UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the effects of ABT-627, a selective ETA-receptor antagonist, and A-192621, a selective ETB-receptor antagonist, on ischemic acute renal failure (ARF) in rats. Ischemic ARF was induced by clamping the left renal artery and vein for 45 min, 2 weeks after the contralateral nephrectomy. Renal function in untreated ARF rats markedly decreased at 24 h after reperfusion and thereafter tended to recover gradually. ABT-627 (1 mg/kg, i.v.) administration before ischemia markedly attenuated the renal dysfunction induced by the ischemia/reperfusion, whereas A-192621 (3 mg/kg, i.v.) pretreatment was without effect. Histopathological examination of the kidney of untreated ARF rats revealed severe renal damage such as tubular necrosis, proteinaceous casts in tubuli and medullary congestion. Histologically evident damage was improved by pretreatment with ABT-627, but not with A-192621. Daily oral administration of ABT-627 (10 mg/kg per day), but not A-192621 (30 mg/kg per day), given after the ischemia/reperfusion period also exerted protective effects. These findings clearly indicate that endothelin, acting via the ETA receptor, participates in the pathogenesis of ischemic ARF. Thus, selective ETA-receptor antagonism may be useful in the treatment of human ischemic ARF, whereas selective blockade of the ETB receptor will probably be ineffective.
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PMID:Selective antagonism of the ETA receptor, but not the ETB receptor, is protective against ischemic acute renal failure in rats. 1087 50

Endothelin (ET) -1 is a potent vasoconstrictor and promitogenic peptide produced by the vascular endothelium. The ET system is activated in atherosclerosis and in most cardiovascular conditions associated with increased vascular tone and remodelling. There are two ET-receptor (ET-R) subtypes: the ETA-Rs mediate smooth muscle vasoconstriction and proliferation, and the more complex ETB-Rs have antagonistic actions - they serve a dual role of clearance and vasodilation in the endothelium, while in smooth muscle cells they also provoke vasoconstriction. Selective ETA-R and nonselective ETA/B-R antagonists are entering the clinical development phase. These agents have shown their effectiveness in the therapy of various models of heart failure, pulmonary hypertension, systemic hypertension and ischemia-reperfusion and in the prevention of restenosis. In patients with congestive heart failure, short term ET-antagonist (ET-R) therapy provides hemodynamic and symptomatic improvement. Because of the dual role of the ETB-R, nonselective antagonists may provide greater or fewer benefits than selective ETA-R antagonists: a lack of direct comparison of the two categories of agents, however, does not allow this distinction at present. In the evaluation of this new class of therapeutic agents, particular attention should be paid to potency and receptor selectivity of a compound, the alterations in ETA-R and ETB-R activity brought on by pathological conditions, the proportions of ETA versus ETB-R of the target system, and finally, the net importance of the possible protective role of the endothelial ETB versus the deleterious effects of the smooth muscle ETB-R.
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PMID:Endothelin receptor antagonists and their developing role in cardiovascular therapeutics. 1093 9

We characterized the time-course, intensity of expression and cellular origin of components of the endothelin (ET) system in the rat brain after a standardized neurotrauma (cryogenic lesion of the parietal cortex). ET mRNAs were expressed at sham level after neurotrauma, whereas immunoreactivity for ET-1 was enhanced in glia and endothelium of the lesioned hemisphere and both hippocampi. The number of ET-3 positive mononuclear cells in the lesion perimeter increased starting at 24h after injury. At 48h after neurotrauma, ET-receptor immunoreactivity was increased in astrocytes. In basilar artery endothelium, ETB-immunoreactivity was reduced at 48h to 72h recovering at 7 days whereas ETA-receptor and ET-peptide immunoreactivities were not altered. In summary, neurotrauma leads to a multicellular stimulation of endothelins in the brain along with a delayed selective loss of vascular ETB-receptors. These changes seem to be posttranscriptional and cell type specific. They favor vasoconstriction increasing the risk of late vasospasm and ischemia.
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PMID:Differential glial and vascular expression of endothelins and their receptors in rat brain after neurotrauma. 1095 92

