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)

Copper Deficiency (CuD) leads to hypertrophic cardiomyopathy in various experimental models. The morphological, electrophysiological, and molecular aspects of this hypertrophy have been under investigation for a long time. However the transition from compensated hypertrophy to decompensated heart failure has not been investigated in the study of CuD. We set out to investigate the contractile and hemodynamic parameters of the CuD mouse heart and to determine whether heart failure follows hypertrophy in the CuD heart. Dams of FVB mice were fed CuD or copper-adequate (CuA) diet starting from the third day post delivery and the weanling pups were fed the same diet for a total period of 5 weeks (pre- and postweanling). At week 4, the functional parameters of the heart were analyzed using a surgical technique for catheterizing the left ventricle. A significant decrease in left ventricle systolic pressure was observed with no significant change in heart rate, and more importantly contractility as measured by the maximal rate of left ventricular pressure rise (+dP/dt) and decline (-dP/dt) were significantly depressed in the CuD mice. However, left ventricle end diastolic pressure was elevated, and relaxation was impaired in the CuD animals; the duration of relaxation was prolonged. In addition to significant changes in the basal level of cardiac function, CuD hearts had a blunted response to the stimulation of the beta-adrenergic agonist isoproterenol. Furthermore, morphological analysis revealed increased collagen accumulation in the CuD hearts along with lipid deposition. This study shows that CuD leads to systolic and diastolic dysfunction in association with histopathological changes, which are indices commonly used to diagnose congestive heart failure.
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PMID:Congestive heart failure in copper-deficient mice. 1287

Catecholamines stimulate cardiac contractility through beta(1)-adrenergic receptors (beta(1)-ARs), which in humans are polymorphic at amino acid residue 389 (Arg/Gly). We used cardiac-targeted transgenesis in a mouse model to delineate mechanisms accounting for the association of Arg389 with human heart failure phenotypes. Hearts from young Arg389 mice had enhanced receptor function and contractility compared with Gly389 hearts. Older Arg389 mice displayed a phenotypic switch, with decreased beta-agonist signaling to adenylyl cyclase and decreased cardiac contractility compared with Gly 389 hearts. Arg389 hearts had abnormal expression of fetal and hypertrophy genes and calcium-cycling proteins, decreased adenylyl cyclase and G alpha(s) expression, and fibrosis with heart failure This phenotype was recapitulated in homozygous, end-stage, failing human hearts. In addition, hemodynamic responses to beta-receptor blockade were greater in Arg389 mice, and homozygosity for Arg389 was associated with improvement in ventricular function during carvedilol treatment in heart failure patients. Thus the human Arg389 variant predisposes to heart failure by instigating hyperactive signaling programs leading to depressed receptor coupling and ventricular dysfunction, and influences the therapeutic response to beta-receptor blockade.
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PMID:Beta 1-adrenergic receptor polymorphisms confer differential function and predisposition to heart failure. 1452 Mar 73

Lipid accumulation is associated with cardiac dysfunction in diabetes and obesity. Transgenic mice expressing non-transferable lipoprotein lipase (LpL) with a glycosylated phosphatidyl-inositol (GPI) anchor in cardiomyocytes have dilated cardiomyopathy. However, the mechanisms responsible for lipid accumulation and cardiomyopathy are not clear. Hearts from 3-month-old mice expressing GPI-anchored human LpL (hLpLGPI) mice had increased fatty acid oxidation and heart failure genes and decreased glucose transporter genes. 6-month-old mice had increased mRNA expression and activation of the apoptosis marker caspase-3. Moreover, hLpLGPI hearts had significant cytochrome c release from mitochondria to cytosol. Low density lipoprotein uptake was greater in hLpLGPI hearts, and this was associated with more intracellular apolipoprotein B (apoB). To test whether lipid accumulation in the hLpLGPI heart is reduced by cardiac expression of apoB, hLpLGPI mice were bred with transgenic human apoB (HuB)-expressing mice. Hearts of HuB/hLpLGPI mice had less triglyceride (38%) and free fatty acids (19%), secreted more apoB, and expressed less atrial natriuretic factor (ANF) and brain natriuretic peptide (BNP) and more glucose transporter 4 (GLUT4). The increased mortality of the mice was abrogated by the transgenic expression of apoB. Therefore, we hypothesize that cardiac apoB expression improves cardiomyopathy by increasing lipid resecretion from the heart.
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PMID:Apolipoprotein B production reduces lipotoxic cardiomyopathy: studies in heart-specific lipoprotein lipase transgenic mouse. 1463 11

