Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0151744 (myocardial ischemia)
31,282 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Coronary constrictor actions of endothelin-1 (ET-1) are enhanced after myocardial ischemia/reperfusion (I/R), possibly owing to enhanced ETA-receptor-mediated constriction and/or loss of the opposing ETB-receptor-mediated vasodilatation. We examined the actions of ET-1, ET-2, and ET-3 and the selective ETB-receptor agonist sarafotoxin 6c (Sx6c) after I/R in perfused rat heart. To examine the effects of a loss of ETB-receptor-mediated vasodilatation on coronary constrictor responses to ET-1, we used repeated doses of Sx6c to desensitize ETB receptors. After I/R, the coronary constrictor effects of all three ETs were enhanced, whereas their initial vasodilator effects were inhibited. The pure coronary dilator effect of Sx6c observed in control hearts was also inhibited after I/R. After desensitization of ETB receptors, the coronary constrictor action of ET-1 was enhanced by an amount equivalent to the vasodilatation that had been lost. This enhancement of constriction was not as marked as that noted after I/R, suggesting that the enhanced coronary constrictor action of ET-1 after I/R is not simply due to loss of opposing ETB-receptor-mediated vasodilatation and that other mechanisms are involved. The most likely explanation is upregulation of functional ETA receptors after I/R because ETB-receptor stimulation did not cause coronary constriction in this preparation. The vasoconstrictor enhancement therefore is likely to be the combined effect of receptor upregulation and vasodilator loss.
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PMID:Responses to endothelins-1, -2, and -3 and sarafotoxin 6c after ischemia/reperfusion in isolated perfused rat heart: role of vasodilator loss. 753 62

Previous work indicated that endothelin (ET) may be involved in the pathogenesis of myocardial ischemia, although the relative importance of the ET receptor subtypes is presently not clear. The purpose of this study was to determine the role of myocardial ET-B receptors in mediating ischemic/reperfusion damage in isolated rat hearts. Saturation binding analyses were conducted with [125I]ET-1 and [125I]IRL-1620 to assess changes in ET-A and ET-B receptor binding. Total ET receptor density (Bmax) was greater in atrial versus ventricular tissue. ET-A Bmax was 8 to 10-fold greater than ET-B Bmax. In ischemic and ischemic/reperfused atrial tissue neither the equilibrium dissociation constant (Kd) nor Bmax for ET-B receptors was changed. The ET-B receptor Kd in ischemic or ischemic/reperfused ventricular tissue was also unchanged. In ischemic ventricular tissue there was a trend towards an increased ET-B Bmax, which was accentuated after ischemia/reperfusion. No changes were found in ET-A Bmax or Kd in ischemic ventricular or atrial tissue. The physiological importance of this receptor subtype in ischemic myocardium was determined using the selective ET-B agonist, sarafotoxin S6c. In non-ischemic tissue no effect on coronary flow or function were observed with sarafotoxin S6c. Furthermore, no changes were seen in ischemic time to contracture or any of the reperfusion indexes of myocardial damage. The sarafotoxin S6c utilized was active as it inhibited [125I]ET-3 binding to ET-B receptors (Ki = 0.1 nM). Thus, the pro-ischemic effect of ET-1 seems to be mediated by ET-A receptors. ET-B receptors do not appear to play a role in the pathogenesis of myocardial ischemia.
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PMID:Role of endothelin receptor subtype B (ET-B) in myocardial ischemia. 796 63

Endothelin (ET) has been implicated in cardiovascular disorders such as stroke and myocardial ischemia. Given the important role of the resistance vasculature in the control of blood flow, we investigated the ET receptors that mediate vasoconstriction in human small pial and coronary arteries supplying the brain and heart, respectively. ETA receptors were localized by autoradiography to the vascular smooth-muscle layer of pial, intracerebral, and intramyocardial arteries. In contrast, little ETB binding was observed. ET-1 was a more potent constrictor than ET-3 in both pial and coronary arteries. Biphasic ET-3 responses were obtained in four of 15 coronary arteries tested. The ETB agonist sarafotoxin S6c had little or no effect in these vessels. The nonpeptide, selective ETA receptor antagonist PD156707 caused a parallel shift to the right of the concentration-response curve to ET-1, yielding pA2 values of 9.17 +/- 0.07 and 8.38 +/- 0.17 in pial and coronary arteries, respectively. Slopes from Schild analysis were not significantly different from unity. These data suggest that ETA receptors predominate on the smooth-muscle layer of human small pial arteries. Coronary arteries also express mainly ETA receptors. However, a small population of contractile ETB receptors may also be present in some patients.
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PMID:Relative contribution of endothelin A and endothelin B receptors to vasoconstriction in small arteries from human heart and brain. 959 5

