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:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endothelial cells can produce contracting factors; endothelin, a 21-amino acid peptide that can control local vascular tone, is the most potent of these factors. Of the three isoforms of endothelin, endothelial cells appear to release primarily endothelin-1. The peptide is formed from its precursor big endothelin via the activity of the endothelin converting enzyme. The basal production of the peptide is stimulated by epinephrine, angiotensin II, arginine vasopressin, transforming growth factor beta, thrombin, interleukin-1, and the calcium ionophore A23187. In vascular smooth muscle cells, endothelin binds to a specific receptor that activates phospholipase C and leads to the formation of inositol trisphosphate, diacylglycerol, and increased intracellular calcium levels. In certain blood vessels, the endothelin receptor is linked to a voltage-operated calcium channel via a Gi protein. This may explain why calcium antagonists inhibit endothelin-induced contractions only in certain blood vessels. In the human forearm circulation, calcium antagonists of different classes prevent endothelin-induced contractions. In hypertension, the circulating endothelin levels appear to be normal, whereas the vascular sensitivity to the peptide is reduced in most vascular tissues, but normal and enhanced responses have also been reported. In atherosclerosis and other forms of vascular disease, circulating endothelin levels are augmented, a phenomenon that may be related to an increased formation of the peptide induced by modified forms of low-density lipoproteins.
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PMID:Endothelin. 172 99

Endothelin (ET)-1 is an endothelium-derived vasoconstrictor and mitogen peptide generated from an intermediate form (big ET-1) by endothelin-converting enzyme(s) (ECE). In this study, we partially characterized ECE activity in human serum lipoprotein fraction. By gel filtration chromatography, lipoprotein ECE activities consisted of three major components: the first and the second peak eluted in the positions of very low density lipoprotein (VLDL) and low density lipoprotein (LDL), respectively, while the third peak eluted earlier than that of high density lipoprotein (HDL), whose apparent molecular weight (550 kDa) was similar to that of apolipoprotein B (apo B). Both VLDL/LDL-associated and free ECE fractions were similarly inhibited by metalloproteinase and serine proteinase inhibitors. Free ECE fraction was precipitable with dextran sulphate and manganese ion in the same manner as lipoprotein ECE. Apo B purified by high performance liquid chromatography had the same ECE activity as lipoprotein ECE, whose activity was removed after immunoprecipitation with polyclonal anti-apo B antibody. Our data suggest that ECE activity in human serum lipoproteins may be associated with an apo B-like component, although it needs to be characterized completely.
Atherosclerosis 1994 Aug
PMID:Partial characterization of endothelin-converting enzyme activity in human serum lipoproteins. 798 Jul 17

The existence of vasoconstrictive factors originating from the endothelium was confirmed by the description of endothelin, a 21-amino-acid peptide derived from a series of precursors, preproendothelin and a 38-amino-acid big endothelin. Three isoforms of endothelin, endothelin-1, -2 and -3, and 3 receptors (ETA, ETB and ETC) have been described and cloned. The cellular mode of action of endothelin seems to involve the modulation of intracellular calcium (through inositol trisphosphate, diacylglycerol and phospholipase C) and activation of calcium channels. The effects of endothelin are predominantly on the cardiovascular system. Its major effect is vasoconstriction, both systemic and pulmonary, with additional positive chronotropic and inotropic effects on the heart. It has also been implicated in homeostatic regulation of kidney microcirculation, and has powerful mitogenic effects on fibroblasts and smooth muscle cells. Many additional effects have been described on the endocrine system and on other systems. However, the clinical relevance of such effects is uncertain. Increased plasma endothelin levels have been reported in many diseases, but as yet it is not certain whether they are a cause or a consequence of the pathology. Pathologies most probably related to endothelin dysfunction are the vasospastic diseases, especially vasospasm after subarachnoid haemorrhage. Endothelin could be implicated to a lesser measure in diseases typical of the elderly population, such as hypertension or atherosclerosis. Drugs are being developed which act on endothelin metabolism, the most promising of which appear to be the inhibitors of endothelin converting enzyme and endothelin receptor antagonists. Some already existing drugs, such as calcium channel blockers or angiotensin converting enzyme inhibitors, probably act at least in part by interfering with endothelin metabolism or effects.
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PMID:Endothelins. A potential target for pharmacological intervention in diseases of the elderly. 819 96