Although cardiac steroids (CS) have long been used to treat cardiac insufficiency, the mechanism(s) of action of these agents remain open to question. While many results indicate that inhibition of Na+,K+-ATPase underlies both the therapeutic and toxic actions of CS, other studies suggest that actions on the SR membrane system may be important. We used two experimental approaches and measurements of left ventricular diastolic pressure (LVDP) in isolated guinea pig hearts to test whether CS had an intracellular site of action. In the first approach, we compared the inotropic effects of a hydrophilic CS, ouabain, and a hydrophobic CS, digitoxin, after the activity of the Na+ pump was reduced by perfusing hearts with solutions maintained at 5 degrees C. Under these conditions, exposure of hearts to 1 microM ouabain for 60 min did not increase LVDP above control levels. In contrast, an equi-effective concentration of digitoxin (0.3 microM) increased LVDP by 40 +/- 8.5% (p < 0.01) over pre-drug control levels. In the second experimental approach, we compared the inotropic effects of ouabain and digitoxin in the presence of rapid-cooling contractures (RCC), which result in the release of SR Ca2+. Hearts were perfused with Tyrode solution or Tyrode solution containing either digitoxin (0.3 microM) or ouabain (1 microM) for 180 sec, rapidly cooled and the RCC responses were analyzed. Compared to RCC elicited in Tyrode solution alone, or in Tyrode solution containing ouabain, RCC in the presence of digitoxin reached peak amplitudes more rapidly, but elicited reduced peak amplitude values. Based on these findings, we suggest that: 1) the ability of the hydrophobic CS, digitoxin, but not the hydrophilic CS, ouabain, to produce a positive inotropic effect at 5 degrees C, when the activity of the Na+ pump is markedly reduced, is consistent with a mechanism other than Na+ pump inhibition and involves an intracellular location; and 2) the diminished RCC observed in the presence of the hydrophobic CS, digitoxin, indicate that this alternative mechanism may involve effects on the SR Ca2+ release channel.
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PMID:Evidence for an intracellular site of action in the heart for two hydrophobic cardiac steroids. 1470 65

We have documented the effects of long-term endothelin receptor antagonism on intracellular Ca2+ regulation and Ca2+ regulatory protein expression in rat hearts with right ventricular hypertrophy without signs of heart failure. Rats were given either a single injection of monocrotaline (50 mg/kg, n=9) resulting in pulmonary hypertension-induced myocardial hypertrophy, or monocrotaline followed by daily administration of the endothelin subtype-A receptor antagonist 2-benzo(1,3)dioxol-5-yl-3-benzyl-4-(4-methoxy-phenyl-)-4-oxobut-2-enoate-Na (PD 155080, 50 mg/kg) over 9 weeks (n=8). Hearts from saline-injected rats served as controls (n=9). Monocrotaline-treated animals developed marked right-sided hypertrophy without fibrosis as evident from hydroxyproline measurements, systolic contractility was increased, fully compensating for the increased afterload, but diastolic function was impaired as evident from protracted relaxation and slowed diastolic intracellular Ca2+ handling (measured by aequorin bioluminescence). In hypertrophic hearts, quantitative immunoblotting analyses showed increased levels both of sarco(endo)plasmic reticulum Ca2+-ATPase (SERCA) and phosphorylated phospholamban, along with decreased levels of total phospholamban, which is in line with strengthened right ventricular systolic function. PD 155080 reversed abnormalities in Ca2+ handling, although SERCA and phospholamban protein levels were not altered (P=not significant versus monocrotaline group). Thus, endothelin-A receptor antagonism attenuates right ventricular remodeling and improves myocardial Ca2+ handling, but has no discernable effect on elevated expression of SERCA and phospholamban observed in hypertrophic hearts. These data indicate that the hypotensive action of PD 155080 is independent of its effects, if any, on SERCA and its regulation.
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PMID:Effect of endothelin antagonism on contractility, intracellular calcium regulation and calcium regulatory protein expression in right ventricular hypertrophy of the rat. 1472 13

