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)

Patients with chronic heart failure (CHF) develop skeletal muscle disease (myopathy) that is in part responsible for the decrease of their exercise tolerance. While maximal oxygen consumption (VO2), metabolic equivalent (MET) and NYHA functional class are good prognostic indices, it is not known whether markers of skeletal muscle myopathy could carry the same meaning. We tested the hypothesis that myosin heavy chain 1 (MHC1) could have a prognostic value in 18 patients with different degree of CHF. Patients were enrolled in January 1995 and followed up for 3 years. At baseline all subjects performed cardiopulmonary exercise test, echocardiography and gastrocnemius needle biopsy for determination of MHC1 percentage. Thereafter patients were divided into two groups (A and B) according to MHC1 percentage (< or = 70 and > 70). The number of cardiovascular events, the time to the first admission to the hospital and the time to death were considered as end points in our study. Eighty-three percent of the events and all deaths happened in Group A. The time of the first admission and the survival curves were worse in Group A (p = 0.008 and p = 0.02 respectively). Similar results were obtained when patients were divided according to VO2 (< or = 18 and > 18 ml/kg/min), MET (< or = 5 and > 5) and NYHA functional class (III/IV and I/II). We also observed a correlation between MHC1, VO2 (r = 0.3, p = 0.01), MET (r = 0.5, p = 0.0006) and NYHA functional class (r = 0.1, p = 0.07). In conclusion, the CHF myopathy, estimated by MHC1 percentage, gives prognostic information similar to VO2, MET and NYHA functional class.
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PMID:[The prognostic value of type-1 myosin heavy chain in the skeletal muscle of patients with chronic heart failure of a mild-moderate degree]. 992 70

Abnormal intracellular Ca2+ handling in hypertrophied and failing hearts is partly due to changes in Ca2+ transporter gene expression, but the mechanisms responsible for these alterations remain largely unknown. We previously showed that intrinsic mechanical load (i.e. spontaneous contractile activity) induced myocyte hypertrophy, and down-regulated SR Ca2+ ATPase (SERCA2) gene expression in cultured neonatal rat ventricular myocytes (NRVM). In the present study, we examined whether extrinsic mechanical load (i.e. cyclic stretch) also induced NRVM hypertrophy, and led to down-regulation of SERCA2 and other Ca2+ transporter genes which have been associated with cardiac hypertrophy and failure in vivo. NRVM were maintained in serum-free culture medium under control conditions, or subjected to cyclic mechanical deformation (1.0 Hz, 20% maximal strain, 48 h). Under these conditions, cyclic stretch induced NRVM hypertrophy, as evidenced by significant increases in total protein/DNA ratio, myosin heavy chain (MHC) content, and atrial natriuretic factor (ANF) secretion. Cyclic stretch also induced the MHC isoenzyme "switch" which is characteristic of hemodynamic overload of the rat heart in vivo. Cyclic stretch significantly down-regulated SERCA2 and ryanodine receptor (RyR) mRNA and protein levels, while simultaneously increasing ANF mRNA. In contrast, Na+-Ca2+ exchanger and phospholamban mRNA levels were unaffected. Load-dependent SERCA2 and RyR down-regulation was independent of Ca2+ influx via voltage-gated, L-type Ca2+ channels, as cyclic stretch down-regulated SERCA2 and RyR mRNA levels in both control and verapamil-treated NRVM. These results indicate that extrinsic mechanical load (in the absence of other exogenous stimuli) induces NRVM hypertrophy and causes down-regulation of Ca2+ transporter gene expression. This in vitro model system should prove useful to dissect the intracellular signaling pathways responsible for transducing this phenotype during cardiac hypertrophy and heart failure in vivo.
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PMID:Cyclic stretch down-regulates calcium transporter gene expression in neonatal rat ventricular myocytes. 992 62

