EC:3.6.1.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acute hypobaric hypoxia induces a transient reactivation of the fetal-metabolic gene program in the rat heart. Although chronic hypobaric hypoxia causes alterations in metabolism and cardiac function, little is known about the transcriptional profile associated with acclimatization to chronic hypoxia. Because in chronic hypoxia only the right ventricle is exposed to pressure overload (pulmonary hypertension), we hypothesized that chronic hypobaric hypoxia induces a differential transcriptional profile in the right and left ventricle. Male Wistar rats were exposed to a hypobaric environment (11% O2) for 4, 10, and 12 weeks. Right and left ventricular tissue was isolated for histology and candidate gene expression. Chronic hypobaric hypoxia induced right ventricular hypertrophy without fibrosis. In the right ventricle, changes in metabolic gene expression suggested a downregulation of fatty acid metabolism and an increase in glucose metabolism, while left ventricular metabolic gene expression suggested restoration of fatty acid metabolism. While myosin heavy chain isoform transcript levels in the right ventricle indicated a progressive reactivation of the fetal iso-gene pattern, there was normalization of myosin iso-gene expression in the left ventricle. Similarly, sarcoendoplasmic reticulum ATPase 2a (SERCA2a) transcript levels in the right ventricle decreased by 12 weeks of chronic hypoxia exposure, whereas, left ventricular SERCA2a expression was unchanged. In conclusion, acclimatization to chronic hypobaric hypoxia induced a differential transcriptional response between the right and left ventricle. We speculate that reactivation of the fetal-metabolic program in the right ventricle is adaptive to pressure overload.
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PMID:Acclimatization to chronic hypobaric hypoxia is associated with a differential transcriptional profile between the right and left ventricle. 1618 91

Aldosterone may play a pivotal role in the pathophysiology of heart failure. To elucidate the beneficial cardioprotective mechanism of eplerenone, a novel selective aldosterone blocker, we hypothesized that eplerenone stimulates endothelial NO synthase (eNOS) through Akt and inhibits inducible NO synthase (iNOS) via nuclear factor kappaB (NF-kappaB) after the development of oxidative stress and activation of the lectin-like, oxidized, low-density lipoprotein receptor 1 (LOX-1) pathway in Dahl salt-sensitive rats with heart failure. Eplerenone (10, 30, and 100 mg/kg per day) was given from the age of the left ventricular hypertrophy stage (11 weeks) to the failing stage (18 weeks) for 7 weeks. The left ventricular end-systolic pressure-volume relationship was evaluated using a conductance catheter. Decreased percentage of fractional shortening by echocardiography and end-systolic pressure-volume relationship in failing rats was significantly ameliorated by eplerenone. Downregulated eNOS expression, eNOS and Akt phosphorylation, and NOS activity in failing rats were increased by eplerenone. Upregulated expression of the mineralocorticoid receptor aldosterone synthase (CYP11B2); NAD(P)H oxidase p22phox, p47phox, gp91phox, iNOS, and LOX-1; and activated p65 NF-kappaB, protein kinase CbetaII, c-Src, p44/p42 extracellular signal-regulated kinase, and p70S6 kinase phosphorylation were inhibited by eplerenone. Eplerenone administration resulted in significant improvement of cardiac function and remodeling and upregulation of sarcoplasmic reticulum Ca(2+)-ATPase expression. These findings suggest that eplerenone may have significant therapeutic potential for heart failure, and these cardioprotective mechanisms of eplerenone may be mediated in part by stimulating eNOS through Akt and inhibiting iNOS via NF-kappaB after activation of the oxidative stress-LOX-1 pathway and signal transduction pathway.
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PMID:Cardioprotective mechanisms of eplerenone on cardiac performance and remodeling in failing rat hearts. 1650 12

