UMLS:C0018801 - FACTA Search

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

Reduced endothelium-dependent vasodilator responses with increased synthesis of ET-1 (endothelin-1) are characteristics of endothelial dysfunction in heart failure and are predictive of mortality. Identification of treatments that correct these abnormalities may have particular benefit for patients who become refractory to current regimens. Hawthorn preparations have a long history in the treatment of heart failure. Therefore we tested their inhibitory effects on ET-1 synthesis by cultured endothelial cells. These actions were compared with that of GSE (grape seed extract), as the vasoactive components of both these herbal remedies are mainly oligomeric flavan-3-ols called procyanidins. This showed extracts of hawthorn and grape seed were equipotent as inhibitors of ET-1 synthesis. GSE also produced a potent endothelium-dependent vasodilator response on preparations of isolated aorta. Suppression of ET-1 synthesis at the same time as induction of endothelium-dependent vasodilation is a similar response to that triggered by laminar shear stress. Based on these results and previous findings, we hypothesize that through their pharmacological properties procyanidins stimulate a pseudo laminar shear stress response in endothelial cells, which helps restore endothelial function and underlies the benefit from treatment with hawthorn extract in heart failure.
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PMID:The procyanidin-induced pseudo laminar shear stress response: a new concept for the reversal of endothelial dysfunction. 1532 99

Decompensated heart failure continues to significantly impact the economics of our healthcare system. In recent years, the focus on management of decompensated heart failure has changed from solely improving hemodynamics to modifying neurohormones. Endothelin (ET) is one of the important mediators in heart failure. This article reviews the clinical pharmacology, clinical efficacy, and tolerability of tezosentan, a dual-action ET-1 receptor antagonist. Using the search term tezosentan, a literature review was conducted to identify peer-reviewed articles and abstracts in MEDLINE (1966 to April 2004) and Current Content (1966 to April 2004) databases. Citations from available articles were also reviewed for additional references. When given as an intravenous infusion, tezosentan achieves steady-state concentration within the first 6 hours. Tezosentan is excreted almost entirely through the bile (>95%) and has a terminal elimination half-life of 3 hours. The side effects of tezosentan include headache, nausea, and hypotension. Clinical studies demonstrated mixed results for tezosentan regarding its efficacy and tolerability in the management of decompensated heart failure. The role or tezosentan in treating heart failure is yet to be defined.
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PMID:Tezosentan in the management of decompensated heart failure. 1559 26

Chronic heart failure is characterized by increased renal extraction of endothelin (ET)-1 and unaltered handling of big ET-1. The renal extraction of ET-1 in patients with heart failure is closely related to elevations in pulmonary artery and pulmonary capillary wedge pressures.
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PMID:Renal handling of endothelin in patients with chronic heart failure. 1569 48

Delayed rectifier K(+) currents (I(K)) play a critical role in determining cardiac action potential duration (APD). Modulation of I(K) affects cardiac excitability critically. There are three components of cardiac delayed rectifier, and the slowly activating component (I(Ks)) is influenced strongly by a variety of stimuli. Plasma levels of noradrenaline and endothelin are elevated in heart failure, and arrhythmias are promoted by such humoral abnormalities through modulation of ion channels. It has been reported that protein kinase A (PKA) and protein kinase C (PKC) modulate I(Ks) from human minK in a complex manner. In the present study, we coexpressed human minK with the human beta(1)-adrenoceptor (hbeta(1)AR) and the endothelin receptor subtype A (hET(A)R) in Xenopus oocytes and investigated the effects of receptor activation on the currents (I(Ks)) flowing through the oocytes. ET-1 modulated I(Ks) biphasically: a transient increase followed by a decrease. The PKC inhibitor chelerythrine completely inhibited the effects of ET-1. Intracellular EGTA abolished the transient increase by ET-1 and partially inhibited the subsequent decrease in the currents. When I(Ks) was increased by 10(-6) M isoproterenol (ISO), ET-1 did not increase but rather decreased the current to an even greater extent than under control conditions. In addition, the effects of ISO on I(Ks) were suppressed by ET(A)R stimulation. These data indicate that I(Ks) can be regulated by cross-talk between the ET(A)R and beta(1)AR systems in addition to direct regulation by each receptor system.
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PMID:Cross-talk between beta(1)-adrenoceptors and ET(A) receptors in modulation of the slow component of delayed rectifier K(+) currents. 1570 50