The protein kinase C (PKC) family of serine/threonine kinases functions downstream of nearly all membrane-associated signal transduction pathways. Here we identify PKC-alpha as a fundamental regulator of cardiac contractility and Ca(2+) handling in myocytes. Hearts of Prkca-deficient mice are hypercontractile, whereas those of transgenic mice overexpressing Prkca are hypocontractile. Adenoviral gene transfer of dominant-negative or wild-type PKC-alpha into cardiac myocytes enhances or reduces contractility, respectively. Mechanistically, modulation of PKC-alpha activity affects dephosphorylation of the sarcoplasmic reticulum Ca(2+) ATPase-2 (SERCA-2) pump inhibitory protein phospholamban (PLB), and alters sarcoplasmic reticulum Ca(2+) loading and the Ca(2+) transient. PKC-alpha directly phosphorylates protein phosphatase inhibitor-1 (I-1), altering the activity of protein phosphatase-1 (PP-1), which may account for the effects of PKC-alpha on PLB phosphorylation. Hypercontractility caused by Prkca deletion protects against heart failure induced by pressure overload, and against dilated cardiomyopathy induced by deleting the gene encoding muscle LIM protein (Csrp3). Deletion of Prkca also rescues cardiomyopathy associated with overexpression of PP-1. Thus, PKC-alpha functions as a nodal integrator of cardiac contractility by sensing intracellular Ca(2+) and signal transduction events, which can profoundly affect propensity toward heart failure.
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PMID:PKC-alpha regulates cardiac contractility and propensity toward heart failure. 1499 Oct 46

Dietary copper deficiency (CuD)(3) leads to cardiac hypertrophy in various animal models. We showed recently that heart failure develops after hypertrophy in FVB mice fed a CuD diet. The present study was undertaken to determine whether CuD-induced cardiac failure is reversible upon copper repletion (CuR). Dams of FVB mice were fed a CuD diet (0.3 mg/kg) starting from d 3 postdelivery; the weanling pups were fed the same diet until CuR with 6.0 mg/kg Cu in the diet at 4 or 5 wk of age. CuR at 4 wk of age prevented the body weight loss; at 5 wk of age, it resulted in the regaining of the lost weight caused by CuD. A significant regression of CuD-induced cardiac hypertrophy was observed in the CuR mice. Histopathological examination revealed that CuR eliminated CuD-caused lipid deposition in the myocardium, and electron microscopy demonstrated that CuD-induced ultrastructural changes such as mitochondrial swelling and organelle structural disarray were all reversed in the CuR mice. Hemodynamic analysis showed that the CuD-depressed systolic and diastolic parameters such as the maximal rate of left ventricular pressure rise (+dP/dt) and decline (-dP/dt), and the contraction and relaxation times were completely recovered in the CuR mice. Furthermore, the CuD-blunted myocardial responses to the beta-adrenergic agonist, isoproterenol, were also restored in the CuR mice. This study thus demonstrates for the first time that CuR results in the regression of heart failure induced by CuD as demonstrated by the reversal of depressed cardiac hemodynamic and contractile function and the restored responsiveness to beta-adrenergic stimulation.
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PMID:Regression of dietary copper restriction-induced cardiomyopathy by copper repletion in mice. 1505 37

Cardiac hypertrophy can lead to heart failure (HF), but it is unpredictable which hypertrophied myocardium will progress to HF. We surmised that apart from hypertrophy-related genes, failure-related genes are expressed before the onset of failure, permitting molecular prediction of HF. Hearts from hypertensive homozygous renin-overexpressing (Ren-2) rats that had progressed to early HF were compared by microarray analysis to Ren-2 rats that had remained compensated. To identify which HF-related genes preceded failure, cardiac biopsy specimens were taken during compensated hypertrophy and we then monitored whether the rat progressed to HF or remained compensated. Among 48 genes overexpressed in failing hearts, we focused on thrombospondin-2 (TSP2). TSP2 was selectively overexpressed only in biopsy specimens from rats that later progressed to HF. Moreover, expression of TSP2 was increased in human hypertrophied hearts with decreased (0.19+/-0.01) versus normal ejection fraction (0.11+/-0.03 [arbitrary units]; P<0.05). Angiotensin II induced fatal cardiac rupture in 70% of TSP2 knockout mice, with cardiac failure in the surviving mice; this was not seen in wild-type mice. In TSP2 knockout mice, angiotensin II increased matrix metalloproteinase (MMP)-2 and MMP-9 activity by 120% and 390% compared with wild-type mice (P<0.05). In conclusion, we identify TSP2 as a crucial regulator of the integrity of the cardiac matrix that is necessary for the myocardium to cope with increased loading and that may function by its regulation of MMP activity. This suggests that expression of TSP2 marks an early-stage molecular program that is activated uniquely in hypertrophied hearts that are prone to fail.
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PMID:Thrombospondin-2 is essential for myocardial matrix integrity: increased expression identifies failure-prone cardiac hypertrophy. 1534 66

