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:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endothelin-1, a member of a novel family of regulatory peptides, is the most potent vasoconstrictor and pressor substance known. Endothelin-1 is a 21-amino-acid endothelium-derived peptide causing uniquely sustained vasoconstriction. In addition, endothelin-1 has pronounced effects on the coronary, renal and cerebral circulations, enhances responses to other vasoconstrictors, and is comitogenic. Recent studies have shown that the endothelins are essential for normal fetal development, and that endothelin-1 plays an important physiological role in the regulation of basal vascular tone and blood pressure in healthy humans. There is now also a wealth of evidence suggesting that endothelin-1 is a key mediator in a range of cardiovascular diseases associated with sustained vasoconstriction, such as chronic heart failure, and with vasospasm, such as subarachnoid haemorrhage. In addition, endothelin-1 appears to act in opposition to nitric oxide to promote the atherosclerotic process. There are a large number of oral and intravenously active endothelin antagonists entering clinical development and a number of clinical studies, particularly with endothelin receptor antagonists, are now under way. Such studies are beginning to define the role of the endothelins in cardiovascular disease and to confirm the potential of the endothelin system as an important new therapeutic target.
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PMID:The endothelin system in cardiovascular physiology and pathophysiology. 954 47

Endothelin-1, discovered in 1988, is a 21-amino-acid peptide and currently the most potent vasoconstrictor and pressor substance known. Generated by vascular endothelial cells in response to a variety of chemical and mechanical signals, endothelin-1 is known to potentiate the actions of other vasoconstrictor substances and act as a comitogen in addition to directly causing vasoconstriction. There is evidence that endothelin-1 may contribute to the pathophysiology of conditions associated with sustained vasoconstriction, such as hypertension and heart failure, vasospastic conditions, such as subarachnoid hemorrhage, and atherogenesis. Studies using endothelin receptor antagonists show that endothelin-1 plays an important role in the maintenance of vascular tone and blood pressure in healthy humans, predominantly via an effect on the vascular smooth muscle ETA receptors. The endothelin receptor antagonist bosentan also effectively lowers blood pressure in hypertensive subjects and produces sustained and favorable effects on systemic and pulmonary hemodynamics in patients with chronic heart failure. A good side-effect profile, together with a potential for inhibition of atherogenesis, makes the endothelin receptor antagonists a potentially interesting class of novel agents for the treatment of cardiovascular disease.
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PMID:Clinical experience with endothelin antagonists. 960 70

The endothelins are a family of endothelium-derived peptides that possess characteristically sustained vasoconstrictor properties. Endothelin-1 appears to be the predominant member of the family generated by vascular endothelial cells. In addition to its direct vascular effects, endothelin-1 has inotropic and mitogenic properties, influences homeostasis of salt and water, alters central and peripheral sympathetic activity and stimulates the renin-angiotensin-aldosterone system. Studies with endothelin receptor antagonists have indicated that endothelin-1 probably has complex opposing vascular effects mediated through vascular smooth muscle and endothelial ET(A) and ET(B)receptors. Endogenous generation of endothelin-1 appears to contribute to maintenance of basal vascular tone and blood pressure through activation of vascular smooth muscle ET(A)receptors. At the same time, endogenous endothelin-1 acts through endothelial ET(B) receptors to stimulate formation of nitric oxide tonically and to oppose vasoconstriction. In view of the multiple cardiovascular actions of endothelin-1, there has been much interest in its contribution to the pathophysiology of hypertension. Results of most studies suggest that generation of, or sensitivity to, endothelin-1 is no greater in hypertensive than it is in normotensive subjects. Nonetheless, the deleterious vascular effects of endogenous endothelin-1 may be accentuated by reduced generation of nitric oxide caused by hypertensive endothelial dysfunction. It also appears likely that endothelin participates in the adverse cardiac and vascular remodelling of hypertension, as well as in hypertensive renal damage. Irrespective of whether vascular endothelin activity is increased in hypertension, anti-endothelin agents do produce vasodilatation and lower blood pressure in hypertensive humans. There is more persuasive evidence for increased endothelin-1 activity in secondary forms of hypertension, including pre-eclampsia and renal hypertension. Endothelin-1 also appears to play an important role in pulmonary hypertension, both primary and secondary to diseases such as chronic heart failure. The hypotensive effects of endothelin converting enzyme inhibitors and endothelin receptor antagonists should be useful in the treatment of hypertension and related diseases. Development of such agents will increase knowledge of the physiological and pathological roles of the endothelins, and should generate drugs with novel benefits.
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PMID:Endothelin as a regulator of cardiovascular function in health and disease. 979 9

