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)

Coarctation of the abdominal aorta in rats for 10 wk increased the heart weight-to-body weight ratio by 36% and peak left ventricular systolic pressure by 75%; there was no apparent change in the end-diastolic pressure, and animals did not show any clinical signs of heart failure. These hypertrophied (H) hearts showed increased activities of superoxide dismutase (SOD) and glutathione peroxidase (GSHPx) with no change in catalase. Lipid peroxide content as indicated by the malondialdehyde (MDA) level was lower in H hearts. There was no apparent difference in either Na+ and Ca2+ content or high-energy phosphates between sham (S) and H hearts. Control and H hearts were subjected to 10 min of ischemia (I) and 15 min of reperfusion (R). Contractile failure and rise in resting tension due to I, in both S and H hearts, were comparable. On reperfusion, H hearts showed better recovery of the developed force and resting tension as well as reduced incidence of arrhythmias when compared with corresponding S hearts. Both SOD and GSHPx activities were depressed due to I-R, but these activities were significantly higher in reperfused H hearts. Reperfused H hearts also showed a better maintenance of the ultrastructure and Na+ and Ca2+ contents, recovery of high-energy phosphates, and reduced MDA levels compared with S hearts. Supplementation of the perfusion medium with SOD (120 U/ml) and catalase (80 U/ml) significantly attenuated the I-R injury in S hearts, and the response in many ways was comparable to H hearts. The study documents the therapeutic potential of increased myocardial endogenous antioxidants against oxidative stress.
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PMID:Increase in endogenous antioxidant enzymes protects hearts against reperfusion injury. 836 52

Antioxidant enzyme activities and oxidative stress were evaluated in the myocardium in relation to hemodynamic function subsequent to myocardial infarction in rats. One week after the coronary ligation, the left ventricular peak systolic pressure, left ventricular end-diastolic pressure, and aortic pressures remained near control values and there were no differences in lung and liver wet/dry weight ratios between experimental and control animals. In the 4-, 8-, and 16-week experimental animals, there was a progressive drop in left ventricular peak systolic pressure and an increase in left ventricular end-diastolic pressure. Aortic systolic pressure was depressed at 8 and 16 weeks. In myocardial infarct rats, there was a significant increase in wet/dry weight ratio of lungs at 8 weeks and at 16 weeks; this ratio was increased for lungs as well as liver. Based on the hemodynamic data as well as other observations, animals in the 1-, 4-, 8-, and 16-week groups were arbitrarily categorized into nonfailure and mild, moderate, and severe failure stages, respectively. In the nonfailure stage, there was a marginal increase in superoxide dismutase, glutathione peroxidase, and catalase activities as well as vitamin E levels. The redox state in these hearts, assessed by the reduced/oxidized glutathione ratio, was significantly increased. Superoxide dismutase activity was unchanged in mild and moderate failure stages but significantly depressed at 16 weeks. Glutathione peroxidase and catalase activities showed progressive decreases through mild, moderate, and severe failure stages. Vitamin E levels were significantly depressed at moderate and severe failure stages. There was a progressive increase in lipid peroxidation at mild, moderate, and severe stages of heart failure and the redox ratio was significantly depressed in the severe failure stage. These data suggest that heart failure subsequent to myocardial infarction may be associated with an antioxidant deficit as well as increased myocardial oxidative stress.
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PMID:Antioxidant and oxidative stress changes during heart failure subsequent to myocardial infarction in rats. 854 18

Normal ageing is associated with different changes in the cardiovascular system that lead to an increase in pathological processes such as hypertension and heart failure. Therefore the importance of glutathione peroxidase and catalase for protection against peroxidation was studied in the rat heart. Each of the these enzymes was regulated by feeding rats a low selenium diet either unsupplemented or supplemented with 0.4 parts per million of selenium, with or without the catalase inhibitor, sodium fluoride, in their drinking water. After 2 months, selenium deficient rats had 87% reductions in mitochondrial and cytosolic glutathione peroxidase activities. These reductions were accompanied by increased peroxidation in heart homogenates and mitochondrial suspensions. Since increased mitochondrial peroxidation only occurred when both the cytosolic and mitochondrial glutathione peroxidase activities were involved, these selenoenzymes appear to work in tandem and reductions in both are a prerequisite for increased peroxidation in the heart. Peroxidation did not occur in sodium fluoride treated rats even though cytosolic catalase activity was inhibited by 70%. Moreover, inhibition of catalase activity did not exacerbate the level of peroxidation in selenium deficient rats depleted of glutathione peroxidase activity. Because increased peroxidation was only associated with reductions in glutathione peroxidase activity irrespective of catalase activity, the selenoenzyme appears to be more important for detoxification of hydrogen peroxide in the heart.
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PMID:Enzymatic defenses of the rat heart against lipid peroxidation. 922 21

