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)

Chronic cobalt exposure is characterized by severe cardiac insufficiency. Since the mechanisms of cobalt toxicity are not yet clear, we analysed the effects of chronic cobalt exposure on antioxidant enzyme activities and myocardial mitochondrial ATP production rate in a rat model. One group of rats was fed a conventional diet and another a cobalt supplemented diet for 24 weeks. The manganese-superoxide dismutase activity was markedly reduced in the cobalt rats (18+/-4.7 U/mg protein) compared to the control rats (100+/-22 U/mg protein; p <0.001). Activity in the respiratory chain enzymes succinate-cytochrome c reductase, NADH-cytochrome c reductase and cytochrome c oxidase was also reduced in the cobalt rats (p<0.01). Glutamate dehydrogenase activity, located in the mitochondrial matrix, was unchanged. The mitochondrial ATP production rate in relation to myocardial mass was lower in the cobalt rats for all substrates tested except palmitoyl-l-carnitine + malate. In conclusion, 24 weeks of chronic cobalt exposure induces a marked decrease in manganese-superoxide dismutase activity, a moderate decrease in mitochondrial ATP production rate and a general reduction in the capacity of the respiratory chain. The impairment in mitochondrial ATP production might be secondary to the decreased manganese-superoxide dismutase activity, causing inactivation of mitochondrial factors susceptible to superoxide radicals.
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PMID:Chronic cobalt exposure affects antioxidants and ATP production in rat myocardium. 1176 20

Left ventricular hypertrophy is considered a risk for cardiac failure. In an attempt to understand the molecular basis of antioxidant changes during ventricular hypertrophy, we have used isoproterenol treated rats. Our studies showed that administration of high doses of isoproterenol induced oxidative and nitrosative stress, expressed as decreased level of thiols (SH), decreased superoxide dismutase (SOD) activity and increased nitrates level in the rat heart. The results obtained are considered an outcome of oxidative stress conditions imposed by isoproterenol autooxidation.
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PMID:Decreased SOD activity and increased nitrates level in rat heart with left ventricular hypertrophy induced by isoproterenol. 1179 33

Repeated bouts of ischemia in the heart lead to fibrosis and eventually to heart failure. Although certain genes, such as SOD or hemoxygenase and antisense to AT(1)R, ACE, and (beta(1)-AR can provide short-term protection of the heart from ischemia, there is no known mechanism for constantly responding to repeated incidences of ischemia. We hypothesized that a "vigilant vector," designed to be expressed specifically in the heart and switch on therapeutic genes only during hypoxia, would provide cardioprotection. To attain cardiac specificity, we inserted an MLC2v promoter into an adeno-associated virus (AAV) designed to deliver AS to AT(1)R and gfp. In in vitro experiments in cardiomyocytes (H9C2 cells), the MLC2v-AAV-gfp drove gene expression in all cells at levels comparable to a cytomegalovirus (CMV) promoter. In in vivo experiments, the rAAV-MLC2v-gfp was injected intravenously into mice or rats. Green fluorescence protein (GFP) DNA was located in kidney, heart (right and left ventricle), lung, adrenal and spleen. GFP mRNA, however, was expressed only in the heart and absent in other tissues. To switch on the rAAV transgene during ischemia, we inserted a hypoxia response element (HRE). This upregulates transcription when O(2) levels are low. Thus, there are 4 components to the vigilant vector; a gene switch (HRE), a heart-specific promoter (MLC2v), a therapeutic gene (AS-AT(1)R) and a reporter gene (gfp). To silence or lower basal level of expression while retaining specificity, we have reduced the length of the MLC2v promoter from 3 kb to 1775 bp or 281 bp. The truncated promoter is equally effective in heart specific expression. Preliminary studies with the rAAV-HRE-gfp in vitro show an increased expression in 1% O(2) in 4 to 6 hours. By adding additional hypoxia-inducible factor (HIFalpha) (5 microg), the MLC2v-gfp expression is increased by 4-fold in 1% O(2). Further amplification of the gene to 400-fold in 1% O(2) can be achieved with a double plasmid. The construct may serve as a prototype "vigilant vector" to switch on therapeutic genes in specific tissue with physiological signals.
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PMID:Vigilant vector: heart-specific promoter in an adeno-associated virus vector for cardioprotection. 1188 25

Increased oxidative stress and antioxidant deficit have been suggested to play a major role in adriamycin-induced cardiomyopathy and congestive heart failure due to multiple treatments with adriamycin (doxorubicin). In this study, we investigated the acute effects of a single dose of adriamycin on myocardial antioxidant enzymes in rats. Adriamycin (2.5 mg/kg) was injected (i.p.) and myocardial antioxidant enzyme activities, mRNA abundance and protein levels at 1, 2, 4 and 24 h were examined. While manganese superoxide dismutase (MnSOD), glutathione peroxidase (GSHPx) and catalase (CAT) activities were not significantly changed, copper-zinc superoxide dismutase (CuZnSOD) activity was reduced at all time points and this change correlated with a decrease in its protein content. CuZnSOD mRNA was increased at 1 and 24 h. GSHPx mRNA and protein levels were transiently decreased by 20 and 25% respectively at 2 h. MnSOD mRNA was not significantly changed, but its protein levels were significantly decreased at 1 h. Lipid peroxidation was increased transiently at 1, 2 and 4 h. A transient depression in antioxidant enzyme as well as transient increase in oxidative stress with a single dose of adriamycin may precede more sustained changes seen with the repeated administration of the drug and contribute to the development of cardiomyopathy and heart failure.
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PMID:Early changes in myocardial antioxidant enzymes in rats treated with adriamycin. 1203 Mar 76