Many therapeutic approaches are under evaluation in patients with cardiac failure. They include angiotensin receptor inhibitors, selective and non-selective endothelin receptor inhibitors, neutral endopeptidase inhibitors or mixed inhibitors of neutral endopeptidase and of the angiotensin converting enzyme and, finally, cytokinin modulators. Some of these drugs have already entered Phase II therapeutic trials and are at relatively advanced developmental stages. Others are at preliminary or experimental stages. If these new drugs prove to be effective and well tolerated, they will represent new tools for physicians to treat cardiac failure and prevent its progression. However, many questions concerning drug associations and poly-therapy will be raised, leading to a revision of the strategy of treatment of cardiac failure.
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PMID:[Drugs of the future]. 986 13

The endothelins are a family of three structurally related peptides. Endothelin-1 (ET-1) is formed from the big endothelin by the action of the endothelin converting enzyme. It acts on two types of receptor, ETA and ETB. ET-1 is a powerful vasoconstrictor but also has a number of other effects: positive inotropism and stimulation of cell growth, for example. Endothelin is found in the general circulation but its role is mainly local in maintaining vascular tone. The endothelin system is activated in cardiac failure and increased concentrations of plasma endothelin increased, ET-1 converting enzyme and increased density of endothelin receptors are observed. The action of the endothelin system and its relationships with other neuro-hormonal systems activated in cardiac failure are not fully understood but research is under way which should clarify these mechanisms in the next few years. In view of the properties of endothelin, inhibition of its action might be particularly useful in patients with cardiac failure. Its action can be blocked either by preventing its synthesis by inhibiting the endothelin converting enzyme or by blocking the endothelin receptor. Endothelin receptor blockade is associated with beneficial haemodynamic changes, an action on ventricular remodelling and possibly an improved prognosis. Many substances, either selective for ETA receptors or mixed ETA and ETB receptor blockers, are under development. The benefits of these products will require confirmation by large scale clinical trials.
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PMID:[Endothelins in chronic cardiac insufficiency]. 989 17

In this article, we review the basic pharmacological and biochemical features of endothelin and the pathophysiological roles of endothelin in cardiovascular diseases. Development of receptor antagonists has accelerated the pace of investigations into the pathophysiological roles of endogenous endothelin-1 in various diseases, e.g. chronic heart failure, renal diseases, hypertension, cerebral vasospasm, and pulmonary hypertension. In chronic heart failure, the expression of endothelin-1 and its receptors in cardiomyocytes is increased, and treatment with an endothelin receptor antagonist improves survival and cardiac function. Endothelin receptor antagonists also improve other cardiovascular diseases. These results suggest that the interference with endothelin pathway either by receptor blockade or by inhibition of endothelin converting enzyme may provide novel therapeutic drugs strategies for multiple disease states.
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PMID:Pathophysiology of endothelin in the cardiovascular system. 1009 94