Congestive heart failure (CHF) is characterized by impaired left ventricular function, increased peripheral and pulmonary vascular resistance and reduced exercise tolerance and dyspnea. Thus, mediators involved in the control of myocardial function and vascular tone may be involved in its pathophysiology. The family of endothelins (ET) consists of four closely related peptides, ET-1, ET-2, ET-3 and ET-4, which cause vasoconstriction, cell proliferation and myocardial effects through activation of ETA receptors. In contrast, endothelial ETB receptors mediate vasodilation via release of nitric oxide and prostacyclin. In addition, ETB receptors in the lung are a major pathway for the clearance of ET-1 from plasma. Thus, infusion of an ETA-receptor antagonist into the brachial artery in healthy humans leads to vasodilation, whereas infusion of an ETB-receptor antagonist causes vasoconstriction. Endothelin-1 plasma levels are elevated in CHF and correlate both with hemodynamic severity and symptoms. Plasma levels of ET-1 and its precursor, big ET-1, are strong independent predictors of death after myocardial infarction as well as in CHF. Endothelin-1 contributes to increased systemic and pulmonary vascular resistance, vascular dysfunction, myocardial ischemia and renal impairment in CHF. Selective ETA, as well as combined ETA/B-receptor antagonists, have been studied in patients with CHF, and their use has shown impressive hemodynamic improvement (i.e., reduced peripheral vascular and pulmonary resistance as well as increased cardiac output). These results indicate that ET-receptor antagonists, indeed, have a potential to improve hemodynamics, symptoms and, potentially, prognosis in patients with CHF, which still carries a high mortality.
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PMID:Endothelin receptor antagonists in congestive heart failure: a new therapeutic principle for the future? 1134 56

Congestive heart failure (CHF) is a disease process characterized by impaired left ventricular function, increased peripheral and pulmonary vascular resistance and reduced exercise tolerance and dyspnea. Thus, mediators involved in the control of myocardial function and vascular tone may be involved in its pathophysiology. The family of endothelins (ET) consists of four closely related peptides, ET-1, ET-2, ET-3, and ET-4, which cause vasoconstriction, cell proliferation, and myocardial effects through activation of ET(A) receptors. In contrast, endothelial ET(B) receptors mediate vasodilation via release of nitric oxide and prostacyclin. In addition, ET(B) receptors in the lung are a major pathway for the clearance of ET-1 from plasma. Thus, infusion of an ET(A) receptor antagonist into the brachial artery in healthy humans leads to vasodilation whereas infusion of an ET(B) receptor antagonist causes vasoconstriction. ET-1 plasma levels are elevated in CHF and correlate both with the hemodynamic severity and with symptoms. Plasma levels of ET-1 and its precursor, big ET-1, are strong independent predictors of death in patients after myocardial infarction and with CHF. ET-1 contributes to increased systemic and pulmonary vascular resistance, vascular dysfunction, myocardial ischemia, and renal impairment in CHF. Selective ET(A) as well as combined ET(A/B) receptor antagonists have been studied in patients with CHF showing impressive hemodynamic improvements (i.e. reduced peripheral vascular and pulmonary resistance as well as increased cardiac output). These results indicate that ET receptor antagonists indeed have a potential to improve hemodynamics, symptoms, and potentially prognosis of CHF which still carries a high mortality.
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PMID:Endothelin A receptor antagonists in congestive heart failure: blocking the beast while leaving the beauty untouched? 1144 5