Class III antiarrhythmic agents have been widely used to suppress ventricular tachyarrhythmias in patients with heart failure because they have been shown to have positive inotropic effects as well. However, it remains to be examined whether those agents also exert positive inotropic effects in failing hearts. We addressed this important issue in a rat model of heart failure. We used Nifekalant as a representative class III antiarrhythmic agent. Four weeks after a s.c. injection of 60 mg/kg monocrotaline (MCT) or vehicle (Ctr) into rats, we obtained trabeculae from right ventricles and measured the developed force and intracellular Ca(2+) ([Ca(2+)](i)) by the fura-2 microinjection method. The sarcoplasmic reticulum (SR) Ca(2+) content was assessed by the rapid-cooling contracture (RCC) technique. MCT rats exhibited right ventricular hypertrophy induced by pressure overload. The protein expression of SR Ca(2+) ATPase type 2 (SERCA2) and the SERCA2/phospholamban ratio in MCT rats was lower with a slower decline of Ca(2+) transients and a reduced amplitude of RCCs. Nifekalant concentration-dependently increased the force, peak [Ca(2+)](i), and the amplitude of RCCs in Ctr rats but not in MCT rats with identical prolongation of the action potential. Under the SR inhibited with cyclopiazonic acid and ryanodine, Nifekalant increased the force in Ctr rats but not in MCT rats. These results indicate that the positive inotropic effects of Nifekalant is reduced in failing hearts, probably due to the depressed SR Ca(2+) uptake and reduced reserve of the trans-sarcolemmal Ca(2+) transport, warranting a caution in the antiarrhythmic therapy with a class III antiarrhythmic agent in heart failure.
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PMID:Reduced inotropic effect of nifekalant in failing hearts in rats. 1673 8

Clinical studies have revealed that mutations in the ventricular myosin regulatory light chain (RLC) lead to the development of familial hypertrophic cardiomyopathy (FHC), an autosomal dominant disease characterized by left ventricular hypertrophy, myofibrillar disarray and sudden cardiac death. While mutations in other contractile proteins have been studied widely by others, there is no report elucidating the mechanism(s) associated with FHC-linked RLC mutations. In this study, we have assessed the functional consequences of two RLC mutations, R58Q and N47K, in transgenic mice. Clinical phenotypes associated with these mutations included inter-ventricular hypertrophy, abnormal ECG findings and the R58Q mutation caused multiple cases of premature sudden cardiac death. Simultaneous measurements of the ATPase and force in transgenic skinned papillary muscle fibers from mutated versus control mice showed an increase in the Ca(2+) sensitivity of ATPase and steady-state force only in R58Q fibers. The calculated energy cost or rate of dissociation of force generating myosin cross-bridges (ATPase/force ratio) plotted as a function of activation state was the same in all groups of fibers. Both mutations caused prolonged [Ca(2+)] transients in electrically stimulated intact papillary muscles; however, the R58Q mutation also resulted in a significantly prolonged force transient. Our results suggest that the phenotypes of FHC observed in patients harboring these RLC mutations correlate with the extent of physiological changes monitored in transgenic fibers. Cardiac hypertrophy observed in patients is most likely caused by the activation of compensatory mechanisms ensuing from higher workloads due to incomplete relaxation as evidenced by prolonged [Ca(2+)] transients for both N47K and R58Q fibers. Furthermore, the poor prognosis of the R58Q patients may be associated with more severe diastolic dysfunction due to the slower off-rate of Ca(2+) from troponin C leading to longer force and [Ca(2+)] transients and increased Ca(2+) sensitivity of ATPase and force.
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PMID:Prolonged Ca2+ and force transients in myosin RLC transgenic mouse fibers expressing malignant and benign FHC mutations. 1683 10

The effects of crocetin on the cardiac hypertrophy induced by long-term treatment with norepinephrine (NE) in rats have been investigated. The activities of matrix metalloproteinases (MMP-2 and MMP-9) have been assayed by gelatin SDS-PAGE zymography. The expressions of MMP-2 and MMP-9 were detected by RT-PCR. ATPase activity and hydroxyproline contents were measured with a commercial kit. The results show that crocetin blocked the development of left ventricular hypertrophy induced by NE, decreased the level of collagen in myocardium, enhanced both the Na+-K+ ATPase activity in cardiac tissue and the Ca2+-Mg2+ ATPase activity in mitochondria and inhibited significantly the activity of MMP-2 and the expressions of MMP-2 and MMP-9. These results suggest that crocetin may prevent cardiac hypertrophy induced by NE in rats.
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PMID:Effects of crocetin on the matrix metalloproteinases in cardiac hypertrophy induced by norepinephrine in rats. 1686 25