Cardiac myocytes and vascular endothelial cells produce endothelin-1, which increases the contractility of cardiac muscles and of vascular smooth muscles. Endothelin-1 also exerts long-term effects, such as myocardial hypertrophy, and causes cellular injury in cardiac myocytes. In heart failure, the production of endothelin-1 is markedly increased in the failing heart. Here, evidence that an endothelin receptor antagonist is a useful new drug for the treatment of heart failure is discussed. Long-term treatment with an endothelin receptor antagonist greatly improves the survival rate of animals (rat, hamster, etc.) with chronic heart failure. This beneficial effect is accompanied by amelioration of left ventricular dysfunction. The myocardial endothelin system appears to be a novel and important target for therapeutic intervention in heart failure.
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PMID:Heart failure and endothelin receptor antagonists. 1035 17

Endothelins build a peptide family composed of three isoforms, each of them containing 21 amino acids. Endothelin-1 is the isoform mainly responsible for any cardiovascular action and therefore the sole scope of this review. Endothelin-1 is the most potent endogenous vasoconstrictor known; in addition it acts as a potent (co)mitogen. There is a substantial body of experimental evidence that endothelin-1 may contribute not only to sustained vasoconstriction, but also to remodeling within the cardiovascular system. Thus, with the help of endothelin receptor antagonists (available for a few years) the involvement of mainly ETA receptors in structural diseases such as heart failure, pulmonary hypertension, atherosclerosis, restenosis, systemic hypertension, and chronic renal failure has been shown. These data make endothelin receptor antagonists, and especially those selective for the ETA receptor, promising agents for the treatment of chronic cardiovascular diseases associated with remodeling. Currently several chemically distinct, orally available members of this novel class of therapeutic agents are under clinical investigation.
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PMID:Endothelin-1 and endothelin receptor antagonists in cardiovascular remodeling. 1046 Jun 93

Heart failure has become the most widely studied syndrome in cardiology over the recent years. Despite the encouraging achievements by angiotensin converting enzyme (ACE) inhibitors, the mortality of patients with chronic heart failure remains high. There are several factors which can potentially be responsible for the fact that about 80% of patients with a failing heart defy protection by ACE inhibitors: different activation of tissue and systemic renin-angiotensin system (RAS) in a particular heart disease and the distinct ability of various ACE inhibitors to block cardiac ACE, alternative pathways for angiotensin II formation (chymase), genetic polymorphism of the RAS system and the complexity of neuroendocrine activation. Moreover, chronic heart failure can provoke disturbances in the reactivity of peripheral vessels and metabolism of striated muscles. These factors may then potentiate the vicious circle of heart failure. New therapeutic approaches, which could further reduce the mortality in patients with heart failure involve angiotensin II type 1 receptor antagonists, beta-blockers, aldosterone antagonists and blockers of the endothelin receptor. A number of questions associated with functions of the RAS still remain open and their solution could be of substantial benefit for patients with a failing heart.
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PMID:Heart failure and angiotensin converting enzyme inhibition: problems and perspectives. 1047 Aug 60

In myocardial cells (MCs), endothelin-1 (ET-1) exerts various effects such as hypertrophy, and causes cellular injury. Long-term treatment with an endothelin-A (ET(A)) receptor antagonist improves the survival of rats with heart failure, suggesting that myocardial endothelin system contributes to the progression of heart failure. p38 mitogen-activated kinase (MAPK) is a member of the MAPK family and activated by several forms of environmental stresses. We show here the effect of ET-1 on p38 MAPK activation and the role of ET-1-activated p38 MAPK on morphological changes in MCs. ET-1-stimulated p38 MAPK phosphorylation was detectable within 2 min and maximal at 5 min and was concentration dependent. The maximum effect was obtained at 10 nM. An ET(A) receptor antagonist, BQ-123, but not an endothelin-B receptor antagonist, BQ-788, inhibited these reactions. A p38 MAPK inhibitor, SB203580, failed to inhibit the morphological changes associated with ET-1-induced myocardial cell hypertrophy. These results indicate that p38 MAPK is activated by ET-1 but does not contribute to the development of ET-1-induced myocardial cell hypertrophy.
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PMID:Endothelin-1 activates p38 mitogen-activated protein kinase via endothelin-A receptor in rat myocardial cells. 1054 60


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