of leukocytes into arterial walls occurs after vascular injury and may play a role in the development of atherosclerosis and restenosis. This protocol presents a simple, rapid method for quantifying leukocyte adhesion to artery segments ex vivo. The procedure involves isolating leukocytes from rabbit whole blood and labelling with the gamma-emitting isotope 51Cr. Labelled leukocytes are added to open rings of subclavian artery taken from the same rabbit. After gamma counting, percentage leukocyte adhesion can be calculated with reference to a sample containing a quantity of labelled leukocytes equivalent to that which was added to the artery. Leukocyte adhesion was increased by L-NAME, thrombin and increasing incubation time and decreased by low temperatures. In addition, leukocyte adhesion was found to be increased following a vascular stretch injury performed in vitro. This protocol offers a number of advantages: the rapidity of the leukocyte isolation and labelling; the small quantity of leukocytes required; the ability to use autologous leukocytes; the applicability to whole arteries and arteries injured in vitro or in vivo, allowing the effects of vascular injury on leukocyte adhesion to be studied.
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PMID:Validation of a technique to measure leukocyte adhesion to arterial segments: effects of drug treatments. 1168 53

Endothelium-derived relaxing factor (EDRF) or nitric oxide (NO) biosynthesis from L-arginine occurs in the endothelium and platelets and may modulate platelet function and contribute to thromboresistance in the vessel wall. A rat model was used to evaluate selective accumulation of (III)In-labeled platelets in the pulmonary microcirculation following the administration of collagen, adenosine 5'-diphosphate (ADP) or thrombin. Platelet aggregation was monitored continuously over the thorax using a microcomputer-based system. Sodium nitroprusside, a stimulator of soluble guanylate cyclase and zaprinast, a phosphodiesterase V inhibitor, both known to cause accumulation of cyclic guanosine monophosphate, exhibited moderate inhibitory activity, which was shared by L-arginine. N(G)-monomethyl-L-arginine (L-NMMA; 1 mg/kg/min), an inhibitor of EDRF(NO), potentiated the aggregatory response to collagen at an intravenous dose of 100 &mgr;g/kg but not at one of 30 &mgr;g/kg. D-NMMA had no such effect. The augmenting effect of L-NMMA was abolished by L-arginine. N(G)-nitro-L-arginine methyl ester (L-NAME; 0.1 mg/kg/min) also markedly augmented the collagen-induced platelet response, and, at higher doses, all treated animals died upon collagen challenge. Both L-NMMA and L-NAME did not affect the responses to ADP and thrombin. The results suggest that in the intact vascular system, basal releae of EDRF(NO) is not critically involved in modulation of platelet function but becomes a significant factor when platelets are exposed to great amounts of collagen fibrils. Copyright 1994 S. Karger AG, Basel
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PMID:EDRF(NO)-Mediated Modulation of Collagen-Induced Platelet Accumulation in Rat Pulmonary Microcirculation. 1172 5

Reduced activity of endothelial nitric oxide (NO) may be involved in thrombus formation on atherosclerotic plaques, a major cause of acute coronary syndrome. However, mechanisms of such increase in arterial thrombogenecity have not been fully understood. We previously reported that long-term inhibition of NO synthesis by administration of N(G)-nitro-L-arginine methyl ester (L-NAME) causes hypertension and activates vascular tissue angiotensin-converting enzyme (ACE) activity. We used this model to investigate the mechanism by which long-term impairment of NO activity increases arterial thrombogenecity. We observed cyclic flow variations (CFVs), a reliable marker of platelet thrombi, after the production of stenosis of the carotid artery in rats treated with L-NAME for 4 wk. The thrombin antagonist argatroban suppressed the CFVs. The CFVs were detected in rats receiving L-NAME plus hydralazine but not in rats receiving L-NAME plus an ACE inhibitor (imidapril). Treatment with the ACE inhibitor imidapril, but not with hydralazine, prevented L-NAME-induced increases in carotid arterial ACE activity and attenuated tissue factor expression. These results suggest that long-term inhibition of endothelial NO synthesis may increase arterial thrombogenecity at least in part through angiotensin II-induced induction of tissue factor and the resultant thrombin generation. These data provide a new insight as to how endothelial NO exhibits antithrombogenic properties of the endothelium.
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PMID:Long-term inhibition of nitric oxide synthesis increases arterial thrombogenecity in rat carotid artery. 1189 85

