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)

Chronic administration of norepinephrine for 8 weeks has been shown to reduce neuronal norepinephrine uptake activity and increase interstitial norepinephrine concentration in the heart. To determine whether the changes could lead to myocardial beta-adrenoceptor down-regulation or beta-adrenergic subsensitivity, we measured left ventricular contractile responses to dobutamine, myocardial beta-adrenoceptor density, beta subtype distribution, competitive inhibition agonist binding, and adenylyl cyclase activity activation by isoproterenol, 5'-guanylylimidodiphosphate, and forskolin in dogs after a norepinephrine or saline infusion for 8 weeks. We found that norepinephrine infusion reduced myocardial beta-adrenoceptor density, beta(1)-adrenoceptor subtype density, and high-affinity site for isoproterenol. Left ventricular contractile responses to dobutamine were reduced in the norepinephrine-infused animals. In addition, norepinephrine infusion decreased the basal adenylyl cyclase activity and the adenylyl cyclase responses to isoproterenol, 5'-guanylylimidodiphosphate, and forskolin. The findings indicate that a decrease in cardiac norepinephrine uptake predisposes the heart to norepinephrine-induced myocardial beta-adrenoceptor down-regulation, and that norepinephrine, when present in a sufficient amount over a long period as it is in chronic heart failure, can reduce myocardial beta-adrenergic responsiveness by both homologous and heterologous desensitization.
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PMID:Myocardial beta-adrenoceptor down-regulation by norepinephrine is linked to reduced norepinephrine uptake activity. 1061 14

Targeted cardiac overexpression of the alpha-subunit of the heterotrimeric G protein G(q) in transgenic mice evokes hypertrophy and depressed stimulation of cardiac inotropy and chronotropy by beta-adrenergic receptor (betaAR) agonists in vivo, which is a hallmark of many forms of experimental and human heart failure. The molecular basis of this betaAR dysfunction was explored in transgenic mice overexpressing G(alphaq) approximately 5-fold over background. Isoproterenol-stimulated adenylyl cyclase activities in myocardial membranes were significantly depressed in G(alphaq) mice compared with nontransgenic controls (19.7 +/- 2.6 versus 43.7 +/- 5. 6 pmol/min/mg) without a decrease in betaAR expression levels. Functional coupling of both betaAR subtypes was impaired. Similarly, in whole-cell patch-clamp studies, betaAR stimulation of L-type Ca(2+) channel currents was depressed approximately 75% in the G(alphaq) mice. Cardiac betaAR from these mice showed decreased formation of the active high-affinity conformation (R(H) = 29% versus 62% for nontransgenic littermates), confirming a receptor-G(s)-coupling defect. Of the three candidate kinases that might impose this uncoupling by receptor phosphorylation (protein kinase A, betaAR kinase, protein kinase C), only protein kinase C activity was elevated in G(alphaq) mouse hearts. Type V adenylyl cyclase was decreased approximately 45% in these mice, consistent with decreased basal, NaF, and forskolin-stimulated enzyme activities. Although cellular G(s) levels were unaltered, G(i2) and G(i3) were increased in G(alphaq) mice. Pertussis toxin treatment of isolated G(alphaq) myocytes resulted in an improvement in betaAR, but not that of forskolin or NaF, stimulation of adenylyl cyclase. Thus three distinct mechanisms contribute to impaired betaAR function by in vivo G(q) signaling cross-talk in myocytes. Because many elements of hypertrophy and/or failure in cellular and animal models can be initiated by increased G(alphaq) signaling, the current work may be broadly applicable to interfaces whereby modification of heart failure might be considered.
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PMID:Mechanisms of impaired beta-adrenergic receptor signaling in G(alphaq)-mediated cardiac hypertrophy and ventricular dysfunction. 1064 37