The use of the potent antitumor antibiotic doxorubicin (DOX) is hampered because of its severe cardiac toxicity that leads to the development of cardiomyopathy and heart failure. In this study, we have developed a cell culture model for DOX-induced myocardial injury using primary adult rat cardiomyocytes that were cultured in serum-free medium and exposed to 1 to 40 microM DOX. DOX caused a dose-dependent release of sarcosolic enzyme lactate dehydrogenase (LDH) from cultured myocytes. The release of LDH was prevented by the cell-permeable superoxide dismutase (SOD) mimetic (MnTBAP), but was unaffected by either cell-impermeable SOD enzyme, or manganese (II) sulfate. Ebselen, a glutathione peroxidase (GPx) mimetic, enhanced the protection of cardiomyocytes afforded by MnTBAP. DOX caused the increased formation of oxidants in cardiomyocytes, and MnTBAP lowered the amount of intracellular oxidants induced by DOX. In addition, DOX selectively inactivated aconitase in cardiomyocytes, and MnTBAP partially reversed this inactivation. Ebselen further amplified the protective effect of MnTBAP on aconitase activity. These results suggest that the SOD mimetic MnTBAP prevents DOX-induced damage to cardiomyocytes and that the GPx mimetic ebselen synergistically enhanced the cardioprotection afforded by MnTBAP. Relevance of these findings to minimizing cardiotoxicity in cancer treatment is discussed.
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PMID:Cell-permeable superoxide dismutase and glutathione peroxidase mimetics afford superior protection against doxorubicin-induced cardiotoxicity: the role of reactive oxygen and nitrogen intermediates. 1044 96

The suggested role of oxidative stress in the pathogenesis of heart failure is largely based on utilizing left heart failure models. The present study on rats evaluated changes in antioxidants as well as oxidative stress in relation to hemodynamic function subsequent to the right heart failure induced by monocrotaline (50 mg/kg, i.p.). During the post-injection period, monocrotaline (MCT)-treated rats demonstrated a persistent growth depression. Two to three weeks after the injection, MCT-treated rats showed signs of fatigue, peripheral cyanosis and dyspnea. In these rats, right heart hypertrophy was confirmed by a significant increase in right ventricular weight as well as right ventricle to body weight ratio. In MCT-treated rats, there was also a significant increase in right ventricular systolic as well as end diastolic pressures. No change in lung and liver wet/dry weight ratios between MCT-treated and control animals was observed. Based on the hemodynamic data as well as other clinical observations, the functional stage achieved was compensated heart failure. Myocardial antioxidant enzymes, catalase, glutathione peroxidase and superoxide dismutase, in the MCT-treated rats were not different compared to control rats. Vitamin E levels were significantly depressed in the RV and there was no change in retinol levels. There was a significant increase in lipid hydroperoxide concentrations in MCT-treated rats as compared to the control group. These data provide evidence that right heart failure is associated with an increase in oxidative stress.
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PMID:Myocardial oxidative stress changes during compensated right heart failure in rats. 1044 2

Resveratrol (trans-3,4',5-trihydroxystibene) is a phytopolyphenol isolated from the seeds and skins of grapes. Recent studies indicate that resveratrol can block the process of multistep carcinogenesis, namely, tumor initiation, promotion and progression. Resveratrol can also reduce the risk of cardiovascular disease in man. The molecular mechanisms of resveratrol in chemoprevention of cancer and cardiovascular disease are interesting and under intensive investigation. Resveratrol was found to strongly inhibit nitric oxide (NO) generation in activated macrophages, as measured by the amount of nitrite released into the culture medium, and resveratrol strongly reduced the amount of cytosolic inducible nitric oxide synthase (iNOS) protein. The activation of nuclear factor kappa B (NF kappa B) induced by lipopolysaccharide (LPS) was inhibited by resveratrol. The phosphorylation and degradation of nuclear factor inhibitor kappa B alpha (I kappa B alpha) were inhibited by resveratrol simultaneously. Reactive oxygen species (ROS) are regarded as having carcinogenic potential and have been associated with tumor promotion. Resveratrol may act as a reactive oxygen species scavenger to suppress tumor development. In addition, resveratrol may block multistep carcinogenesis through mitotic signal transduction blockade. Reactive oxygen species are pivotal factors in the genesis of heart disease. Meanwhile, efficient endogenous antioxidants, including superoxide dismutase (SOD), glutathione peroxidase (GSHPx), and catalase, are present in tissues. A fine balance between reactive oxygen species and endogenous antioxidants is believed to exist. Any disturbance of this balance in favor of reactive oxygen species causes an increase in oxidative stress and initiates subcellular changes, leading to cardiomyopathy and heart failure. The experimental results indicate that exogenous antioxidant resveratrol is of value in chemopreventing the development of heart disease. It is urgent that more efforts be made to investigate newer therapies employing antioxidants for the chemoprevention of cardiovascular disease and cancer.
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PMID:Chemoprevention of cancer and cardiovascular disease by resveratrol. 1049 90