The objective of this study was to develop an assay system that allows continuous monitoring of nitric oxide (NO) released from crystalloid perfused hearts. We utilized chemiluminescence reaction between NO and luminol-H(2)O(2) to quantify the NO level in coronary effluent. Isolated rat hearts were subjected to ordinary Langendorff's perfusion, and the right ventricle was cannulated to sample coronary effluent. After equilibration, the coronary flow rate was set constant and the hearts were paced at 300 bpm. Coronary effluent was continuously sampled and mixed with the chemiluminescent probe containing 0.018 mmol/l luminol plus 10 mmol/l H(2)O(2). Chemiluminescence from the mixture of coronary effluent and the probe was continuously measured. NO concentration was calibrated by various concentrations (0.5-400 pmol/l) of standard NO solution. The lower detection limit of NO was 1 pmol/l. Basal NO release from isolated perfused rat heart was 0.41 +/- 0.17 pmol/min/g of heart weight, and that was significantly suppressed by 0.1 mmol/l of L-NAME to 0.18 +/- 0.10 pmol/min/g of heart weight (n = 7). Application of 0.1 and 0.3 micromol/l acetylcholine increased NO level in the coronary effluent, in a concentration-dependent manner, from 6.6 +/- 1.7 in a baseline condition to 16.3 +/- 7.4 and 30.3 +/- 16.1 pmol/l at each peak, respectively. Thrombin at 1 and 10 U/ml also increased NO level from 17.6 +/- 4.3 in control to 35.5 +/- 10.4 and 48.7 +/- 8.7 pmol/l at each peak, respectively (n = 7). Thus, this assay system is applicable to the continuous real-time measurement of NO released from crystalloid perfused hearts, and it may be useful for the study of physiological or pathophysiological role of NO in coronary circulation.
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PMID:Real-time measurement of nitric oxide by luminol-hydrogen peroxide reaction in crystalloid perfused rat heart. 1249 78

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

The role of nitric oxide during neonatal sepsis is complex. We tested the hypothesis that nonselective inhibition of nitric oxide synthase with N(omega) -nitro-L-arginine methyl ester (L-NAME) is detrimental during the early phase of experimental sepsis in the newborn piglet. Newborn piglets were divided into four groups: 6 in the control group, 6 in the L-NAME control group, 12 in the sepsis group (SG), and 11 in the sepsis with L-NAME group (NS). Sepsis was induced by intravenous injection of 10(8) colony forming units of Escherichia coli. L-NAME 10 mg/kg was given intravenously 60 min before the induction of sepsis. The survival rate of piglets after 4 hr was 27% in NS, while it was 100% in other groups. Systemic hypotension, observed in both SG and NS, were more profound in NS. Leukopenia was observed in both SG and NS. Thrombocytopenia, prolongation of prothrombin time and activated partial thromboplastin time, and increase in thrombin-antithrombin complexes were observed only in NS. Decreased PaO2 /FiO2 ratio, arterial pH and base excess, and increased blood lactate levels observed in both SG and NS, but were more profound in NS. These findings suggest that nonselective inhibition of nitric oxide synthase with L-NAME is detrimental during the early phase of experimental neonatal sepsis.
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PMID:Detrimental effects of N(omega) nitro-L-arginine methyl ester (L-NAME)in experimental Escherichia coli sepsis in the newborn piglet. 1455 13

Although sepsis-induced release of nitric oxide (NO) is known to have an antithrombotic effect, it is unknown if NO exerts this same effect under physiological conditions. We have there-fore attempted to determine whether or not NO protects against thrombus formation in normal Wistar rats injected with various amounts (0.8, 4.0, 20.0 and 100 mg/kg/4 hr) of L-NAME (N (omega)-nitro-l-arginine methyl ester), an NO synthase inhibitor, via the tail vein. Plasma levels of D-dimer fragments of fibrin were significantly increased in rats receiving L-NAME (0.21+/-0.04, 0.22+/-0.05, 0.26+/-0.07, 0.59+/-0.17 micro g/mL, means+/-SE; p<0.05, 0.05, 0.05, 0.01: L-NAME 0.8, 4, 20, 100, respectively, compared with control levels: <0.06 micro g/mL), and thrombin-anti-thrombin complex (TAT) levels were significantly increased in rats receiving 20mg/kg/4 hr or greater doses of L-NAME (4.5+/-1.1, 4.7+/-1.4, 18.7+/-4.9, 42.5+/-4.0 ng/mL, NS, NS, p<0.05, 0.01, respectively, compared with control levels: 3.8+/-1.2 ng/mL). Glomerular fibrin deposition was increased in a dose-dependent manner in rats receiving L-NAME (6.8+/-1.5, 13.9+/-1.6, 32.4+/-2.6, 49.2+/-5.2%, p<0.05, 0.05, 0.01, 0.01, respectively, com-pared with control levels: 0.0+/-0.0%). Renal dysfunction and hepatic dysfunction were observed in rats receiving 20mg/kg/4 hr or greater, or 100mg/kg/4 hr, doses of L-NAME, respectively. Mean blood pressure was also elevated in rats receiving L-NAME in a dose-dependent manner. These findings suggest that NO, in addition to regulating blood pressure, is involved in prevention of thrombus formation under physiological circumstances.
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PMID:Antithrombotic role of nitric oxide in rats under physiological conditions. 1469 70

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