1. The effects of long-term treatment with trandolapril, an angiotensin I-converting enzyme inhibitor, on exercise capacity of rats with chronic heart failure (CHF) following coronary artery ligation were examined. CHF was developed by 8 weeks after the coronary artery ligation. 2. The running time of rats with CHF in the treadmill test was shortened to approximately 65% of that of sham-operated rats (16.3+/-1.2 vs. 25.1+/-1.6 min, n = 7; P<0.05). ATP, creatine phosphate (CP), and lactate contents of the gracilis muscle of rats with CHF were similar to those of sham-operated rats before running. After running, ATP and CP were decreased and lactate was increased in both rats with CHF and sham-operated rats. There were no significant differences in the levels of energy metabolites between rats with CHF and sham-operated rats. The rates of decrease in ATP and CP and rate of increase in lactate in the gracilis muscle of rats with CHF during exercise were greater than those of sham operated rats (2.5, 2.0 and 1.5 fold high, respectively), suggesting wastage of energy during exercise in the animals with CHF. 3. Myofibrillar Ca2+ -stimulated ATPase (Ca-ATPase) activity of skeletal muscle of rats with CHF was increased over that of the sham-operated control (62.03+/-1.88 vs. 52.34+/-1.19 micromol Pi mg(-1) protein h(-1) n = 7; P<0.05). The compositions of myosin heavy chain (MHC) isoforms of gracilis muscle were altered by CHF; decreases in MHC types I and IIb and an increase in MHC type IIa were found (P<0.05). 4. Rats with CHF were treated with 1 mg kg(-1) day(-1) trandolapril from the 2nd to 8th week after surgery. Treatment with trandolapril prolonged the running time, reversed the rates of decrease in ATP and CP and the rate of increase in lactate, and restored the Ca-ATPase activity (51.11+/-0.56 micromol Pi mg(-1) protein h(-1), n = 7; P<0.05) and composition ratio of MHC isoforms in the gracilis muscle. 5. The results suggest that long-term trandolapril treatment of rats with CHF may restore their ability to utilize energy without wastage and thus improve exercise capacity.
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PMID:Improvement of exercise capacity of rats with chronic heart failure by long-term treatment with trandolapril. 1032 90

Detection of antimyosin antibodies in non-inflammatory cardiac disease undermines their disease specificity as a sensitive marker of damage in dilated cardiomyopathy (DCM) patients. Antibody subclass specificity could provide a more sensitive marker of disease and possibly discriminate the humoral autoimmune responses in different cardiac diseases. Frequency and reactivity of autoantibodies against alpha- and beta-isoforms of myosin heavy chain (mhc) were evaluated by ELISA for IgG, IgM, and subclasses IgG1, IgG2, and IgG3 in patients with DCM (NYHA III/IV, n = 82), end stage ischemic heart disease (E-IHD: NYHA III/IV, n = 62), mild ischemic heart disease (NYHA I/II, n = 27), and controls (n = 54). Autoantibodies against atrial and ventricular myosin were raised in heart failure patients compared to mild-IHD and controls but with different antigen affinities. Reactivity in E-IHD was significantly raised against (ventricular) beta-mhc compared with only mild-IHD patients, suggesting a relative increase in ventricular specific antibodies in IHD patients with a higher NYHA class. IgG subclass analysis for IgG1, IgG2, and IgG3 against alpha- and beta-mhc showed statistically raised levels of IgG3 only in DCM patients and a significantly higher reactivity of IgG2 in heart failure patients versus controls. The results demonstrate immunological heterogeneity of antimyosin antibodies developed in different clinical entities. Pro-inflammatory characteristics of IgG3 antibodies in a select group of patients with DCM may contribute to autoimmune mechanisms of injury in these patients.
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PMID:Subclass specificity of autoantibodies against myosin in patients with idiopathic dilated cardiomyopathy: pro-inflammatory antibodies in DCM patients. 1036 96

During administration of the anthracycline antitumour agents, their cardiotoxicity can progress from cardiac dysfunction to heart failure. Cardiomyopathy can also develop years after receiving anthracyclines. To determine if persistent and/or progressive anthracycline effect(s) are referable to anthracycline effects on cardiac gene expression, steady-state mRNA levels were determined 4 days (n=8), 4 weeks (n=7) and 10 weeks (n=7) after doxorubicin (DOX; 2 mg/kg IV) in a well-characterized rabbit model. Levels of mRNA for alpha -actin, beta -myosin heavy chain and the calcium pump of the sarcoplasmic reticulum (SERCA2a) in the left ventricle (LV) were determined by Northern blot hybridization and expressed relative to an 18S constitutive marker. The mRNA levels for the high molecular weight subunit (cardiac isoform) of the ryanodine receptor (RyR2), sarcolemmal calcium channel (dihydropyridine receptor; DHPR), angiotensin-converting enzyme (ACE), angiotensin II receptor (ATR) and atrial naturetic peptide prohormone (ANP) were determined by reverse transcription-polymerase chain reaction (RT-PCR) and Southern blot analysis, and expressed relative to GAPDH, a constitutive marker. Histopathologic evidence for anthracycline-induced myocardial cell injury was absent (score <1) in all hearts examined except one (score=1.1; 4 weeks post-DOX), which was considered separately. Relative mRNA levels for beta -myosin heavy chain 4 days after DOX increased 1.9-fold compared to the vehicle-treated group, but by 4 weeks levels had returned to baseline. Relative mRNA levels for DHPR were increased 1.2-fold 4 days after DOX and were persistently increased 1.9- and 2.2-fold 4 and 10 weeks after DOX, respectively. The mRNA levels for ANP were first decreased (4.5-fold) 4 days after DOX. Four weeks after DOX, ANP message levels approached Control in seven out of eight rabbits. The one rabbit with early LV histopathology 4 weeks post-DOX had increased mRNA for DHPR (2.7-fold) and ANP (80-fold). Between 4 and 10 weeks after DOX, mRNA levels for ANP increased C 16-fold: evidence for late progression. In situ hybridization with specific riboprobes localized the persistent increase in DHPR and the progressive increase in ANP to myocytes. Thus, DOX alters steady-state mRNA levels in LV that are referable to both persistent and progressive anthracycline effects on myocellular gene expression.
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PMID:Persistent effects of doxorubicin on cardiac gene expression. 1042 42