The beta-adrenergic receptor signal transduction pathway is critical for rapid adjustments to increased cardiovascular demand (e.g., during exercise). In the face of chronic stimulation of this pathway, as occurs in the pathogenesis of heart failure, beta-adrenergic receptor stimulation may become maladaptive. Under these conditions, elevation of circulating catecholamines and depletion of cardiac tissue stores of norepinephrine occur in the failing heart, resulting in desensitization. Whether or not stimulation or inhibition of the beta-adrenergic receptor signaling pathway is beneficial in heart failure is controversial. One approach to address this question is to specifically overexpress a component of the beta-adrenergic receptor signaling pathway in a transgenic mouse heart. We have characterized young and old adult mice with overexpressed cardiac G(s alpha) which couples the beta-adrenergic receptor to adenylyl cyclase. In younger animals, beta-adrenergic receptor stimulation results in an augmented heart rate and cardiac contractility. Over the life of the animal, however, a picture of cardiomyopathy develops. The result is a dilated heart with a large amount of fibrosis and myocyte hypertrophy, degeneration atrophy, and apoptosis. Conversely, chronic beta-adrenergic receptor blockade prevents the development of cardiomyopathy. These experiments support the point of view that chronic beta-adrenergic stimulation during the development of heart failure is deleterious and that protecting the heart with chronic beta-adrenergic receptor blockade is salutary, conceptually consistent with results of recent clinical trials examining the effects of beta-adrenergic receptor blockers in patients with heart failure.
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PMID:Beta-adrenergic receptor-G protein-adenylyl cyclase signal transduction in the failing heart. 1075 May 93

Congestive heart failure is associated with cardiac adrenergic nerve terminal changes and beta-adrenoceptor density downregulation. To study the temporal sequence of these changes, we performed studies in rabbits at 2, 4, and 8 wk of cardiac pacing (360 beats/min) and at 1, 2, and 4 wk after cessation of pacing. Rapid pacing produced left ventricular (LV) dysfunction and an increase in plasma norepinephrine (NE) in 1-2 wk. At week 2, NE uptake activity, NE uptake-1 density, and adenylyl cyclase responses to isoproterenol, 5'-guanylyl imidodiphosphate [Gpp(NH)p], and forskolin reduced. However, immunostained tyrosine hydroxylase profile, beta-adrenoceptor density, and NE histofluorescence did not reduce until 4-8 wk of pacing. After cessation of cardiac pacing, LV function normalized quickly, followed by return of tyrosine hydroxylase and NE profiles in 1 wk and adenylyl cyclase responses to agonists and NE uptake activity in 2 wk. Myocardial beta-adrenoceptor density returned to normal by 4 wk after cessation of pacing. Our results suggest that there is no permanent structural neuronal damage in the myocardium within the first 8 wk of rapid cardiac pacing. Abnormal myocardial NE reuptake mechanism may play an important pathophysiological role in heart failure.
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PMID:Alterations in cardiac adrenergic terminal function and beta-adrenoceptor density in pacing-induced heart failure. 1077 52

We recently demonstrated that rapid ventricular pacing caused cardiac failure (Failure) in dogs with aortic stenosis-induced left ventricular hypertrophy (Hypertrophy) and isoproterenol caused no significant increases in function, O2 consumption and intracellular cyclic AMP level in the failing hypertrophied hearts. We tested the hypothesis that alterations in the beta1-adrenoceptor-signal transduction pathway would correlate with the reduced functional and metabolic responses to beta-adrenergic stimulation during the transition from the compensated hypertrophy to failure. Pressure overload-induced left ventricular hypertrophy was created using aortic valve plication in 10 dogs over a 6-month period. Five months after aortic valve plication, congestive heart failure was induced in 5 dogs by rapid ventricular pacing at 240 bpm for 4 weeks. The density of myocardial beta1-adrenoceptors (fmoles/mg membrane protein; fmoles/g wet tissue) was significantly reduced in the Failure dogs (176+/-19; 755+/-136) when compared to those of the Control (344+/-51; 1,551+/-203) and the Hypertrophy (298+/-33; 1,721+/-162) dogs. The receptor affinities were not significantly different among all groups. There was a small but significant decrease in the percentage of beta1-adrenoceptors of the failing hypertrophied hearts (62+/-3%) when compared to that of the hypertrophied hearts (77+/-5%). The basal myocardial adenylyl cyclase activity (pmoles/mg protein/min) was significantly lower in the Failure dogs (45+/-4) than in the Control (116+/-14) and Hypertrophy (86+/-6) dogs. The forskolin (0.1 mM)-stimulated adenylyl cyclase activity was also significantly lower in the Failure dogs (158+/-17) than in the Control dogs (296+/-35) and slightly lower than in the Hypertrophy dogs (215+/-10). There were no significant differences in low Km cyclic AMP-phosphodiesterase activities among all groups. We conclude that down regulation of beta1-adrenoceptors and reduced adenylyl cyclase activities contribute to the decreases in myocardial functions and beta-adrenergic responses in the failing hypertrophied hearts induced by rapid ventricular pacing.
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PMID:Down regulation of myocardial beta1-adrenoceptor signal transduction system in pacing-induced failure in dogs with aortic stenosis-induced left ventricular hypertrophy. 1082 23

