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)

Changes in fatty acid composition of myocardial lipids were examined in rats with heart failure following myocardial infarction. Left ventricular systolic pressure (LVSP) was decreased and left ventricular end-diastolic pressure (LVEDP) was elevated 24 h, 1 and 12 weeks after left coronary artery ligation (CAL), suggesting the development of heart failure at these periods in this model. Hearts were isolated 24 h, 1 week and 12 weeks after the operation. Myocardial lipids in the infarcted scar tissue, non-infarcted remaining left ventricle including interseptum and right ventricle were separated into phospholipid (PL), triacylglycerol (TG), diacylglycerol (DAG) and free fatty acid (FFA) fractions. In the scar tissue PL content markedly decreased whereas TG, DAG and FFA contents increased 24 h after CAL. Despite a marked decrease in constituted fatty acids of PL fraction in the scar tissue the percentage of arachidonic acid in PL was elevated 12 weeks after CAL, suggesting that release of arachidonic acid during PL degradation was suppressed. In the non-infarcted viable left ventricle PL content remained unchanged throughout the experiment whereas TG, DAG and FFA contents were elevated 24 h after CAL. Despite no changes in PL and other lipid contents in the non-infarcted tissue the percentage of linoleic acid in PL was reduced and that of docosahexaenoic acid in PL was elevated 12 weeks after CAL. Our findings showed that myocardial lipid composition of the non-infarcted left ventricle was altered only in an early stage of the development of heart failure and fatty acid compositions of PL was exchanged in a late stage of the development of heart failure. The exchange may be related to cardiac dysfunction or myocardial remodelling in the rat with heart failure.
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PMID:Changes in fatty acid compositions of myocardial lipids in rats with heart failure following myocardial infarction. 940 60

The goal of this study was to understand the mechanisms behind the changes in plasma NOx during heart failure. Heart failure is associated with an increase in plasma nitrate levels, and yet most experimental evidence demonstrates a reduction in endothelial nitric oxide production during heart failure. Dogs were chronically instrumented for measurement of systemic hemodynamics and left ventricular (LV) dimensions. Hearts were paced at 210 bpm for 3 weeks (n = 14) and then 240 bpm for 1 week (n = 7). Hemodynamics, arterial blood gases, plasma NOx, and creatinine levels were monitored weekly. Heart failure was evidenced by cachexia, ascites, and hemodynamic alterations. Resting heart rate rose (94 +/- 6 to 135 +/- 9 bpm), and LV dP/dt fell (2810 +/- 82 to 1471 +/- 99 mm Hg/s), while LV end diastolic pressure quadrupled (5.8 +/- 0.7 to 25 +/- 0.8 mm Hg), and diastolic wall stress quadrupled (11 +/- 1.3 to 43 +/- 6.0 g/cm2, all P < 0.05). These changes occurred during a doubling in plasma NOx (5.5 +/- 1.5 to 10 +/- 1.6 microM, P < 0.05). There were no changes in plasma NOx through 3 weeks of pacing. Plasma creatinine levels increased 450% (from 0.27 +/- 0.32 to 1.21 +/- 0.63 mg%). Stimulated nitrite production by agonists in sieved coronary microvessels was unchanged after 3 weeks of pacing but was reduced after heart failure. Plasma NOx did not correlate with LV dP/dt or systolic wall stress but correlated directly with LV EDP or diastolic wall stress and inversely with cardiac work. Plasma NOx rose in direct relation to plasma creatinine levels (Y = 4.8X + 2.8, r2 = 0.84), suggesting that the rise in plasma NOx during heart failure is due to decreased renal function not increased NO production.
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PMID:Mechanisms of nitrate accumulation in plasma during pacing-induced heart failure in conscious dogs. 944 9