Alcoholic heart muscle disease is characterized by structural changes which include chamber dilation, ventricular hypertrophy, and myocyte damage. These effects often lead to contractile dysfunction and ultimately to heart failure if alcohol consumption is not terminated. In rat models for heart failure in which heart failure is induced by pressure or volume overload, there is a shift in the myosin heavy chain (MHC) isoforms, from alpha to beta. As a result of this MHC transition, there is typically a decrease in myosin ATPase activity. We utilized a rat model of chronic alcohol consumption in order to determine if alcohol causes a similar shift in MHC isoforms and changes in myosin ATPase activity. A liquid diet containing 9% ethanol (46% of daily calories; 11.8 g/kg/day) was administered to adult rats for a period of 60 or 90 days. This heavy consumption of ethanol resulted in an average blood ethanol content of 150 mg %. The relative abundance of beta-MHC isoform protein increased from a control level of 9.7% to 35.1% in hearts of ethanol-fed rats, following 90 days of ethanol consumption. In a separate set of experiments, the levels of alpha-MHC and beta-MHC mRNA were demonstrated to increase by 150% and 230%, respectively. Following a 60 day treatment, there was a significant reduction in the actomyosin Mg2+ -ATPase activity in the myofibrillar preparations from hearts of ethanol-fed rats compared to hearts from control-fed rats. In addition, the myosin Ca2+ -ATPase activity was decreased 17% and 30% after 60 and 90 days of ethanol consumption, respectively. The present study demonstrates that chronic ethanol consumption induces an increase in the proportion of the total MHC content composed of the beta-isoform. This isoform transition is accompanied by an accumulation of beta-MHC mRNA, suggesting that the switch is organized pretranslationally. A functional consequence of this transition in MHC phenotype is demonstrated by significant decreases in the myofibrillar and myosin ATPase activities.
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PMID:Heavy long-term ethanol consumption induces an alpha- to beta-myosin heavy chain isoform transition in rat. 1065 Nov 60

The beta(1)-adrenergic receptor (AR) is the dominant subtype in non-failing and failing myocardium. beta(1)-AR signaling, by the endogenous neurotransmitter norepinephrine, is central to the regulation of myocardial contractility. In heart failure, the beta(1)-AR undergoes subtype-selective downregulation which may protect against the increased cardiac adrenergic drive associated with this pathophysiological state. To examine the hypothesis that chronically increased beta(1)-AR mediated signaling has adverse myocardial effects, transgenic mice overexpressing the human beta(1)-AR in a cardiac-selective context were produced, utilizing an alpha-myosin heavy chain (MHC) promoter. In these mice, beta(1)-AR protein abundance was approximately 24-46-fold (1-2 pmol/mg protein) that of wild-type mice. Histopathological examination of young (4 months old) and old (approximately 9 months old) transgenic mouse hearts consistently demonstrated large areas of interstitial replacement fibrosis, marked myocyte hypertrophy and myofibrilar disarray. In addition, increased expression of the pre-apoptotic marker, Bax, was observed coincident with regions of fibrosis accompanied by an increased apoptotic index, as measured by TUNEL assay. Older non-transgenic mice exhibited a slight tendency towards a decreased fractional shortening, whereas older beta(1)-AR transgenic mice had a marked reduction in fractional shortening (%FS approximately 30) as determined by echocardiography. Additionally, older beta(1)-AR transgenic mice had an increased left ventricular chamber size. In summary, cardiac-directed overexpression of the human beta(1)-AR in transgenic mice leads to a significant histopathological phenotype with no apparent functional consequence in younger mice and a variable degree of cardiac dysfunction in older animals. This model system may ultimately prove useful for investigating the biological basis of adrenergically-mediated myocardial damage in humans.
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PMID:Myocardial-directed overexpression of the human beta(1)-adrenergic receptor in transgenic mice. 1077 86

