Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018801 (heart failure)
 72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endothelin-B- (ETB) receptors located in vascular beds mainly mediate vasorelaxation, however, long-term treatment with a mixed ETA/ETB receptor antagonist has been shown to improve the survival rate of rats with heart failure in a similar way to ETA-receptor inhibitors. The inhibition of ETB-receptor-mediated action should therefore be beneficial in preventing the deterioration seen in heart failure, despite various adverse hemodynamic effects. We administered K-8794 (Kowa Co. Ltd, Japan, 2mg/kg/day, n = 6), an orally active selective ETB-receptor antagonist, to dogs with heart failure induced by rapid right ventricular pacing for 14 days, commencing 8 days after pacing. Control dogs were given a placebo (n = 6). Mean arterial pressure decreased and systemic vascular resistance increased in both groups at the end of the protocol. In the K-8794 group, however, those values were higher than in the control group. Cardiac output decreased in both groups, but there were no significant differences observed between the two groups. Plasma renin activity and aldosterone increased in both groups at the end of the protocol, however levels in the K-8794 group were significantly lower than those in the control group. In the K-8794 group, it was quite interesting to note that Na excretion and urine flow rate were higher than in the control group. Our findings thus suggest that, although ETB-receptor antagonism produces some hemodynamic disadvantages, it can successfully prevent body fluid retention through the suppression the activation the renin-angiotensin-aldosterone system in dogs with heart failure.
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PMID:Chronic effects of an orally active selective endothelin-B-receptor antagonist in experimental congestive heart failure. 1107 10

Endothelins, endothelin-1 (ET1), endothelin-2 (ET2) and endothelin-3 (ET3), are the most potent vasoconstrictor peptides released by endothelial cells. ET production is stimulated by vasopressor hormones, platelet-derived factors, coagulation products and cytokines, whereas nitric oxide and prostacyclin reduce ET production. ET bind to ETA and ETB receptors and produce marked and sustained rise in blood pressure, intense vasoconstriction of coronary arteries and have positive inotropic and chronotropic effects on myocardium. Besides, they influence neuroendocrine, renal and smooth muscle functions. ET appears to function mostly as a paracrine or an autocrine hormone. ET may have a role in hypertension, atherosclerosis, heart failure, coronary artery disease, renal insufficiency, vascular hypertrophy, respiratory and cerebrovascular conditions. Several antagonists of ET acting at receptor level or influencing endothelin converting enzyme (ECE) are under investigation and have great potential as agents for use in the treatment of wide spectrum of disease entities and as biologic probes for understanding the actions of ET in human beings.
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PMID:Endothelins and anti-endothelins. 1122 90

Evidence suggests that endothelin receptor antagonists may have therapeutic potential for the chronic treatment of heart failure. In the current study, the effects of an orally active mixed endothelin-A/endothelin-B (ETA /ETB ) receptor antagonist (enrasentan) were assessed in a model of cardiac hypertrophy and dysfunction (spontaneously hypertensive stroke prone rats) maintained on a high-salt/high-fat diet. Echocardiography was used to quantify cardiac performance and left ventricular dimensions. Enrasentan (1,200 and 2,400 parts per million in the high-salt/high-fat diet) had no significant effects on body weight and systolic blood pressure. However, increases in heart rate were not observed in the enrasentan-treated groups at 12 weeks (p < 0.05). Enrasentan-treated groups exhibited significantly improved survival (90-95% vs. 30% [control rats] at 18 weeks; p < 0.001). Enrasentan treatments also increased stroke volume (at 8, 12, and 16 weeks) and cardiac index (at 8 and 16 weeks) 33-50% and 45-63%, respectively. Enrasentan treatments reduced the relative wall thickness (14-27% at 8 and 12 weeks), ratio of left ventricular mass to body weight (20% at 12 weeks), and ratio of terminal heart weight to body weight (16-23%, p < 0.05). Finally, circulating aldosterone concentration (54-57%) and proANF fragment (33%) were reduced in enrasentan-treated groups (54-57% and 33%, respectively). Mixed ETA /ETB receptor antagonism improves cardiac performance and attenuates ventricular remodeling and premature mortality in an aggressive hypertension model.
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PMID:Enrasentan improves survival, limits left ventricular remodeling, and preserves myocardial performance in hypertensive cardiac hypertrophy and dysfunction. 1158 31