CGS 26303 is a vasopeptidase inhibitor that simultaneously inhibits endothelin-converting enzyme (ECE) and neutral endopeptidase (NEP). We compared the effects of chronic treatment with CGS 26303 to the selective inhibition of angiotensin-converting enzyme (ACE) and NEP during the transition from left ventricular hypertrophy (LVH) to congestive heart failure (CHF) in hypertensive rats. LV geometry and function were assessed in Dahl salt-sensitive rats placed on a high-salt diet from age 6 weeks (hypertensive rats) and in control rats fed a low-salt diet. The hypertensive rats were randomized into groups that received no treatment or were treated with an ACE inhibitor (temocapril), an ECE/NEP inhibitor (CGS 26303), or a NEP inhibitor (CGS 24592) from the LVH stage (11 weeks) to the CHF stage (17 weeks). All treatments decreased the systolic blood pressure equally and significantly improved LV fractional shortening. Both temocapril and CGS 26303 ameliorated LV perivascular fibrosis, reduced mRNA levels of types I and III collagen, and decreased the heart weight/body weight ratio. CHF rats had increased plasma ET-1 levels compared with control rats. Only CGS 26303 reduced ET-1 to normal levels. ET-1 levels were found to correlate with heart/body weight, right ventricle/body weight and perivascular fibrosis ratios. During the transition to CHF, CGS 26303 produces effects that are comparable to temocapril and superior to CGS 24592. The beneficial effects of CGS 26303 are likely caused in part by the greater reduction of plasma ET-1. Dual ECE/NEP inhibitor may provide a new strategy for the treatment of human heart failure.
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PMID:Dual ECE/NEP inhibition on cardiac and neurohumoral function during the transition from hypertrophy to heart failure in rats. 1589 63

Collagen overproduction characteristic for dilated cardiomyopathy (DCM) is coregulated by endothelin (ET)-1, transforming growth factor (TGF)-beta1, basic fibroblast growth factor (bFGF) and matrix metalloproteases (MMPs). Whether these molecules affect grafts transplanted to heart failure patients is unknown. In 67 idiopathic DCM patients, 31 patients with ischemic cardiomyopathy (ICM) and 16 controls, the myocardial bFGF, TGF-beta1, pro-collagen (PrCol) type 1 (PrCol1-alpha1, -alpha2) and MMP expressions were examined using real-time RT-PCR or Western blotting. mRNA expression was measured in grafts for 1 year. TGF-beta1/bFGF stimulation or gene silencing was used to examine their effect on collagen synthesis in cardiac tissue cultures. TGF-beta1 and PrCol1 were upregulated in DCM only, while bFGF was upregulated in both groups versus controls. TGF-beta1 downregulated MMP-1 and upregulated collagen 1, whereas bFGF upregulated MMP-13 in DCM tissue. Post-transplant PrCol1-alpha1, -alpha2 and ET-1 mRNA increased over time in grafts of DCM patients only, while other factors returned to control baseline levels in DCM and ICM. These data indicate that cardiac transplantation corrects the dysregulated TGF/bFGF/MMP-1/MMP-13, but not the excess collagen and ET-1 synthesis in cardiac grafts transplanted to DCM patients. ET-1 might be a major pathologic trigger for graft fibrosis in DCM.
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PMID:Differential role of TGF-beta1/bFGF and ET-1 in graft fibrosis in heart failure patients. 1609 97

The endothelin (ET) system consists of 3 ET isopeptides, several isoforms of activating peptidases, and 2 G-protein-coupled receptors, ETA and ETB, that are linked to multiple signaling pathways. In the cardiovascular system, the components of the ET family are expressed in several tissues, notably the vascular endothelium, smooth muscle cells, and cardiomyocytes. There is general agreement that ETs play important physiological roles in the regulation of normal cardiovascular function, and excessive generation of ET isopeptides has been linked to major cardiovascular pathologies, including hypertension and heart failure. However, several recent clinical trials with ET receptor antagonists were disappointing. In the present review, the authors take the stance that ETs are mainly and foremost essential regulators of cardiovascular function, hence that antagonizing normal ET actions, even in patients, will potentially do more harm than good. To support this notion, we describe the predominant roles of ETs in blood vessels, which are (indirect) vasodilatation and ET clearance from plasma and interstitial spaces, against the background of the subcellular mechanisms mediating these effects. Furthermore, important roles of ETs in regulating and adapting heart functions to different needs are addressed, including recent progress in understanding the effects of ETs on diastolic function, adaptations to changes in preload, and the interactions between endocardial-derived ET-1 and myocardial pump function. Finally, the potential dangers (and gains) resulting from the suppression of excessive generation or activity of ETs occurring in some cardiovascular pathological states, such as hypertension, myocardial ischemia, and heart failure, are discussed.
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PMID:Cardiovascular endothelins: essential regulators of cardiovascular homeostasis. 1645 92