Right ventricular hypertrophy and failure is an important step in the development of ascites syndrome (AS) in broiler chickens. Cytoplasmic calcium concentration is a major regulator of cardiac contractile function and various physiological processes in cardiac muscle cells. The purpose of this study was to measure the right ventricular pressure and investigate the precise ultrastructural location of Ca(2+) and Ca(2+)-ATPase in the right ventricular myocardium of chickens with AS induced by low ambient temperature. The results showed that the right ventricular diastolic pressure of ascitic broilers was significantly higher than that of control broilers (P < 0.01), and the maximum change ratio of right intraventricular pressure (RV +/- dp/dt(max)) of ascitic broilers was significantly lower than that of the controls (P < 0.01). Extensively increased calcium deposits were observed in the right ventricular myocardium of ascitic broilers, whereas in the age-matched control broilers, calcium deposits were much less. The Ca(2+)-ATPase reactive products were obviously found on the sarcoplasmic reticulum and mitochondrial membrane of the control right ventricular myocardium, but rarely observed in the ascitic broilers. The data suggest that in ascitic broilers there is the right ventricular diastolic dysfunction, in which the overload of intracellular calcium and the decreased Ca(2+)-ATPase activity might be the important factors.
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PMID:Increased calcium deposits and decreased Ca2+-ATPase in right ventricular myocardium of ascitic broiler chickens. 1705 81

During pregnancy, healthy women develop ventricular hypertrophy and diastolic dysfunction as a result of volume overload as well as increased stretch and force demand. Pregnancy also induces electrocardiogram disturbances such as longer QT-interval dispersion. Surprisingly, it was not until recently that the underlying molecular mechanisms or the role of sex hormones was addressed in this critical female reproductive stage. Recent work with the use of mouse and rat models show that the molecular signature of pregnancy-related hypertrophy differs from that of a pathologic form in that classic gene markers (e.g., myosin heavy chains [alpha and beta], atrial natriuretic peptide, phospholamban, and sarcoplasmic reticulum Ca(2+)-ATPase) remain unchanged. However, both types of hypertrophies have the commonality of a reduced expression of the Kv4.3 channel, a membrane protein that can prevent cardiac hypertrophy when overexpressed. Increased estrogen in late pregnancy may be a mechanism to induce Kv4.3 protein downregulation and increased activity of the stretch-activated c-Src kinase. Cellular/molecular mechanisms used to make a pregnant woman's heart work more efficiently and recover to normal cardiac function postpartum are beginning to emerge as cardioprotective natriuretic peptides- and NO-cGMP cascades get upregulated postpartum. This exciting initial work calls for more research in this underexplored area that should set the basis for better treatment of women during pregnancy.
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PMID:Heart hypertrophy during pregnancy: a better functioning heart? 1705 85

Patients with chronic renal failure develop a "uremic" cardiomyopathy characterized by diastolic dysfunction, left ventricular hypertrophy, fibrosis, and systemic oxidant stress. Patients with chronic renal failure also are known to have increases in the circulating concentrations of endogenous cardiotonic steroids (also referred to as endogenous digitalis-like substances.) Endogenous cardiotonic steroids produce reactive oxygen species as part of the signal cascade induced by binding to the plasmalemmal Na/K-ATPase in patients, and this signal cascade appears capable of inducing several key pathophysiologic features of uremic cardiomyopathy. In addition, these patients develop both fibrosis and oxidant stress without a known mechanism. In this review we highlight data supporting the hypothesis that endogenous cardiotonic steroids are a key molecular component involved in the diastolic dysfunction, left ventricular hypertrophy, fibrosis, and systemic oxidant stress associated with chronic kidney disease.
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PMID:Molecular insights into uremic cardiomyopathy: cardiotonic steroids and Na/K ATPase signaling. 1753 29