In humans, cytoskeletal dystrophin and muscle LIM protein (MLP) gene mutations can cause dilated cardiomyopathy, yet these mutations may have different effects in mice, owing to increased accumulation of other, compensatory cytoskeletal proteins. Consequently, we characterized left-ventricular (LV) morphology and function in vivo using high-resolution cine-magnetic resonance imaging (MRI) in 2- to 3-month old dystrophin-deficient (mdx) and MLP-null mice, and their respective controls. LV passive stiffness was assessed in isolated, perfused hearts, and cytoskeletal protein levels were determined using Western blot analyses. In mdx mouse hearts, LV-to-body weight ratio, cavity volume, ejection fraction, stroke volume, and cardiac output were normal. However, MLP-null mouse hearts had 1.2-fold higher LV-to-body weight ratios (P<0.01), 1.5-fold higher end-diastolic volumes (P<0.01), and decreased ejection fraction compared with controls (25% vs. 66%, respectively, P<0.01), indicating dilated cardiomyopathy and heart failure. In both models, isolated, perfused heart end-diastolic pressure-volume relationships and passive left-ventricular stiffness were normal. Hearts from both models accumulated desmin and beta-tubulin, mdx mouse hearts accumulated utrophin and MLP, and MLP-null mouse hearts accumulated dystrophin and syncoilin. Although the increase in MLP and utrophin in the mdx mouse heart was able to compensate for the loss of dystrophin, accumulation of desmin, syncoilin and dystrophin were unable to compensate for the loss of MLP, resulting in heart failure.
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PMID:Dystrophin- and MLP-deficient mouse hearts: marked differences in morphology and function, but similar accumulation of cytoskeletal proteins. 1549 47

Hearts from severely Cu-deficient rats show a variety of pathological defects, including hypertrophy and, in intact hearts, depression of contractile function. Paradoxically, isolated cardiomyocytes from these rats exhibit enhanced contractile properties. Because hypertrophy and enhanced contractility observed with other pathologies are associated with elevation of insulin-like growth factor-I (IGF)-I, this mechanism was examined for the case of dietary Cu deficiency. Male, weanling Sprague-Dawley rats were provided diets that were deficient (approximately 0.5 mg Cu/kg diet) or adequate (approximately 6 mg Cu/kg diet) in Cu for 5 wk. IGF-I was measured in serum and hearts by an ELISA method, cardiac IGF-I and IGF-II receptors and IGFBP-3 were measured by Western blotting analysis, and mRNAs for cardiac IGF-I and IGF-II were measured by RT-PCR. Contractility of isolated cardiomyocytes was assessed by a video-based edge-detection system. Cu deficiency depressed serum and heart IGF-I and heart IGFBP-3 protein levels and increased cardiac IGF-I receptor protein. Cardiac IGF-II protein and mRNA for cardiac IGF-I and IGF-II were unaffected by Cu deficiency. A Cu deficiency-induced increase in cardiomyocyte contractility, as indicated by increases in maximal velocities of shortening (-dL/dt) and relengthening (+dL/dt) and decrease in time to peak shortening (TPS), was confirmed. These changes were largely inhibited by use of H-1356, an IGF-I receptor blocker. We conclude that enhanced sensitivity to IGF-I, as indicated by an increase in IGF-I receptor protein, accounts for the increased contractility of Cu-deficient cardiomyocytes and may presage cardiac failure.
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PMID:Increased contractility of cardiomyocytes from copper-deficient rats is associated with upregulation of cardiac IGF-I receptor. 1573 78


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