In earlier studies severe ventricular arrhythmias developed during intrapericardial (i.p.) endothelin-1 (ET-1) infusion. Monophasic action potential duration (MAPD90) increase and significant ST segment elevation preceded the onset of arrhythmias. The aim of this study was to test the antiarrhythmic and anti-ischemic efficacy of the mixed endothelin-A- and -B- (ETA/B) receptor antagonist bosentan (BOS) on ET-1-induced arrhythmias on six mongrel dogs. Ten minutes after an intravenous bolus dose of BOS (10 mg/kg), ET-1 (33 pmol/kg/min) was given into the pericardial space for 30min (BOS group). Six control dogs received only ET-1 infusion (control group). Mean arterial blood pressure (MAP), cardiac output, electrocardiograph (ECG), right and left ventricular endo- and epicardial (RVEND, RVEP, LVEND, LVEP) MAPD90s were recorded. MAP and cardiac output did not change significantly in the BOS group. Significant MAPD90 prolongation was found in all investigated regions of the control group (ET start vs ET 20 min: LVEP, 174 +/- 3 vs 208 +/- 10*; RVEND, 206 +/- 9 vs 241 +/- 12* ms, *p < 0.05), while significant MAPD90 alterations were not observed in the BOS group (basic vs ET 20 min: RVEP, 189 +/- 5 vs 196 +/- 5; LVEP, 199 +/- 5 vs 199 +/- 4; RVEND, 194 +/- 5 vs 195 +/- 6; LVEND, 209 +/- 3 vs 213 +/- 5 ms). Early after depolarizations (EADs) were observed in three control dogs. Severe ventricular arrhythmias [incessant nonsustained ventricular tachycardias (nsVTs) in all cases, sustained VTs (sVTs) in four, ventricular fibrillation (VF) in two instances] were present in the control group, whereas nsVTs were observed only in two dogs in the BOS group. ST segment elevation was more pronounced in the control group than in the BOS group (1.01 +/- 0.2 vs 0.41 +/- 0.07 mV, p < 0.05). In summary, bosentan effectively inhibits intrapericardial ET- 1-induced ventricular arrhythmias, moreover it may have a protective effect against epimyocardial ischemia.
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PMID:Bosentan the mixed endothelin-A- and -B-receptor antagonist suppresses intrapericardial endothelin-1-induced ventricular arrhythmias. 1107 9

Under pathological conditions such as ischemia (I), subarachnoid hemorrhage, and Alzheimer's disease, astrocytes show a large increase in endothelin (ET) -like immunoreactivity. However, it is not clear whether ET is protective or destructive to these cells during brain injury. Using astrocytes from ET-1-deficient mice, we determined the effect of ET-1 on these cells under normal, hypoxic (H), and hypoxic/ischemic (H/I) conditions. Under normal culture conditions, astrocytes from wild-type and ET-1-deficient mice showed no difference in their morphology and cell proliferation rates. ET-3 and ETA receptor mRNAs were up-regulated whereas ETB receptor mRNA was down-regulated in ET-1-deficient astrocytes, suggesting that ET-1 and ET-3 may complement each other's functions and that the expressions of these endothelins and their receptors are regulated by a complex feedback mechanism. Under H and H/I conditions, ET-1 peptide and mRNA were up-regulated in wild-type astrocytes, and the astrocytes without ET-1 died faster than the wild-type astrocytes, as indicated by greater efflux of lactate dehydrogenase. The present study suggests that astrocytes without ET-1 are more vulnerable to H and H/I injuries and that the up-regulation of astrocytic ET-1 is essential for the survival of astrocytes.
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PMID:Endothelin-1 protects astrocytes from hypoxic/ischemic injury. 1125 80

