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)

Treatment of chronic heart failure still needs to be improved. Blockade of ET-1 and TNF-alpha, as well as the combined inhibition of ACE and NE have demonstrated limited benefits, thus other strategies continue being evaluated. This article reviews current concepts regarding the blockade of arginine vasopressin receptors (AVP) and the selective inhibition of matrix metalloproteinases (MMPs). Results with AVP blockade in humans have been encouraging, whereas inhibitors of MMPs continue under preclinical experimental phases and are controversial.
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PMID:[New treatments for heart failure?]. 1296 57

Circulating endothelin (ET) levels are elevated in heart failure and positively correlated with severity of heart failure. Recent studies demonstrated arginine vasopressin (AVP) V2 mRNA expression was upregulated in the inner medullary collecting duct (IMCD) of cardiomyopathic hamsters (CM). The goal of the present studies was to determine if ET-1 is involved in upregulating the expression of AVP V2 mRNA in the IMCD of CM by using a mixed ETA/ETB receptor antagonist bosentan. Our results showed plasma ET-1 levels increased in CM hamsters and related with the severity of heart failure. The competitive reverse-transcriptase polymerase chain reaction (RT-PCR) method was used to quantify the expression of AVP V2 and aquaporin 2 (AQP2) mRNA in the IMCD. AVP V2 mRNA expression was elevated in placebo-treated CM hamsters and decreased significantly with 14 days of bosentan treatment. Similar results were seen with AQP2 mRNA. The effect of bosentan in normalizing the expression of AVP V2 and AQP2 mRNA in the IMCD of CM was confirmed by in situ hybridization studies. Bosentan treatments reduced the intensitites of the signals in the IMCD of CM hamsters to that seen in normal hamsters. This study demonstrated that AVP V2 and AQP2 mRNA are upregulated in CM hamsters and these upregulations are attenuated by bosentan treatment, suggesting that ET-1 plays a role in upregulating the expression of AVP V2 mRNA in CM hamsters.
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PMID:Attenuation of renal vasopressin V2 receptor upregulation by bosentan, an ETA/ETB receptor antagonist. 1450 20

The effects of endothelin on the transient outward K(+) currents were compared between Kv1.4 and Kv4.3 channels in Xenopus oocytes expression system. Both transient outward K(+) currents were decreased by stimulation of endothelin receptor ET(A) coexpressed with the K(+) channels. Transient outward current of Kv1.4 was decreased by about 85% after 10(-8) M ET-1, while that of Kv4.3 was decreased by about 60%. By mutagenesis experiments we identified two phosphorylation sites of PKC and CaMKII in Kv1.4 responsible for the decrease in I(to) by ET-1. In Kv4.3 a PKC phosphorylation site was identified which is in part responsible for the decrease in I(to). Differences in the suppression of I(to) could be ascribed to the difference in intracellular signaling including the number of phosphorylation sites. These findings might give clues for the understanding of molecular mechanism of ventricular arrhythmias in heart failure, in which endothelin is involved in the pathogenesis.
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PMID:Differential inhibition of transient outward currents of Kv1.4 and Kv4.3 by endothelin. 1452 58

The heterologous expression system will provide clues for understanding the basic mechanism of arrhythmogenicity in both inherited and acquired long QT syndrome, which are reviewed here, with emphasis on the K+ channels. Endothelin is implicated in the morphological and electrical remodeling of cardiac muscles in heart failure. The effects of endothelin on the transient outward K+ currents (Ito) were compared between Kv1.4 (rich in endocardial muscle) and Kv4.3 (rich in epicardial muscle) channels in the Xenopus oocytes expression system. Both Itos were decreased by stimulation of endothelin receptor ETA coexpressed with the K+ channels. Ito of Kv1.4 was decreased by about 85% after 10(-8) M ET-1, whereas that of Kv4.3 was decreased by about 60%. By mutagenesis experiments, we identified two phosphorylation sites of PKC and CaMKII in Kv1.4 responsible for the decrease in Ito by ET-1. In Kv4.3 we identified a PKC phosphorylation site that is partly responsible for the decrease. Differences in the suppression of Ito could be due to the differences in intracellular signaling including the number of phosphorylation sites. These findings show some of the molecular mechanisms of ventricular arrhythmias in heart failure, resulting in dispersion and prolongation of action potential which elicit reentry and after depolarization.
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PMID:[Basic arrhythmogenic mechanisms in both inherited and acquired long QT syndrome]. 1456 55