Myocardial contractile reserve is significantly attenuated in patients with advanced heart failure. The aim of this study was to identify mechanisms of impaired contractile reserve in a large animal model that closely mimics human myocardial failure. Progressive right ventricular hypertrophy and failure were induced by banding the pulmonary artery in kittens. Isometric contractile force was measured in right ventricular trabeculae (n=115) from age-matched Control and Banded feline hearts. Rapid cooling contractures (RCC) were used to determine sarcoplasmic reticulum (SR) Ca(2+) load while assessing the ability of changes in rate, adrenergic stimulation and bath Ca(2+) to augment contractility. The positive force-frequency relationship and robust pre- and post-receptor adrenergic responses observed in Control trabeculae were closely paralleled by increases in RCC amplitude and the RCC2/RCC1 ratio. Conversely, the severely blunted force-frequency and adrenergic responses in Banded trabeculae were paralleled by an unchanged RCC amplitude and RCC2/RCC1 ratio. Likewise, supraphysiologic levels of bath Ca(2+) were associated with severely reduced contractility and RCC amplitude in Banded trabeculae compared to Controls. There were no differences in myofilament Ca(2+) sensitivity or length-dependent increases in contractility between Control and Banded trabeculae. There was a significant decrease in SR Ca(2+)-ATPase pump abundance and phosphorylation of phospholamban and ryanodine receptor in Banded trabeculae compared with Controls. A reduced ability to increase SR Ca(2+) load is the primary mechanism of reduced contractile reserve in failing feline myocardium. The similarity of impaired contractile reserve phenomenology in this feline model and transplanted hearts suggests mechanistic relevance to human myocardial failure.
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PMID:Reduced sarcoplasmic reticulum Ca(2+) load mediates impaired contractile reserve in right ventricular pressure overload. 1793 54

Extracellular superoxide dismutase (EC-SOD) contributes only a small fraction to total SOD activity in the heart but is strategically located to scavenge free radicals in the extracellular compartment. EC-SOD expression is decreased in myocardial-infarction (MI)-induced heart failure, but whether EC-SOD can abrogate oxidative stress or modify MI-induced ventricular remodeling has not been previously studied. Consequently, the effects of EC-SOD gene deficiency (EC-SOD KO) on left ventricular (LV) oxidative stress, hypertrophy, and fibrosis were studied in EC-SOD KO and wild-type mice under control conditions, and at 4 and 8 weeks after permanent coronary artery ligation. EC-SOD KO had no detectable effect on LV function in normal hearts but caused small but significant increases of LV fibrosis. At 8 weeks after MI, EC-SOD KO mice developed significantly more LV hypertrophy (LV mass increased 1.64-fold in KO mice compared to 1.35-fold in wild-type mice; p<0.01) and more fibrosis and myocyte hypertrophy which was more prominent in the peri-infarct region than in the remote myocardium. EC-SOD KO mice had greater increases of nitrotyrosine in the peri-infarct myocardium, and this was associated with a greater reduction of LV ejection fraction, a greater decrease of sarcoplasmic or endoplasmic reticulum calcium2+ ATPase, and a greater increase of atrial natriuretic peptide in the peri-infarct zone compared to wild-type mice. EC-SOD KO was associated with more increases of phosphorylated p38 (p-p38(Thr180/Tyr182)), p42/44 extracellular signal-regulated kinase (p-Erk(Thr202/Tyr204)), and c-Jun N-terminal kinase (p-JNK(Thr183/Tyr185)) both under control conditions and after MI, indicating that EC-SOD KO increases activation of mitogen-activated protein kinase signaling pathways. These findings demonstrate that EC-SOD plays an important role in protecting the heart against oxidative stress and infarction-induced ventricular hypertrophy.
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PMID:Extracellular superoxide dismutase protects the heart against oxidative stress and hypertrophy after myocardial infarction. 1820 58

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