Immediately after an acute myocardial infarction (AMI) or in models of ischemia-reperfusion injury, cardiac endothelin (ET) system is markedly activated, and plasma levels of ET are increased. In the heart, expression of the main components of the ET system (ET-1 peptide, both receptor subtypes ETA and ETB, though not endothelin converting enzyme) are increased both at the gene level and protein level, in the viable myocardium, and--even more substantially--in the necrotic area. Despite these conspicuous abnormalities, the role of ET in this setting remains unclear. In the absence of human data, most short-term studies in animals (in terms of hours to up to 8 days post-AMI) and in the reperfused ischemic heart, have found beneficial effects of ET receptor blockade on survival rate, incidence of arrhythmias, cardiac function, and morphology. In contrast, many studies in which a long-term ET inhibition was started immediately post-infarction and the late effects were examined in animals with ensuing chronic heart failure (14-100 days postinfarction), adverse effects were also observed, such as scar thinning, further ventricular dilation, or even a worse survival rate. It appears that the ET system plays a dual role during the early post-AMI period. At present, it is not clear whether the short-term beneficial effects or long-term adverse effects of ET receptor blockade would prevail. Acute use of short-acting ET receptor antagonists in patients with AMI complicated by an acute heart failure is an attractive possibility that also remains to be investigated.
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PMID:The endothelin system and its role in acute myocardial infarction. 1283 71

Endothelin (ET) receptor antagonism protects from ischemia-reperfusion injury. We hypothesized that the cardioprotective effect is related to nitric oxide (NO) bioavailability. Buffer-perfused rat and mouse hearts were subjected to ischemia and reperfusion. At the onset of ischemia, the rat hearts received vehicle, the dual endothelin type A/type B (ETA/ETB) receptor antagonist bosentan (10 microM), the NO synthase inhibitor NG-monomethyl-L-arginine (L-NMMA; 100 microM), the combination of bosentan and L-NMMA or the combination of bosentan, L-NMMA, and the NO substrate L-arginine (1 mM). Hearts from wild-type and endothelial NO synthase (eNOS)-deficient mice received either vehicle or bosentan. Myocardial performance, endothelial function, NO outflow, and eNOS expression were monitored. Bosentan significantly improved myocardial function during reperfusion in rats and in wild-type mice, but not in eNOS-deficient mice. The functional protection afforded by bosentan was inhibited by L-NMMA, whereas it was restored by L-arginine. Myocardial expression of eNOS (immunoblotting) increased significantly in bosentan-treated rat hearts compared with vehicle hearts. Recovery of NO outflow during reperfusion was enhanced in the bosentan-treated rat heart. The endothelium-dependent vasodilator adenosine diphosphate increased coronary flow by 18 +/- 9% at the end of reperfusion in the bosentan group, whereas it reduced coronary flow by 7 +/- 5% in the vehicle group (P < 0.001). The response to the endothelium-independent dilator sodium nitroprusside was not different between the two groups. In conclusion, the dual ETA/ETB receptor antagonist bosentan preserved endothelial and cardiac contractile function during ischemia and reperfusion via a mechanism dependent on endothelial NO production.
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PMID:Nitric oxide mediates protective effect of endothelin receptor antagonism during myocardial ischemia and reperfusion. 1469 83