Endothelins are ubiquitously produced 21-amino-acid peptides that were discovered as an endothelial product and may play important roles in cardiovescular physiology and pathophysiology. The main endothelin produced by the endothelium is endothelin-1. The vasoconstrictor role of endothelins may participate in blood pressure elevation and vascular hypertrophy in salt-dependent models of hypertension (deoxycorticosterone acetate-salt hypertensive rats, spontaneously hypertensive rats treated with deoxycorticosterone, acetate and salt, and Dehl salt-sensitive rats), and in stroke-prone spontaneously hypertensive rats. In humans, endothelins may play important roles in moderate to severe essential hypertension, and in the hypertension of African-Americans. Endothelins may be involved in cardiac hypertrophy, and there is increasing evidence of their participation in heart failure, in which acute endothelin antagonism in humans exerts beneficial effects. Endothelin expression is enhanced in smooth muscle cells migrating into the intima of arteries in atherosclerosis, suggesting a role in atherogenesis. Endothelin may participate as a vasoconstrictor in coronary artery disease, and as a contributor to intimal proliferation in restenosis after coronary angioplasty. In patients with myocardial infarction, cardiac production of endothelin is increased, particularly in those with cardiogenic shock. There is a potential for participation of endothelins in vasospasm accompanying stroke or subarachnoid hemorrhage: in the latter, endothelin antagonism has shown beneficial effects in experimental models. In neonatal and in primary pulmonary hypertension, endothelin expression is enhanced, and in experimental models endothelin antagonism resulted in favorable responses. Systemic sclerosis is another, peripheral, form of vascular disease in which endothelin may play a role and in which endothelin antagonism may be an interesting therapeutic alternative. The pathophysiologic role of endothelins is becoming increasingly apparent in cardiovascular disease, generating interesting potential therapeutic targets for the use of endothelin antagonists or endothelin-converting enzyme inhibitors.
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PMID:Clinical significance of endothelin in cardiovascular disease. 926 47

We investigated the effects of aging, a cardiovascular risk factor, on vascular function with regard to endothelial nitric oxide synthase (eNOS), superoxide dismutase (SOD), and endothelin (ET-1) in aorta and femoral artery of the rat. Concentration-response curves to acetylcholine, calcium ionophore A23187, norepinephrine, ET-1, big endothelin, sodium nitroprusside, and exogenous SOD were obtained. Expression of eNOS mRNA was analyzed by reverse-transcription polymerase chain reaction, SOD activity was assessed using a chemiluminescence-based cytochrome c assay, and ET-1 plasma concentrations were measured by radioimmunoassay. In aorta of old rats, relaxations to acetylcholine and calcium ionophore A23187, basal NO release, and expression of eNOS mRNA in aortic endothelial cells were reduced (P<.05). In femoral arteries, relaxations to acetylcholine were preserved, whereas basal release of NO was attenuated (P<.05). Aging selectively increased contractions to norepinephrine and functional endothelin converting enzyme activity and attenuated contractions to ET-1 in aortas but not femoral arteries. Vascular SOD activity was higher in the femoral artery (P<.05) and unaffected by aging. Plasma ET-1 levels increased and plasma SOD activity decreased with age (P<.05). Aging was associated with an anatomic heterogeneity of endothelial dysfunction, functional endothelin converting enzyme activity, and vascular SOD activity. Vascular function was impaired in the aorta but not the femoral artery, which may be related to lower eNOS mRNA expression and SOD activity. These data suggest differential regulation of the vascular aging process that may contribute to the anatomic heterogeneity of atherosclerosis.
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PMID:Anatomic heterogeneity of vascular aging: role of nitric oxide and endothelin. 933 78

Endothelin-1 (ET-1) is a 21-amino-acid local and circulating factor whose plasma concentrations are increased in advanced atherosclerosis. ET-1 is cleaved from a prohormone (big ET-1) by endothelin-converting enzymes (ECEs) into the biologically active mature form which mediates vasoconstriction and cell proliferation. This study was designed to test by immunohistochemistry the hypothesis that ECE is present locally in the neointima of atherosclerotic vessels. Two groups of rabbits, control (n = 6) and cholesterol-fed (1% cholesterol diet for 8 weeks; n = 6) were sacrificed. Aortas were excised and divided for determination of tissue ET-1 concentration by RIA and immunohistochemical analysis of ECE. Vascular wall ET-1 was increased in the atherosclerotic aorta (6.1 +/- 0.8 vs. 9.8 +/- 0.9 pg/mg protein; p < 0.05), whereas circulating ET-1 concentrations were similar in the two groups (3.8 +/- 0.4 vs. 2.4 +/- 1.4 pg/ml). Immunostaining revealed the presence of ECE in endothelial and vascular smooth-muscle cells of the control group. Enhanced ECE immunoreactivity was present in atherosclerotic aortas, particularly in the neointimal macrophages and smooth-muscle cells. We conclude that local vascular wall, but not circulating ET-1, is increased in early atherosclerosis. In addition, ECE immunoreactivity is increased in early atherosclerosis and may therefore contribute to the generation of local ET-1 in early experimental atherosclerosis. These studies provide important insights into the regulation of ET-1 in early atherosclerosis, which may contribute to the elucidation of factors involved in the progression of atherosclerosis.
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PMID:Enhanced endothelin-converting enzyme immunoreactivity in early atherosclerosis. 959 90