There is epidemiologic evidence that the prognosis of patients with nonischemic heart failure is better than that for patients with ischemic heart failure. In addition, studies have revealed that patients with ischemic heart failure show a poorer response to medical therapy. However, the pathophysiologic difference between ischemic and nonischemic heart disease is unclear. To clarify this point, we measured atrial natriuretic peptide, brain natriuretic peptide, angiotensin II, endothelin (ET)-1. interleukin-1beta interleukin-6. tumor necrosis factor (TNF)-alpha soluble TNF receptor I, and soluble TNF receptor II concentrations in plasma and pericardial fluid in patients with ischemic or nonischemic heart disease undergoing cardiac surgery. The pericardial ET-1 concentration in patients with ischemic heart disease was statistically greater than that in patients with nonischemic heart disease (about 1.5-fold), although no difference was found in the plasma ET-1 concentration. These findings suggest that the production and secretion of ET-1 from the myocardium in patients with ischemic heart disease are augmented to a greater extent than in patients with nonischemic heart disease. This result may lead to a greater understanding of the pathophysiology of ischemic heart disease.
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PMID:Endothelin-1 concentrations in pericardial fluid are more elevated in patients with ischemic heart disease than in patients with nonischemic heart disease. 1458 45

Blockade of AngII (angiotensin II) and ET (endothelin)-1, established and potential therapeutic strategies respectively, for heart failure, may have an adverse effect on the cardiac secretion of the natriuretic peptides, hormones with actions beneficial in this disease. The present study investigates the roles of AngII and ET-1 in regulating the stretch-induced release of the natriuretic peptides during the development of heart failure. On seven separate days, eight sheep underwent incremental left ventricular pacing (155, 190 and 225 beats/min for 90 min each) with concurrent infusions of a vehicle control, AngII, ET-1, AngII+ET-1, losartan [AT1 (AngII type 1) receptor antagonist], bosentan (ET(A)/ET(B) receptor antagonist) or losartan+bosentan. Pacing-induced rises in LAP (left atrial pressure) were amplified by the simultaneous administration of separate AngII and ET-1, and attenuated following blockade of the peptides, with maximum effects observed during combined treatments. Although these changes in atrial pressure were paralleled by concomitant alterations in circulating levels of both ANP (atrial natriuretic peptide) and BNP (brain natriuretic peptide), the plasma natriuretic peptide/atrial pressure relationship tended to be augmented by AngII and ET-1 and diminished by their blockade. A significant difference was demonstrated between the enhanced plasma BNP response to increasing LAP during combined AngII+ET-1 administration and decreased response during losartan+bosentan treatment ( P <0.05). A similar, but non-significant, trend was evident for ANP. The present study indicates dual AngII/ET-1 blockade diminishes BNP (and to a lesser extent ANP) secretion in developing heart failure, suggesting that augmentation of the natriuretic peptide system during the combination of these therapies may be of benefit.
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PMID:Combined inhibition of angiotensin II and endothelin suppresses the brain natriuretic peptide response to developing heart failure. 1472 2

The endothelins are synthesized in vascular endothelial and smooth muscle cells, as well as in neural, renal, pulmonal, and inflammatory cells. These peptides are converted by endothelin-converting enzymes (ECE-1 and -2) from 'big endothelins' originating from large preproendothelin peptides cleaved by endopeptidases. Endothelin (ET)-1 has major influence on the function and structure of the vasculature as it favors vasoconstriction and cell proliferation through activation of specific ET(A) and ET(B) receptors on vascular smooth muscle cells. In contrast, ET(B )receptors on endothelial cells cause vasodilation via release of nitric oxide (NO) and prostacyclin. Additionally, ET(B) receptors in the lung are a major pathway for the clearance of ET-1 from plasma. Indeed, ET-1 contributes to the pathogenesis of important disorders as arterial hypertension, atherosclerosis, and heart failure. In patients with atherosclerotic vascular disease (as well as in many other disease states), ET-1 levels are elevated and correlate with the number of involved sites. In patients with acute myocardial infarction, they correlate with 1-year prognosis. ET receptor antagonists have been widely studied in experimental models of cardiovascular disease. In arterial hypertension, they prevent vascular and myocardial hypertrophy. Experimentally, ET receptor blockade also prevents endothelial dysfunction and structural vascular changes in atherosclerosis due to hypercholesterolemia. In experimental myocardial ischemia, treatment with an ET receptor antagonist reduced infarct size and prevented left ventricular remodeling after myocardial infarction. Most impressively, treatment with the selective ET(A) receptor antagonist BQ123 significantly improved survival in an experimental model of heart failure. In many clinical conditions, such as congestive heart failure, both mixed ET(A/B )as well as selective ET(A) receptor antagonism ameliorates the clinical status of patients, i.e. symptoms and hemodynamics. A randomized clinical trial showed that a mixed ET(A/B) receptor antagonist effectively lowered arterial blood pressure in patients with arterial hypertension. In patients with primary pulmonary hypertension or pulmonary hypertension related to scleroderma, treatment with a mixed ET(A/B) receptor antagonist resulted in an improvement in exercise capacity. ET receptor blockers thus hold the potential to improve the outcome in patients with various cardiovascular disorders. Randomized clinical trials are under way to evaluate the effects of ET receptor antagonism on morbidity and mortality.
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PMID:Therapeutic potential for endothelin receptor antagonists in cardiovascular disorders. 1472 28