Hepatic microcirculatory failure is a major component of reperfusion injury in the liver. Recent data provided some evidence that endothelium-derived vasoconstrictors and vasodilators may be functionally important to the control of the total hepatic blood flow under these conditions of circulatory failure. Since Kupffer cells provide signals that regulate the hepatic response in ischemia/reperfusion (I/R), the aim of this study was to investigate the role of Kupffer cells in the I/R-induced imbalance of vasoregulatory gene expression. Rats were subjected to 60 min hepatic ischemia, followed by 5 h of reperfusion. The Kupffer cells were inactivated by gadolinium chloride (GdCl3, 7.5 mg/kg body weight, intravenously) 1 day prior to ischemia. Liver samples were obtained 5 hrs after reperfusion for RT-PCR analysis of the mRNA for genes of interest: endothelin-1 (ET-1), its receptors ETA and ETB, endothelial nitric oxide synthase (eNOS), inducible nitric oxide synthase (iNOS) and heme oxygenase-1 (HO-1). ET-1 mRNA expression was increased by I/R. mRNA levels for ETA receptors showed no change, whereas ETB receptor transcripts increased in the I/R group. The increases in ET-1 and ETB mRNA were not prevented by the GdCl3 pretreatment. The mRNA levels for iNOS and eNOS significantly increased within the I/R group with no significant difference between the I/R group and the GdCl3-treated I/R group. HO-1 mRNA expression significantly increased in the I/R group and this increase was attenuated by GdCl3. In conclusion, we have demonstrated that an imbalance in hepatic vasoregulatory gene expression occurs during I/R. Our findings suggest that the activation of Kupffer cells is not required for I/R-induced hepatic microvascular dysfunction.
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PMID:Role of Kupffer cells in the vasoregulatory gene expression during hepatic ischemia/reperfusion. 1496 49

Endothelin-1 has been shown to be associated with greater myocardial ischemia and reperfusion injury in which oxidative stress plays a key role. The efficacy of bosentan, a mixed ETA-ETB endothelin receptor antagonist, in protecting the myocardium from ischemia-reperfusion injury and oxidative stress was studied in open-chest Wistar rats. Anesthetized adult male rats (175-250 g b wt) underwent sham operation (SHAM group) or were subjected to 40 min of myocardial ischemia (MI) induced by temporary occlusion of the left anterior descending coronary artery (LAD) followed by 2 h reperfusion (R). Rats submitted to the MI-R protocol were administered bosentan at a dose of 3 mg/kg i.v. 20 min (BOS group) or saline (CON group) 20 min post-occlusion of LAD. After the 2 h reperfusion period the animals were euthanized and the heart rapidly excised. Cardiac tissue samples were snap frozen in liquid nitrogen for biochemical assay and were fixed in 10% formalin solution for histologic evaluation. Myocardial I-R resulted in a significant increase (p < 0.05) in the myocardial malondialdehyde levels and a decrease (p < 0.01) in the myocardial reduced glutathione content. These changes were associated with significant decreases in the myocardial activity of antioxidant enzymes superoxide dismutase (p < 0.05) and catalase (p < 0.01) and severe tissue damage in the jeopardized myocardium in the CON group as compared with the non-myocardial ischemia-reperfusion (NMI-R) SHAM group. Bosentan exerted marked tissue protective effect as assessed by histologic evaluation of the myocardium. The drug significantly (p < 0.05) attenuated myocardial oxidative stress and restored the cellular antioxidant defense mechanisms as compared with the saline-treated controls subjected to the MI-R protocol. Furthermore, bosentan also exerted a marked effect on peripheral hemodynamics and heart rate during the reperfusion phase (data reported elsewhere). These results are consistent with the concept that endothelin-1 may be involved in the pathogenesis of myocardial ischemia and infarction. This study demonstrates the antioxidant effect of non-selective endothelin receptor antagonism elucidating that, part of the aetiology of ischemia and reperfusion induced myocardial injury involves impaired antioxidant defenses.
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PMID:Bosentan, the mixed ETA-ETB endothelin receptor antagonist, attenuated oxidative stress after experimental myocardial ischemia and reperfusion. 1633 85

Clazosentan, an endothelin ETA antagonist, is under development by Actelion (formerly Axovan), under license from F Hoffman-La Roche, for the potential prevention of cerebral infarction and ischemia induced by cerebral vasospasm following subarachnoid hemorrhage. Results from the phase IIb portion of a phase IIb/III clinical study are expected in the first half of 2006.
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PMID:Clazosentan (Actelion). 1655 88

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