The heart is often refereed to as an "beta-adrenergic organ" because beta-adrenergic agonists are powerful stimulants of cardiac contractility. Catecholamines acting through beta-adrenoceptors produce both positive inotropic and chronotropic effects in human heart. It is now generally accepted that in human heart both beta 1- and beta 2-adrenoceptors coexist. beta-Adrenergic transduction system consist of membrane-bound beta-receptors, the effector enzyme adenylyl cyclase and guanine nucleotide-binding transduction (G) proteins. Repeated long-lasting agonist stimulus evokes homologous or heterologous desensitization of transduction system. Chronic heart failure accompanies with decreased responsiveness to beta-adrenoceptor agonists and is thought to exacerbate the loss of cardiac contractility. Depending on the etiology of heart failure abnormalities of the beta-receptor-G protein-adenylyl cyclase system result from a reduced of beta 1-receptors, uncoupling of beta 1- or beta 2-receptors, alteration of G-protein function, or decreased catalytic subunit activity of adenylyl cyclase and enhanced expression of beta-adrenoceptor kinase. The model most widely used is that of circulating lymphocytes that contain a homogeneous population of beta 2-adrenoceptors. The biochemical and pharmacological properties of human lymphocyte beta 2-adrenoceptors are quite comparable to those of heart beta 2-receptors. The analysis of lymphocyte beta 2-adrenoceptor-adenylyl cyclase system can be used as a model for long-term regulation of human cardiac beta 1- and beta 2-adrenoceptors only if serial changes in response to administration of non-selective beta-adrenergic agonists or antagonists are being investigated. This review concentrates on beta-adrenoceptors in human healthy heart and in heart failure and also on lymphocyte beta 2-adrenoceptors and on the changes of these receptors properties under the influence of some cardiotropic drugs.
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PMID:[Beta-adrenergic receptors of the normal heart and in heart failure]. 1082 33

In atherosclerosis and heart failure chronically elevated endothelin-1 (ET-1) plasma concentrations have been found which correlate with an increased mortality. The aim of this study was to determine the effects of chronically elevated ET-1 concentrations in vitro on the expression of the beta-adrenergic receptor (betaAR), the alpha-subunit of the stimulatory guanine-nucleotide-binding protein (G(s alpha)), and to determine betaAR's ability to activate adenylyl cyclase. In order to elucidate the effects of elevated ET-1 concentrations in vivo, male rats were infused with ET-1 and betaAR density was measured. Smooth muscle cells were incubated with ET-1 (10(-7) mol/l) for 6 to 48 h. Densities of betaARs were determined by radioligand binding studies and the G(s alpha) was analyzed by Western blotting. Isoproterenol-mediated adenylyl cyclase activity was measured. Additionally male rats were infused with ET-1 for 3 weeks. In vitro the betaAR density increased by 52% (p < 0.05, n = 5). The G(s alpha) increased to 260%. The isoproterenol-stimulated adenylyl cyclase activity was increased to 228%. In vivo, the pulmonary and myocardial betaAR density was elevated by 43% and 97%, respectively. Chronic ET receptor activation induces a transregulation of betaARs in vitro and in vivo.
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PMID:Chronically elevated endothelin-1 concentrations modulate the beta-adrenergic receptor system in vitro and in vivo. 1107 65