Acute iron poisoning and chronic iron overload are well-known causes of myocardial failure. Although the exact mechanism is not known, excess iron-catalyzed free radical generation is conjectured to play a role in damaging the myocardium and altering cardiac function. We report here on the effects of acute and chronic iron-loading on the total iron concentration, glutathione peroxidase activity, and cytotoxic aldehyde production in the heart of a murine model (n = 35). Light microscopic examination for the presence of ferrous and ferric iron was undertaken following histochemical staining for these species. In addition, examination of representative samples by transmission electron microscopy was performed. Our findings show that iron-loading can result in significant increases in total iron concentrations, alterations to glutathione peroxidase activity, and increases in cytotoxic aldehyde concentrations in the hearts of mice. Furthermore, we observe that iron-loading can significantly alter and damage various cellular constituents (e.g., mitochondria, lysosomes, sarcoplasmic reticulum) and this may have bearing on the mechanism of iron-induced heart failure.
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PMID:A biochemical, histochemical, and electron microscopic study on the effects of iron-loading on the hearts of mice. 1061 16

The present study investigates intracellular enzymatic pathways involved in the elimination of reactive oxygen species in the left ventricular myocardium of 10 individuals without heart failure and 12 patients with end-stage heart failure due to idiopathic dilated cardiomyopathy. Left ventricular enzyme activities, mRNA and protein levels of the hydrogen peroxide scavenging enzymes catalase (CAT) and glutathione peroxidase (GPX), and the superoxide anion scavenging enzymes mitochondrial (Mn-SOD) and cytosolic (Cu/Zn-SOD) superoxide dismutases were measured. In failing myocardium, there was a significant decrease in CAT activity (4.83+/-0.32 U/mg v 6.59+/-0.52, P<0.01) despite unchanged mRNA expression and protein levels. GPX, Mn-SOD and Cu/Zn-SOD were similar concerning activity, mRNA and protein levels. As indirect free radical markers, similar levels of the products of lipid peroxidation, malondialdehyde and 4-hydroxy-alkenals, and similar tissue nitrotyrosin content were measured. The decrease in CAT activity appears to be a post-transcriptional mechanism. A decreased myocardial capacity to scavenge hydrogen peroxide might lead to a shift in the intracellular redox balance which potentially results in activation of redox sensitive signalling pathways. Direct reactive oxygen species mediated damage was not detected by the methods applied.
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PMID:Antioxidative enzymes in human hearts with idiopathic dilated cardiomyopathy. 1065 96

In vitro experiments suggest that beta blockade and angiotensin-converting enzyme (ACE) inhibition may protect the failing heart by reduction of myocardial oxidative stress. To test this hypothesis in an in vivo model, the beta blocker metoprolol (350 mg) and the ACE inhibitor ramipril (1 mg) were given either alone or in combination to rats (per kilogram body weight per day) for 6 weeks after myocardial infarction. Left ventricular end-diastolic pressure (LVEDP), contractile function of papillary muscles, enzymatic antioxidative defense (indicated by the activities of the superoxide dismutase isoenzymes and glutathione peroxidase), and the extent of lipid peroxidation were studied. Placebo-treated rats showed cardiac hypertrophy, increased LVEDP, lower rates of contraction and relaxation, as well as a deficit in the myocardial antioxidative defense associated with increased lipid peroxide levels, when compared with sham-operated animals. Combined beta blockade and ACE inhibition improved the antioxidative defense, reduced hypertrophy and LVEDP, and enhanced rates of contraction. Thus prolonged beta blockade and ACE inhibition after infarction may decrease myocardial oxidative stress and thereby could be beneficial in heart failure.
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PMID:Oxygen radical system in chronic infarcted rat heart: the effect of combined beta blockade and ACE inhibition. 1081 71

Although the mechanism of myocardial failure following acute iron poisoning is not known, excess iron-catalyzed free radical generation is conjectured to play a role. The effects of time (0 to 360 minutes) on total iron concentrations, glutathione peroxidase activity, and cytotoxic aldehyde production in heart of mice (B6D2F1, n = 65) were first investigated following acute iron-loading (20 mg iron dextran i.p./mouse). In a subsequent experiment, the effects of dose (0 to 80 mg iron dextran i.p./mouse, n = 75) on the aforementioned parameters were investigated. Our results show that the concentrations of cytotoxic aldehydes: (1) significantly differ over-time, with corresponding increases in total concentrations of iron (r = 0.93, p < 0.001); and (2) increase parallel to the total dose of iron administered (r = 0.95, p < 0.001). Furthermore, dose-and time-dependent alterations to glutathione peroxidase activity are observed, which is most likely due to an acute up-regulation of the enzyme as an endogenous protective response to increased free radical activity in the heart subsequent to iron-loading. While no single mechanism is likely to account for the complex pathophysiology of acute iron-induced heart failure, our results shown that iron-loading can result in significant free radical generation, as quantified by cytotoxic aldehydes, in heart tissue of mice. This is the first report on the effects of time and dose on cytotoxic aldehyde generation and glutathione peroxidase activity in heart of mice following acute iron-loading.
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PMID:Cytotoxic aldehyde generation in heart following acute iron-loading. 1083 29

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