Our purpose was to determine whether hearts from mice bioengineered to lack either the M isoform of creatine kinase (MCK-/- mice) or both the M and mitochondrial isoforms (M/MtCK-/- mice) have deficits in cardiac contractile function and energetics, which have previously been reported in skeletal muscle from these mice. The phenotype of hearts with deleted creatine kinase (CK) genes is of clinical interest, since heart failure is associated with decreased total CK activity and changes in the relative amounts of the CK isoforms in the heart. We measured isovolumic contractile performance in isolated perfused hearts from wild-type, MCK-/-, and M/MtCK-/- mice simultaneously with cardiac energetics (31P-nuclear magnetic resonance spectroscopy) at baseline, during increased cardiac work, and during recovery. Hearts from wild-type, MCK-/-, and M/MtCK-/- mice had comparable baseline function and responded to 10 minutes of increased heart rate and perfusate Ca2+ with similar increases in rate-pressure product (48+/-5%, 42+/-6%, and 51+/-6%, respectively). Despite a similar contractile response, M/MtCK-/- hearts increased [ADP] by 95%, whereas wild-type and MCK-/- hearts maintained [ADP] at baseline levels. The free energy released from ATP hydrolysis decreased by 3.6 kJ/mol in M/MtCK-/- hearts during increased cardiac work but only slightly in wild-type (1.7 kJ/mol) and MCK-/- (1.5 kJ/mol) hearts. In contrast to what has been reported in skeletal muscle, M/MtCK-/- hearts were able to hydrolyze and resynthesize phosphocreatine. Taken together, our results demonstrate that when CK activity is lowered below a certain level, increases in cardiac work become more "energetically costly" in terms of high-energy phosphate use, accumulation of ADP, and decreases in free energy released from ATP hydrolysis, but not in terms of myocardial oxygen consumption.
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PMID:Impaired cardiac energetics in mice lacking muscle-specific isoenzymes of creatine kinase. 957 9

Rapid ventricular pacing in dogs results in a low output cardiomyopathic state which is similar to idiopathic dilated cardiomyopathy in man. However, the pathophysiological mechanisms which cause this failure following pacing are unknown. Five dogs underwent rapid ventricular pacing. Hearts were stimulated at 245 beats per min (bpm) for four weeks and then reduced to 190 bpm to stabilize the failure. Six unoperated dogs were used as controls. This paper compares the two-dimensional gel electrophoresis (2-DE) protein patterns of left ventricular samples from the paced myocardium with the control dogs. Changes in protein expression were analyzed qualitatively and semi-quantitatively. In the paced dog samples 69 protein spots were significantly altered of which 42 were decreased and 27 were elevated. One qualitative change was observed: elongation factor Tu was present only the control hearts. Of these proteins, 20 have been identified by a combination of N-terminal protein microsequencing, peptide mass profiling by mass spectrometry, amino acid compositional analysis, and by comparison with databases of canine and human ventricular proteins. Ten of these are associated with mitochondria and energy production, including: pyruvate dehydrogenase E1 component, isocitrate dehydrogenase subunit alpha, HSP60 and HSP70, creatine kinase M and fatty acid binding protein. The cytoskeletal protein desmin was detected in reduced quantities and a spot corresponding to a fragment of desmin was increased. These results indicate that the development of heart failure in the paced dog involves alterations in mitochondrial energy production, the cytoskeleton and calcium activation.
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PMID:Protein changes observed in pacing-induced heart failure using two-dimensional electrophoresis. 974 64