We have previously found that human chymase cleaves big endothelins at the Tyr31-Gly32 bond and produces 31-amino acid long endothelins-(1-31), without any further degradation products. In this study, we investigated the effect of synthetic endothelin-1-(1-31) on the intracellular free Ca2+ concentration ([Ca2+]i) in cultured human coronary artery smooth muscle cells. Endothelin-1-(1-31) increased [Ca2+]i in a concentration-dependent manner (10(-14) to 10(-10) M). This endothelin-1-(1-31)-induced [Ca2+]i increase was not affected by phosphoramidon (N-(alpha-Rhamnopyranosyloxyhydroxyphosphinyl)-L-Leucyl-L-Tryptoph an), an inhibitor of endothelin-converting enzyme. It was, however, inhibited by 10(-10) M BQ123 (Cyclo-(-D-Trp-D-Asp(ONa)-Pro-D-Val-Leu-)), an endothelin ET(A) receptor antagonist, but not by 10(-10) M BQ788 (N-cis-2,6-dimethylpiperidinocarbonyl-L-yMeLeu-D-Trp(COOM e)-D-Nle-ONa), an endothelin ET(B) receptor antagonist. These results suggest that endothelin-1-(1-31) by itself exhibits vasoactive properties probably through endothelin ET(A) receptors. Since human chymase has been reported to play a role in atherosclerosis, endothelin-1-(1-31) may be one of the candidate substances for its cause.
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PMID:Endothelin-1-(1-31), a novel vasoactive peptide, increases [Ca2+]i in human coronary artery smooth muscle cells. 965 47

Endothelin-1 (ET-1) is the most potent vasoconstrictor yet described. The active 21-amino-acid peptide is derived from the conversion of the inactive precursor "Big ET-1" by an enzyme called endothelin-converting enzyme. In addition to its potent action as a vasoconstrictor, endothelin promotes growth and proliferation of smooth muscle and myocardial hypertrophy. ET-1 levels are elevated in acute myocardial infarction (MI), atherosclerosis, renal failure, diabetes, pulmonary hypertension, and congestive heart failure (CHF). ET-1 levels correlate extremely well with the seriousness of the pathophysiologic condition. ET-1 levels at 72 h post MI accurately predict long-term survival. In patients with heart failure, ET-1 levels also predict long-term outcome, with the prognosis being severely compromised in patients with elevated ET-1 levels. Levels of plasma big ET-1 have been demonstrated to predict 1-year mortality and have been shown to be a better predictor of 1-year outcome than plasma atrial natriuretic peptide and norepinephrine, NYHA class, age, and echocardiographic left ventricular parameters. Although a small number of studies have reported beneficial effects of ACE inhibitors on ET-1 levels in animal models, most reports in humans have not found an effect of ACE inhibitors on ET-1 levels. Only one ACE inhibitor, fosinopril, has been shown to be effective in normalizing ET-1 levels in clinically relevant situations, such as the long-term study of patients with CHF. This observation may point to a superior role of fosinopril compared with other ACE inhibitors in CHF patients and may indicate beneficial effects of fosinopril beyond blood pressure control.
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PMID:Neurohormonal markers of clinical outcome in cardiovascular disease: is endothelin the best one? 973 39

Endothelins (ET) comprise a group of substances which are produced and have a regulatory function in different systems of the organism. The main cardiovascular ET is ET-1 which is so far the most potent vasoconstrictor substance. ET is important in the early stages of atherosclerosis as it is a strong chemical attractant of monocytes and macrophages and causes endothelial and vasomotor dysfunction. In later stages of atherosclerosis it can affect the firmness and integrity of the fibrous part of the atherosclerotic plaque. During myocardial infarction the ET level rises and this leads to vasoconstriction and reduction of the fibrillation threshold. In coronary angioplasty (PTCA) the ET-1 level rises depending on the applied mechanical stress. ET can participate in the formation of the neointima and the development of restenosis. ET increases also immediately after an aortocoronary bypass (CABG) and after reperfusion. Higher ET levels were found in patients with a positive ECG and echocardiographic loading test. In the latter after CABG normalization of ET was found. Raised ET levels were recorded also in patients where a coronary vasospasm can be provoked, in Prinzmetal's angina pectoris, coronary syndrome X, atrial tachystimulation. In unstable angina pectoris big-ET is elevated, the increase of the ET-1 level is not unequivocal. Stable angina pectoris does not affect ET-1. In the treatment of atherosclerosis for the selective ETA blocker reduction of the number and size of macrophage and foam cells was proved. In acute myocardial infarction a favourable effect for the non-selective ETA/ETB blocker and for the selective ETA blocker was found. In the treatment of restenosis after PTCA blockers of selective ETB receptors and inhibitors of endothelin converting enzyme seem hopeful. Th non-selective ETA/ETB blocker bosentan is in the stage of clinical tests and seems to be safe and perspective.
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PMID:[Endothelins and ischemic heart disease]. 1095 65

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


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