Inotropic responsiveness to beta-adrenergic stimulation is generally found to be impaired in left ventricular (LV) hypertrophy and failure. To investigate the mechanisms by which angiotensin-converting enzyme inhibitor therapy may modulate inotropic responsiveness with long-term pressure overload, we studied the effects of captopril treatment on cardiac gene expression, LV muscle mechanical contraction, and intracellular calcium (Ca(2+)) transients from spontaneously hypertensive rats (SHR). LV papillary muscles from untreated SHR, age-matched normotensive Wistar-Kyoto rats (WKY), and SHR treated with captopril (CAP(Rx) started at 12, 18, and 21 months of age) were studied. All animals were studied at 24 months of age or when heart failure developed. In untreated SHR, alpha-myosin heavy chain (MHC) gene expression and protein were decreased, the Ca(2+) transient (with the bioluminescent indicator aequorin) was prolonged, and abundance of Na(+)/Ca(2+) exchanger mRNA levels increased in comparison to WKY. Active stress development at L(max) and the maximum rate of stress development were depressed and contractile duration prolonged in SHR relative to WKY. Isoproterenol administration further decreased active stress in untreated SHR despite an increase in intracellular Ca(2+) levels. In CAP(Rx) SHR, alpha-MHC gene expression and protein levels were increased, the Ca(2+) transient was not prolonged, Na(+)/Ca(2+) exchanger expression was downregulated, and papillary muscle function demonstrated increased active stress and maximum rate of stress development in response to isoproterenol. The increased abundance of alpha-MHC mRNA in conjunction with an increase in V(1) myosin isozyme suggests that captopril affects transcriptional regulation of cardiac gene expression. Restored LV inotropic responsiveness to beta-adrenergic stimulation in CAP(Rx) SHR appears to be coupled to normalization of Na(+)/Ca(2+) exchanger mRNA expression, upregulation of V(1) myosin isozyme levels, and increased speed of contraction.
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PMID:Altered inotropic responsiveness and gene expression of hypertrophied myocardium with captopril. 1085 64

Although myocarditis has been implicated in the pathogenesis of heart failure, a definitive relationship between myocardial inflammation, cardiac dysfunction, and changes in myocyte gene expression has not been established. In this study, we examined the hypothesis that myocardial inflammation and replacement fibrosis following an autoimmune response can progress to cardiac dysfunction and may result in progression to the heart failure phenotype. SWXJ mice were immunized with cardiac myosin on day 0 and day 7, in order to induce an autoimmune response to the myosin protein. Cardiac catheterization via the right carotid artery was performed on days 14, 21, 28, 35, and 42, using a 1.4F Millar transducer-tipped catheter. Hearts were weighed, and cross-sections were cut and stained with either haematoxylin and eosin or Masson's trichrome, in order to identify areas of inflammation and/or fibrosis. Myocardial gene expression was determined by Northern blot analysis. In mice with histological evidence of myocarditis, the heart weight/body weight ratio increased beginning on day 14, and cardiac function decreased beginning on day 21. Myocardial inflammation was accompanied by significant fibrosis beginning on day 21. Quantitation of mRNA showed expression of ventricular atrial naturietic factor, as well as a decrease in myosin heavy chain alpha, beginning on day 21. These data demonstrate that autoimmune inflammation of the heart results in significant cardiac dysfunction, leading to phenotypic alterations similar to those demonstrated in human heart failure and animal models of heart failure.
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PMID:Alterations in cardiac function and gene expression during autoimmune myocarditis in mice. 1104 Jan 7

The goal of this study was to test the hypothesis that the relative amounts of the cardiac myosin heavy chain (MHC) isoforms MHC-alpha and MHC-beta change during development and transition to heart failure in the human myocardium. The relative amounts of MHC-alpha and MHC-beta in ventricular and atrial samples from fetal (gestational days 47--110) and nonfailing and failing adult hearts were determined. The majority of the fetal right and left ventricular samples contained small relative amounts of MHC-alpha (mean < 5% of total MHC). There was a small significant decrease in the level of MHC-alpha in the ventricles between 7 and 12 wk of gestation. Fetal atria expressed predominantly MHC-alpha (mean > 95%), with MHC-beta being detected in most samples. The majority of adult nonfailing right and left ventricular samples had detectable levels of MHC-alpha ranging from 1 to 10%. Failing right and left ventricles expressed a significantly lower level of MHC-alpha. MHC-alpha comprised approximately 90% of the total MHC in adult nonfailing left atria, whereas the relative amount of MHC-alpha in the left atria of individuals with dilated or ischemic cardiomyopathy was approximately 50%. The differences in MHC isoform composition between fetal and nonfailing adult atria and between fetal and nonfailing adult ventricles were not statistically significant. We concluded that the MHC isoform compositions of fetal human atria are the same as those of nonfailing adult atria and that the ventricular MHC isoform composition is different between adult nonfailing and failing hearts. Furthermore, the marked alteration in atrial MHC isoform composition, associated with cardiomyopathy, does not represent a regression to a pattern that is uniquely characteristic of the fetal stage.
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PMID:Human cardiac myosin heavy chain isoforms in fetal and failing adult atria and ventricles. 1124 96

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