Nebivolol, a selective beta-adrenoceptor (beta1-AR) antagonist, induces vasodilatation by an endothelium- and NO-cGMP-dependent pathway. However, the mechanisms involved in the vascular effect of nebivolol have not been established. Thus, we evaluated the role of alpha1 and beta3-ARs in nebivolol-induced vasodilatation. The responses to nebivolol were investigated in vitro in thoracic aortic rings isolated from male Sprague-Dawley rats. Nebivolol (0.1-10 microM) significantly shifted the concentration-response curve to phenylephrine, an alpha1-AR agonist, to the right in a concentration-dependent manner (pA2 = 6.5). Conversely, the concentration-response curve to endothelin 1 (ET1) was unaffected by nebivolol. In ET1-precontracted rings, nebivolol induced a concentration-dependent relaxation, which was unaffected by nadolol (a beta1/beta2-AR antagonist) but was significantly reduced by L-748,337 (a beta3-AR antagonist), endothelium removal or pretreatment with L-NMMA (an NOS inhibitor). Similar results were obtained with a beta3-AR agonist, SR 58611A. It was concluded that, in rat aorta, nebivolol-induced relaxation results from both inhibition of alpha1-ARs and activation of beta3-ARs. In addition, we confirmed that the endothelium and the NO pathway are involved in the vascular effect of nebivolol. The identification of these vascular targets of nebivolol indicate that it has therapeutic potential for the treatment of pathological conditions associated with an elevation of sympathetic tone, such as heart failure and hypertension.
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PMID:Mixed beta3-adrenoceptor agonist and alpha1-adrenoceptor antagonist properties of nebivolol in rat thoracic aorta. 1647 20

Heart failure (HF) is a multifactorial and progressive disease that has been associated with multiple systemic and vascular alterations. Previous reports from our laboratory showed that in 2-month-old Bio-To2 Syrian cardiomyopathic hamsters (SCH) that have not yet developed the clinical manifestations of HF, the vascular contractility induced by 0.1 microM angiotensin II was approximately 35% greater than in control animals. This finding was observed concomitantly with an increased aortic ACE activity. To further evaluate the mechanisms underlying angiotensin II-enhanced vascular contraction, concentration-response curves for angiotensin II (0.01 nM-10 microM) were constructed before and after the addition of prazosin (alpha-1 blocker), NS-398 (selective COX-2 blocker) and BQ-123 (ET-1A-receptor antagonist) in aortic rings from 2-month-old SCH. The binding capacity and affinity of the AT-1 receptors were also evaluated in aortic homogenates using 125I-angiotensin II. Age-matched golden hamsters were used as controls (CT). Our results indicate that incubation with either 10 microM prazosin or 10 microM NS-398 did not modify EC50 or Emax values for angiotensin II indicating that norepinephrine and prostaglandins are not involved in the enhanced contractile action of angiotensin II. However, 10 microM BQ-123 reduced by 40% the contraction induced by 1.0 microM angiotensin II (from 1.05+/-0.04 to 0.6475+/-0.06 g/mg tissue, n = 5, P < 0.05), suggesting that in cardiomyopathic hamsters, the action of angiotensin II is mediated in part by ET-1. At lower angiotensin II concentration (0.1 microM), the ET-1-dependent contraction decreases to 29%. In addition, although dissociation constants for labeled angiotensin II were found to be similar in the aorta of SCH and control animals (K(D): CT = 7.8 nM and SCH = 5.1 nM), 125I-angiotensin II binding capacity was about 2-fold greater in SCH than in controls (Bmax: SCH = 1113 and CT = 605 fmol/mg protein). Altogether these results suggest that in 2-month-old SCH the enhanced response of angiotensin II in the vasculature is mediated both by an increased binding capacity for the hormone and facilitation of the ET-1 action.
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PMID:Increased vascular angiotensin II binding capacity and ET-1 release in young cardiomyopathic hamsters. 1650 5

Although experimental prevention studies have suggested therapeutic potential of endothelin (ET) antagonists for the treatment of heart failure, the results of clinical trials using ET antagonists on top of standard heart failure medications have been largely disappointing. This experimental study investigated the effects of chronic ET(A) receptor blockade in long-term survivors of myocardial infarction who had developed stable chronic heart failure in the absence of other treatments. Systolic blood pressure, heart rate, organ weights of the right atrium and ventricle, and the lungs were determined, and tissue ET-1 peptide levels were measured in cardiac tissue, lung, and aorta. The results show that chronic blockade of ET(A) receptors stabilizes systolic blood pressure and reverses the heart failure-induced weight increases of right heart chambers and lung. The changes observed occurred independently of tissue ET-1 concentrations and heart rate, suggesting mechanisms independent of local cardiac or pulmonary ET-1 synthesis, which are yet to be identified.
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PMID:Beneficial cardiovascular effects of endothelin ET(A) receptor blockade in established long-term heart failure after myocardial infarction. 1674 Oct 12

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