An acute increase of myocardial interstitial fluid may affect ventricular function. In the present study we evaluated the effects of acute changes of myocardial tissue fluid on cardiac function and ultrastructural morphometry. Isolated rat hearts were perfused for 100 min in the working heart mode. Hearts were distributed into 5 groups: controls [perfused with Krebs-Henseleit (KH) isotonic buffer to rat plasma, KH, 287 mOsm], moderate hyposmotic perfusion (75% Hyposm: perfusion with 75% diluted KH, 216 mOsm), highly hyposmotic perfusion (60% Hyposm: perfusion with 60% diluted KH, 170 mOsm), afterload increase (Pre-over: isotonic perfused hearts subjected to an increase of afterload from 72 to 145 cm H2O) and ion dilution (Ion-dil: hearts perfused with a 60% KH with 115 mM sucrose, isotonic, 287 mOsm). We evaluated functional changes, markers of cellular necrosis or damage (CPK, LDH and purine release in coronary effluent), heart weight changes (weight gain and ww/dw ratio) and ultrastructural morphometry (analysis of cell damage, interstitial area, and mitochondrial alterations by a computerized image analysis system). The ww/dw ratio increased significantly only in 60% Hyposm (+140%, p < 0.001) and Pre-over (+63%, p < 0.001 vs control) groups. An impaired myocardial function in 60% Hyposm, Pre-over and Ion-dil groups was observed with cardiac failure at 50, 60 and 60 min, respectively. Enzyme release was significant higher in 60% Hyposm and Pre-over groups and was related to heart weight gain (r = 0.85, p < 0.001). Ultrastructural analysis confirmed a significant increase of interstitial space area (ISA) and mitochondrial damage in 60% Hyposm and Pre-over groups (p < 0.001); a significant (p < 0.05) increase was observed in the Ion-dil group; in 75% Hyposm group, a significant increase of mitochondrial damage was detected (p < 0.05). In brief, a higher functional and morphological deterioration was observed in hearts in which a more evident interstitial edema was detected (60% Hyposm and Pre-over groups). We conclude that, in the experimental condition, an acute increase of myocardial interstitial tissue fluid directly compromises left ventricular function and contributes to the ultrastructural damage to the myocardium.
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PMID:Effect of acute increase of interstitial myocardial fluid on ventricular function in isolated working rat hearts. 986 55

Heart failure is a highly lethal condition which carries a shorter life expectancy than most common malignancies. Despite the large number of efforts dedicated to understand why the heart fails, only limited possibilities are available to improve survival. This because the problem is very complex and is dependent upon multiple changes in the anatomical and functional properties of the heart as well as of other organs, together with modifications in systemic and local hormonal and neuronal interactions. This review has been focused on some results obtained in pathologic hearts explanted from subjects with intractable heart failure or in hearts from animals with spontaneous or induced myocardial damage with different degrees of cardiac dysfunction and failure performed in the last few years in our laboratories. Hearts in failure have different alterations at the anatomical, histological and cellular level that may justify, at least in part, the functional impairment and the progressive evolution of the disease. Recent findings of apoptotic myocyte cell death and myocytic hyperplasia are exciting prospectives to be followed with the expectation that new strategies may be discovered to alter the unfavourable outcome of heart failure. However, the complexity of the problem seems to require a large number of efforts before the results obtained can be applied to human beings. Thus, basic researches must be stimulated to explore the mechanisms which allow the development of heart failure despite the persistence in the damaged myocardium of a large number of contractile cells.
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PMID:The Failing Heart. 1035 77

The small (21 kDa) guanine nucleotide-binding protein (small G protein) superfamily comprises 5 subfamilies (Ras, Rho, ADP ribosylation factors [ARFs], Rab, and Ran) that act as molecular switches to regulate numerous cellular responses. Cardiac myocyte hypertrophy is associated with cell growth and changes in the cytoskeleton and myofibrillar apparatus. In other cells, the Ras subfamily regulates cell growth whereas the Rho subfamily (RhoA, Rac1, and Cdc42) regulates cell morphology. Thus, the involvement of small G proteins in hypertrophy has become an area of significant interest. Hearts from transgenic mice expressing activated Ras develop features consistent with hypertrophy, whereas mice overexpressing RhoA develop lethal heart failure. In isolated neonatal rat cardiac myocytes, transfection or infection with activated Ras, RhoA, or Rac1 induces many of the features of hypertrophy. We discuss the mechanisms of activation of the small G proteins and the downstream signaling pathways involved. The latter may include protein kinases, particularly the mitogen-activated or Rho-activated protein kinases. We conclude that although there is significant evidence implicating Ras, RhoA, and Rac1 in hypertrophy, the mechanisms are not fully understood.
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PMID:Small guanine nucleotide-binding proteins and myocardial hypertrophy. 1082 30