Adrenomedullin (ADM) is a vasodilator produced by vascular endothelium and smooth muscle cells. Although plasma ADM levels are increased in patients with hypertension, heart failure, and myocardial infarction, little information exists regarding the microvascular response to ADM in the human heart. In the present study we tested the hypothesis that ADM produces coronary arteriolar dilation in humans and examined the mechanism of this dilation. Human coronary arterioles were dissected and cannulated with micropipettes. Internal diameter was measured by video microscopy. In vessels constricted with ACh, the diameter response to cumulative doses of ADM (10(-12)-10(-7) M) was measured in the presence and absence of human ADM-(22-52), calcitonin gene-related peptide-(8-37), N(omega)-nitro-L-arginine methyl ester (L-NAME), indomethacin (Indo), (1)H-[1,2,4]oxadiazolo-[4,3-a]quinoxalin-1-one, SQ-22536, or KCl (60 mM). ADM dilated human coronary arterioles through specific ADM receptors (maximum dilation = 69 +/- 11%). L-NAME or N-monomethyl-L-arginine attenuated dilation to ADM (for L-NAME, maximum dilation = 66 +/- 7 vs. 41 +/- 13%, P < 0.05). Thus the mechanism of ADM-induced dilation involves generation of nitric oxide. However, neither (1)H-[1,2,4]oxadiazolo-[4, 3-a]quinoxalin-1-one, SQ-22536, nor Indo alone altered dilation to ADM. High concentrations of KCl blocked dilation to ADM. The magnitude of ADM dilation was reduced in subjects with hypertension. We propose that, in human coronary arterioles, ADM elicits vasodilation in part through production of nitric oxide and in part through activation of K(+) channels, with little contribution from adenylyl cyclase. The former dilator mechanism is independent of the more traditional pathway involving activation of soluble guanylate cyclase.
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PMID:Human coronary arteriolar dilation to adrenomedullin: role of nitric oxide and K(+) channels. 1108 13

In rats, injection of the alkaloid monocrotaline (MCT) causes right ventricular hypertrophy and cardiac failure. In order to study whether, in MCT-treated rats, changes in the cardiac beta -adrenoceptor-G-protein(s)-adenylyl cyclase system might be comparable to those found in human primary pulmonary hypertension, we assessed in right and left ventricles from MCT-treated rats the components of the beta -adrenoceptor system: the receptor number and subtype distribution (by (-)-[(125)I]iodocyanopindolol binding), the G-proteins (by quantitative Western blotting), and the activity of adenylyl cyclase. A single injection of 60 mg/kg i.p. MCT caused in rats right ventricular hypertrophy (RVH); part of the rats developed cardiac failure (RVF). In these rats the cardiac beta -adrenoceptor-G-protein(s)-adenylyl cyclase system was markedly changed beta -adrenoceptors were desensitized due to a decrease in receptor number, an uncoupling of the receptor from the G(s)-adenylyl cyclase system, a decrease in G(s)and a decrease in the activity of the catalytic unit of adenylyl cyclase. In general, these changes were more pronounced in right ventricles v left ventricles, and in rats with RVF v rats with RVH. On the other hand, cardiac muscarinic receptors and G(i)appeared not to be altered. We conclude that in MCT-treated rats changes in the cardiac beta -adrenoceptor-G-protein(s)-adenylyl cyclase system occur that resemble those observed in human primary pulmonary hypertension. Thus, MCT-treated rat appears to be a suitable animal model to study in more detail the pathophysiology of the development of right heart failure, and to identify new therapeutic possibilities.
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PMID:The cardiac beta-adrenoceptor-G-protein(s)-adenylyl cyclase system in monocrotaline-treated rats. 1111 7

New therapeutic strategies as well as the development of drugs with more specific targets have been fueled by disappointments in the treatment of adult heart failure. Calcium sensitizers, vesnarinone and angiotensin channel blockers will be addressed in this manuscript. The physiologic and pharmacologic principles that justify their use in the management of heart failure are reviewed. Calcium sensitizers increase myocardial contractility and in part they bypass the adenylyl cyclase cascade, which gives them a more favorable energy profile. Vesnarinone is a quinolinone derivative with ion channel modulation properties, which result in a positive inotropic effect and prolongation of the action potential. In addition vesnarinone has immunomodulatory properties. Angiotensin-converting enzyme inhibitors are the cornerstones for the treatment of heart failure. The discovery of some putative drawbacks to ACE inhibition has challenged this supremacy. Angiotensin receptor blockers have been developed hoping to overcome these deficiencies. Myocardial developmental differences highlight the shortcomings of attempting to extrapolate data on drugs and cellular physiology in adults to children. Studies are needed addressing standards of care, quality of life, morbidity and mortality, neurohumoral activation, its modulation and the consequences of these therapies in pediatric heart failure.
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PMID:New drugs in the treatment of heart failure. 1111 51


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