Endothelins (ETs) are the peptides made up of 21 amino acids synthesized and released by variety of cells. Following studies revealed three isoforms of ETs-ET-1, ET-2 and ET-3. Endothelin ET-1 is known as the most potent endothelium-derived vasoconstrictor peptide identified so far. Endothelin ET-1 acts in a paracrine manner on the two types of receptors ET-A and ET-B. The former is responsible for the vascular smooth muscle constriction and the latter for vasodilation or vasoconstriction depending on the subtype of this receptor (ET-B1 or ET-B2 respectively). Endothelin receptor subtypes have been demonstrated and pharmacologically characterized in the coronary vascular bed. A good deal of experimental and clinical data has been accumulated to support an important role of endothelin-1 in ischemic heart disease. In experimental animals, exogenous ET-1 was found to cause coronary vasoconstriction and, at higher doses, ventricular fibrillation and death. The plasma levels of immunoreactive endothelin-1 were found to be increased in patients with coronary arteriosclerosis, acute myocardial infarction, and angina. The purpose of this study was to critically review the experimental and clinical data supporting the involvement of ET-1 in ischemic heart disease.
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PMID:[Endothelin-1 in coronary artery disease]. 1177 Mar 4

Increased intrapericardial levels of endothelin-1 (ET-1) induce myocardial ischemia and concomitant release of the purine metabolites adenosine (ADO), inosine (INO) and hypoxanthine (HXA) into the pericardial fluid. However, the potential modulatory role of nitrogen monoxide in compensating the ET-1-induced ischemic stress is not fully elucidated. The pericardial elevations of purine metabolite concentrations in the pericardial fluid after ET-1 administration (150 pmol/kg intrapericardially) were measured in the in situ dog heart with (n = 6) or without (n = 5) systemic nitrogen monoxide synthase blockade (30 mg/kg (G)-nitro-L-arginine methyl ester, followed by 6 mg/min intravenously). After control sampling, three consecutive pericardial infusate samples (ET1, ET2, ET3) were obtained for purine metabolite determinations (high-performance liquid chromatography-ultraviolet). It was found that intrapericardial ET-1 elevated the pericardial purine metabolite concentrations significantly in both groups. No significant differences were detected between the control and (G)-nitro-L-arginine methyl ester-treated groups in ischemic changes of pericardial ADOmax (+3.27 +/- 1.13 microM versus +1.84 +/- 0.56 microM), INOmax (+15.21 +/- 2.3 microM versus +12.09 +/- 4.04 microM) and HXAmax (+16.34 +/- 2.98 microM versus +17.09 +/- 5.22 microM) levels and in the maximal ST elevations (0.43 +/- 0.05 mV versus 0.61 +/- 0.08 mV). The hemodynamic variables did not change with ET-1 administration. In conclusion, systemic nitrogen monoxide synthase blockade does not aggravate the ET-1-induced acute myocardial ischemia and the release of purine metabolites, suggesting that endogenous nitrogen monoxide is not a supplementary factor to purine metabolites in this type of coronary adaptive responses.
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PMID:Nitrogen oxide blockade does not aggravate the endothelin-1-induced myocardial ischemia and release of purine metabolites from the dog heart. 1583 9

Endothelin(ET)-1 (ET-1) increases after myocardial infarction and may have effects on myocardial function. ET-1 has also been shown to affect the action potential (AP) which may be arrhythmogenic and predispose to ventricular fibrillation (VF). The effects of ET-2 and ET-3 are uncertain. We hypothesized that the ETs increase during acute ischemia and that plasma levels are predictive of ischemically induced VF. Thirty-four domestic swine underwent balloon occlusion of the proximal LAD coronary artery. Occlusion was confirmed angiographically. Venous samples were collected from the right atrium at baseline and at 5 min intervals for 30 min or until VF induction. ET-1, ET-2, and ET-3 were measured using ELISA. Changes in plasma concentrations were assessed using repeated measures ANOVA with Dunnett's. A p < 0.05 was considered statistically significant. All animals had angiographic evidence of successful proximal LAD occlusion. ET-1 levels were significantly increased from a baseline at 20 min and remained elevated during 30 min of occlusion. ET-2 and ET-3 levels did not change from baseline values (figure, mean +/- SE). VF occurred in 60% of animals. Peak ET-1 values were not significantly different between VF and non-VF animals (6.2 +/- 2.2 vs. 4.8 +/- 2.3 pg/mL). No single ET-1 value had a VF predictive value >50%. There is a significant increase in ET-1 level within 20 min of acute myocardial ischemia. Despite known effects of ET-1 on the AP, this increase did not correlate with the occurrence of VF.
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PMID:Endothelin-1 is not predictive of ventricular ectopy or ventricular fibrillation during acute myocardial ischemia. 1884 77

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