The first objective of the study was to compare the levels of big endothelin and endothelin-1 and other noninvasive parameters used for evaluation of disease severity in patients with stable chronic heart failure (CHF). Endothelin-1 and big endothelin plasma concentrations were measured in 124 chronic heart failure patients. The second objective of the study was to prove an association between endothelin-1 and big endothelin plasma levels and two frequent polymorphisms in the endothelin-1 coding gene (6p21-23) -3A/-4A and G (8002) A in patients with chronic heart failure. Thirdly, we tried to associate other noninvasive parameters of CHF, especially cardiothoracic index (CTI), NYHA classification, signs of pulmonary congestion (PC) and ejection fraction (EF) with determined genotypes of the two ET-1 polymorphic variants. There were significant differences between big endothelin levels in NYHA II versus IV (P<0.001) and NYHA III versus IV (P<0.001) and endothelin-1 in NYHA II versus IV (P<0.001) and NYHA III versus IV (P<0.001). No associations between plasma levels of endothelin-1 and big endothelin and polymorphisms G (8002) A and -3A/-4A in gene coding endothelin-1 were found. In patients with CHF with CTI above 60% the number of carriers of genotypes with ET-1 8002A (AA and AG genotypes) increases. Concerning on the -3A/-4A ET-1 polymorphism, we observed a significant difference in genotype distribution as well as in allelic frequency in the group of patients with CTI above 60% between patients without and with pulmonary congestion. The allelic frequency of 3A allele is twice elevated in the patients with pulmonary congestion (37.8 vs. 78.1%, respectively).
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PMID:Big endothelin in chronic heart failure: marker of disease severity or genetic determination? 1472 37

Dietary copper (Cu) restriction leads to cardiac hypertrophy and failure in mice, and Cu repletion (CuR) reverses the hypertrophy and prevents the transition to heart failure. The present study was undertaken to determine changes in myocardial gene expression involved in Cu deficient (CuD) cardiomyopathy and its reversal by CuR. Analysis was performed on three groups of mice: 4-week-old CuD mice that exhibited signs of cardiac failure, their age-matched copper-adequate (CuA) controls, and the CuD mice that were re-fed adequate Cu for 2 weeks. Total RNA was isolated from hearts and subjected to cDNA micro-array and real-time reverse transcription-polymerase chain reaction analysis. Dietary CuD caused a decrease in cardiac mRNA of beta-MHC, L-type Ca(2+) channel, K-dependent NCX, MMP-2, -8, and -13, NF-kappaB, and VEGF. The mRNA levels of ET-1, TGF-beta, TNF-alpha, and procollagen-I-alpha1 and III-alpha1 were increased in the CuD cardiac tissue. Copper repletion resulted in cardiac mRNA levels of most of the genes examined returning to control levels, although the K-dependent NCX and MMP-2 values did not reach those of the CuA control. In addition, CuR caused an increase in beta-MHC, L-type Ca(2+)channel, MMP-13 to levels surpassing those of CuA control, and a decrease in ET-1, and TNF-alpha mRNA levels. In summary, changes in gene expression of elements involved in contractility, Ca(2+) cycling, and inflammation and fibrosis may account for the altered cardiac function found in CuD mice. The return to normal cardiac function by CuR may be a result of the favorable regression in gene expression of these critical components in myocardial tissue.
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PMID:Dietary copper restriction-induced changes in myocardial gene expression and the effect of copper repletion. 1522 55

Endothelin (ET)-mediated vasoconstriction has been implicated in the pathophysiology of various disorders, e.g. hypertension, chronic heart failure, acute renal failure, pulmonary hypertension, and subarachnoid hemorrhage (SAH)-induced cerebral vasospasm. The potential involvement of ETs in cerebral vasospasm following SAH has triggered considerable interest in designing therapeutic strategies to inhibit biological effects of ET. Major approaches include: (a) reducing the levels of circulating ET- 1 by the the specific anti- ET- 1 antibodies, (b) antagonizing the ET receptors, and (c) suppressing the biosynthesis of ET-1. To date, numerous antagonists of ET(A) and/or ET(B) receptors have been discovered, and some are under clinical evaluation. Inhibitors of endothelin-converting enzymes (ECEs), which catalyze the biosynthesis of ET-1, have also been synthesized. Two types of ECE-1 inhibitors have been evaluated in various animal disease models: dual ECE-1/neutral endopeptidase 24.11 (NEP) inhibitors and selective ECE-1 inhibitors. In this article, the effects of ET receptor antagonists and ECE-1 inhibitors on the prevention and reversal of SAH-induced cerebral vasospasm in preclinical animal models are reviewed.
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PMID:Endothelin and subarachnoid hemorrhage-induced cerebral vasospasm: pathogenesis and treatment. 1527 81


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