Three endothelin family peptides (endothelin-1, -2 and -3) exert an extremely potent and long-lasting vasoconstrictor action as well as other various actions through stimulating two subtypes of receptor (ETA and ETB). Vascular endothelial cells produce only endothelin-1. Although the pharmacological actions of exogenous endothelin-1 have been extensively analyzed, the physiological roles of endogenous endothelin-1 have long been obscure. Using potent and selective receptor antagonists, endothelin-1 has been demonstrated to contribute slightly to the maintenance of regional vascular tone. In gene-targeted mice, endothelin family peptides and their receptors have been shown to play an important role in the embryonic development of neural crest-derived tissues. In addition to its potent vasoconstrictor action, endothelin-1 has direct mitogenic actions on cardiovascular tissues, as well as co-mitogenic actions with a wide variety of growth factors and vasoactive substances. Endothelin-1 also promotes the synthesis and secretion of various substances including extracellular constituents. These effects of endogenous endothelin-1 would appear to be naturally concerned with the development and/or aggravation of chronic cardiovascular diseases, e.g. hypertension, pulmonary hypertension, vascular remodeling (restenosis, atherosclerosis), renal failure, and heart failure. A great many non-peptide and orally active endothelin receptor antagonists have been developed, and shown to exert excellent therapeutic effects in animal models as well as human patients with these diseases.
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PMID:Basic and therapeutic relevance of endothelin-mediated regulation. 1172 53

A role of the potent and long-acting vasoconstrictor peptide endothelin (ET)- I in the pathophysiology of chronic human heart failure has been postulated, based upon indirect evidence such as elevated plasma ET-1 levels and their relationship to the degree of haemodynamic impairment. Acute heart failure shares many features of chronic heart failure, albeit in an exaggerated fashion. As both the mixed ETA/ETB-receptor antagonist bosentan and the selective ETA receptor antagonist BQ 123 acutely improved the haemodynamics of chronic heart failure patients, there seems to be good reason to believe that ET-1 receptor antagonism may also be of benefit in the setting of acute heart failure. However, appropriate trials will have to be performed to document the clinical benefit of such an approach. Finally, the question remains open as to whether mixed ET-1 receptor antagonists like bosentan will prove better, worse or equal to antagonists that block the ETA, receptor only.
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PMID:Rationale and perspective of endothelin-1 antagonism in acute heart failure. 1181 79

Endothelin-1 (ET-1) has been found to be one of the most potent vasoconstrictive peptides known, and is therefore considered to be an important factor in diseases such as hypertension, heart failure, pulmonary hypertension, renal diseases, etc. Thus, the development of ET-receptor antagonists may offer a new therapeutic strategy in these fields. In this article, we summarize the method for assessing our compound as a selective ETA-receptor antagonist. Binding assays and in vitro function assays (isolated vessels) were examined for the assessment of in vitro potency, selectivity of the ETA receptor against the ETB receptor, specificity for ET receptors, agonistic activities for ET receptors and the blocking manner of the compound on ET receptors. Chinese hamster ovary (CHO) cells expressing human ET receptors and tissue membrane preparations from both human and animals were used for the binding assays. The specificity of the compound against ET receptors was demonstrated using 116 and 9 receptor binding and enzyme assays, respectively. The agonistic activity and potency of the compound at tissue levels were examined using isolated vessels. We also demonstrated the effect of protein binding on the potency of the compound by adding a physiological concentration of serum albumin to the tissue baths. In vivo potency and features of the compound as a selective ETA-antagonist were confirmed using mice, rats and dogs exogenously treated with ET-1 or big ET-1. We also demonstrated the compound's duration of action and pharmacokinetics in animal models and intact animals, respectively. From these experiments, we found a nonpeptide, potent, orally active and long-lasting, highly selective ETA-receptor antagonist.
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PMID:Methods for assessing endothelin ETA-receptor antagonists in preclinical studies. 1222 43

Three isopeptides of endothelin (ET-1, -2, and -3) exert various actions through stimulation of two sub-types of receptor (ETA and ETB). Vascular endothelial cells produce only ET-1. In addition to its powerful vasoconstrictor action, ET-1 has direct mitogenic actions on cardiovascular tissues, as well as comitogennic actions with a wide variety of growth factors and vasoactive substances. ET-1 also promotes the synthesis and secretion of growth factors and various substances, including extracellular constituents. These effects of endogenous ET-1 would naturally be thought to be concerned with the development and/or aggravation of chronic cardiovascular diseases; e.g., hypertension, pulmonary hypertension, vascular remodeling (stenosis, atherosclerosis), renal failure, and heart failure. A large number of peptide and orally active non-peptide endothelin receptor antagonists have been developed, and utilized to analyze physiological and pathophysiological roles of endogenous ET-1. These antagonists have been shown to exert excellent therapeutic effects in animal models of various kinds of diseases by either acute or chronic treatment. Therapeutic treatment of patients suffering from the above-mentioned cardiovascular diseases with ET-receptor antagonists have also been taking place, and bosentan (ETA/ETB antagonist) was recently approved by the FDA as a formal therapeutic drug for pulmonary hypertension. In this review, perspectives for therapeutic applicability of ET-receptor antagonists will be explored.
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PMID:[New expansion of endothelin research: perspectives for clinical application of endothelin-receptor antagonists]. 1261 54