The morphological characteristics of post-infarction ventricular remodeling were determined by comparison of infarct location and histological changes of noninfarcted myocardium at autopsy. A total of 94 cases of first acute myocardial infarction with clinical courses of 0 to 37 days were studied. Hearts were sliced on the short axis at the level of 1/3 of the distance from the atrioventricular ring to the apex. Wall thicknesses of the infarcted and noninfarcted areas, and the endocardial and epicardial perimeter lengths of the left ventricle were measured. Myocyte diameter and number of myocytes in the noninfarcted area were measured. Infarcts were classified into 3 groups based on infarct location (51 anterior, 22 posterior, and 21 nontransmural circumferential) and each group was further divided according to the clinical course of less than 72 hours or longer. Fifty two patients died within 72 hours. Cardiac rupture was the most common cause of death in the anterior group. Patients in the posterior group chiefly died due to cardiogenic shock and in the circumferential group chiefly died to pump failure. According to the number of stenosed coronary arteries, cardiac rupture was the most common cause of death in single-vessel disease in both anterior and posterior groups (62.1% and 55.6%, respectively). In double-vessel disease, the most common cause of death in the anterior group was still cardiac rupture (50.0%). On the other hand, 50.0% of the posterior group died of cardiogenic shock in double-vessel disease. Patients with triple-vessel disease mainly died due to heart failure in all groups. Wall thickness of the infarcted myocardium was decreased in the anterior group after 72 hours (11.8 +/- 3.5 vs 7.8 +/- 2.5 mm). Endocardial perimeter length was increased in the anterior and circumferential groups (83.6 +/- 25.6 vs 116.3 +/- 29.5 mm, 75.2 +/- 12.0 vs 117.6 +/- 3.1 mm, respectively). Endocardial/epicardial perimeter length ratio increased with longer clinical course in the anterior group. No specific change in wall thickness or perimeter length was found in the posterior group. Noninfarcted wall thickness was preserved in both the anterior and posterior groups. Myocyte diameter and number of myocytes in the noninfarcted area showed no significant difference after 72 hours. The nature of ventricular remodeling differs with infarct location. Ventricular dilation occurred during the clinical course in the anterior group. The transmural and adjacent areas are more important than the remote noninfarcted area in post-infarction remodeling within this period.
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PMID:[Clinicopathological study of left ventricular remodeling after first acute myocardial infarction]. 1083 76

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

We investigated the effect of sodium/hydrogen exchange inhibition (NHE-1) on hypertrophy and heart failure after coronary artery ligation (CAL) in the rat. Animals were subjected to occlusion (or sham) of the left main coronary artery and immediately administered a control diet or one consisting of the NHE-1 inhibitor cariporide for 13-15 wk. Hearts were separated by small [</=30% of left ventricle (LV)] and large (>30% of LV) infarcts. CAL depressed change in left ventricular increase in pressure over time (LV +dP/dt) in small and large infarct groups by 18.8% (P < 0.05) and 34% (P < 0.01), respectively, whereas comparative values for the cariporide groups were 8.7% (not significant) and 23.1% (P < 0.01), respectively. LV end-diastolic pressure was increased by 1,225% in the control large infarct group but was significantly reduced to 447% with cariporide. Cariporide also significantly reduced the degree of LV dilation in animals with large infarcts. Hypertrophy, defined by tissue weights and cell size, was reduced by cariporide, and shortening of surviving myocytes was preserved. Infarct sizes were unaffected by cariporide, and the drug had no influence on either blood pressure or the depressed inotropic response of infarcted hearts to dobutamine. These results suggest an important role for NHE-1 in the progression of heart failure after myocardial infarction.
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PMID:Na(+)/H(+) exchange inhibition reduces hypertrophy and heart failure after myocardial infarction in rats. 1115 73


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