With recognition of the significant role of the endothelin system in cardiovascular and pulmonary vascular diseases, attention has turned to the therapeutic application of agents that antagonize this system. Three strategies can be employed: dual endothelin receptor (ETA and ETB) antagonism, selective ETA antagonism and inhibition of endothelin-converting enzymes. The first two strategies have been evaluated in late-phase clinical trials, with mixed results. The use of the dual endothelin receptor antagonist bosentan in pulmonary arterial hypertension has been successful. Available data are less compelling, but nonetheless promising, for the use of bosentan in digital ulceration secondary to systemic sclerosis, and tezosentan (another dual receptor blocker) in acute heart failure. Both types of receptor antagonists, however, have been evaluated in systemic hypertension and chronic systolic heart failure and are unlikely to be further developed in these areas. For the treatment of hypertension, their (moderate) efficacy and safety/tolerability profiles appear no more favorable than existing antihypertensive agents. In terms of treatment for chronic heart failure, these agents appear to offer no further benefit over standard therapy for the treatment of chronic heart failure, and in fact, may be associated with poorer outcomes. The complexity of the endothelin system and its diverse roles in multiple disease states will ensure its position as a target for drug development.
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PMID:Current status of endothelin blockade for the treatment of cardiovascular and pulmonary vascular disease. 1274 22

Endothelin-1 (ET-1) is a pleiotropic hormone produced primarily by the endothelium. Synthesis of ET-1 is stimulated by the major signals of cardiovascular stress, such as vasoactive agents (angiotensin II, norepinephrine, vasopressin, and bradykinin), cytokines (e.g., tumor necrosis factor alpha and transforming growth factor beta), and other factors, including thrombin and mechanical stress. ET-1 induces vasoconstriction, is proinflammatory, promotes fibrosis, and has mitogenic potential, important factors in the regulation of vascular tone, arterial remodeling, and vascular injury. These effects are mediated via two receptor types, ETA and ETB. The role ET-1 plays in normal cardiovascular homeostasis and in mild essential hypertension in humans is unclear. However, certain groups of essential hypertensive patients may have ET-1-dependent hypertension, including blacks (subjects of African descent), salt-sensitive hypertensives, patients with low renin hypertension, and those with obesity and insulin resistance. ET-1 has also been implicated in severe hypertension, heart failure, atherosclerosis, and pulmonary hypertension. In all of these conditions, plasma immunoreactive ET levels are elevated and tissue ET-1 expression is increased. Accordingly, it is becoming increasingly apparent that ET-1 plays an important role in cardiovascular disease and in some forms of hypertension in humans. Data from clinical trials using combined ETA-ETB receptor blockers have already demonstrated significant blood-pressure-lowering effects. Thus, targeting the endothelin system may have important therapeutic potential in the treatment of hypertension, particularly by contributing to the prevention of target organ damage and the management of cardiovascular disease.
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PMID:Role of endothelin in human hypertension. 1283 65

Given that circulating ET levels in heart failure, in particular, may reach physiological threshold for coronary constrictor responses, the primary objective of the present review is to consider coronary vessels as an important target for circulating and locally produced endothelin(s). In healthy vessels, ET-1 causes biphasic coronary responses characterized by a transient dilation of large and small arteries followed by a sustained constriction. ETB receptors are pivotal in the early dilation of resistance vessels, whereas dilation of conductance vessels may be a secondary phenomenon triggered by flow increases. Exogenous ET-1 causes coronary constriction almost exclusively through ETA receptor activation. Human and canine large epicardial coronary vessels display significant baseline ET-1 dependent tone in vitro and in vivo, an ETA-dependent process. In contrast, ETB receptors located on smooth muscle cells are apparently less important for producing constrictor responses. NO production may serve as an important counter-regulatory mechanism to limit ET-dependent effects on coronary vessels. Conversely, in a dysfunctional endothelium, the loss of NO may augment ET-1 production and activity. By lifting the ET-dependent burden from coronary vessels, ET receptor blockade should help to ensure a closer match between cardiac metabolic demand and coronary perfusion.
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PMID:Role of ET-1 in the regulation of coronary circulation. 1283 68


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