Nitric oxide (*NO) and its by-products modulate many physiological functions of skeletal muscle including blood flow, metabolism, glucose uptake, and contractile function. However, growing evidence suggests that an overproduction of nitric oxide contributes to muscle wasting in a number of pathologies including chronic heart failure, sepsis, COPD, muscular dystrophy, and extreme disuse. Limited data point to the potential of inhibition various enzymes by reactive nitrogen species (RNS), including (.)NO and its downstream products such as peroxynitrite, primarily in purified systems. We hypothesized that exposure of skeletal muscle to RNS donors would reduce or downregulate activities of the crucial antioxidant enzymes superoxide dismutase (SOD), catalase (CAT), and glutathione peroxidase (GPX). Diaphragm muscle fiber bundles were extracted from 4-month-old Fischer-344 rats and, in a series of experiments, exposed to either (a) 0 (control), 1, or 5 mM diethylamine NONOate (DEANO: *NO donor); (b) 0, 100, 500 microM, or 1 mM sodium nitroprusside (SNP: *NO donor); (c) 0 or 2 mM S-nitroso-acetylpenicillamine (SNAP: *NO donor); or (d) 0 or 500 microM SIN-1 (peroxynitrite donor) for 60 min. DEANO resulted in a 50% reduction in CAT, GPX, and a dose-dependent inhibition of Cu, Zn-SOD. SNP resulted in significantly lower activities for total SOD, Mn-SOD isoform, Cu, Zn-SOD isoform, CAT, and GPX in a dose-dependent fashion. Two millimolar SNAP and 500 microM SIN-1 also resulted in a large and significant inhibition of total SOD and CAT. These data indicate that reactive nitrogen species impair antioxidant enzyme function in an RNS donor-specific and dose-dependent manner and are consistent with the hypothesis that excess RNS production contributes to skeletal muscle oxidative stress and muscle dysfunction.
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PMID:Specificity of antioxidant enzyme inhibition in skeletal muscle to reactive nitrogen species donors. 1207 89

1. Myocardial injury caused by ischaemia and reperfusion comes from multiple pathogenic events, including endothelial damage, neutrophil extravasation into tissue, mast cell activation, and peroxidation of cell membrane lipids. These events are followed by myocardial cell alterations resulting eventually in cell necrosis. An enhanced formation of reactive oxygen species is widely accepted as a stimulus for tissue destruction and cardiac failure. 2. In this study, we have investigated the cardioprotective effects of M40403 in myocardial ischaemia-reperfusion injury. M40403 is a low molecular weight, synthetic manganese containing superoxide dismutase mimetic (SODm) that selectively removes superoxide anion. Ischaemia was induced in rat hearts in vivo by ligating the left anterior descending coronary artery. Thirty minutes after the induction of ischaemia, the ligature was removed and reperfusion allowed to occur for at least 60 min. M40403 (0.1-1 mg kg(-1)) was given intravenously 15 min before ischaemia. 3. The results obtained in this study showed that M40403 significantly reduced the extent of myocardial damage, mast cell degranulation and the incidence of ventricular arrhythmias. Furthermore, M40403 significantly attenuated, in a dose-dependent manner, neutrophil infiltration in the myocardium as well as the associated induction of lipid peroxidation. Calcium overload seen post-reperfusion of the ischaemic myocardium was also reduced by M40403. 4. Immunohistochemical analysis for nitrotyrosine revealed a positive staining in cardiac tissue taken after reperfusion: this was attenuated by M40403. Moreover reperfused cardiac tissue sections showed positive staining for P-selectin and for anti-intercellular adhesion molecule (ICAM-1) in the vascular endothelial cells. M40403 treatment markedly reduced the intensity and degree of P-selectin and ICAM-1 in these tissues. No staining for nitrotyrosine, P-selectin or ICAM-1 was found in cardiac tissue taken at the end of the ischaemic period. 5. Overall, M40403 treatment reduced the morphological signs of myocardial cell injury and significantly improved survival. 6. Taken together, these results clearly indicate that M40403 treatment exerts a protective effect against ischaemia-reperfusion-induced myocardial injury, supporting a key role for superoxide anion in reperfusion injuries. This suggests that synthetic enzymes of SOD such as M40403, offer a novel therapeutic approach for the treatment of ischaemic heart disease where superoxide anion plays a dominant role.
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PMID:Protective effects of M40403, a selective superoxide dismutase mimetic, in myocardial ischaemia and reperfusion injury in vivo. 1211 Jun 15

The exact mechanisms by which NO mediates its neuromodulatory effects within the central control of cardiovascular functions are still unclear. Both excitatory and inhibitory actions of NO in different regions of the brainstem have been reported, and that it could be caused by direct actions of NO on neurones and/or by NO-mediated changes in local cerebral blood flow. Microinjection studies suggest that direct modulation of neuronal activity by NO through cyclic 3'-5' guanosine monophosphate (cGMP)-dependent mechanisms predominates. In contrast, endogenous NO produces. only minor changes in local cerebral blood flow, and potentiation of NO-dependent vasodilation with an inhibitor of phosphodiesterase V (PDE5i) has no significant effect on sympathetic activity. Activation of the NO-system in the lower brain stem modulates various central and reflex-activated neuronal pathways. To a large extent, this appears to be mediated by NO-induced GABA- and glutamate-release within the ventrolateral medulla (VLM) and the nucleus of the solitary tract (NTS). In addition, NO has been shown to reduce local generation of angiotensin II (AII) in all areas. Recent studies suggest that the NO-mediated modulation of autonomic function is severely impaired in cardiovascular diseases. Possibly in conjunction with AII, which triggers and promotes superoxide radical generation, chronic oxidative stress (COS) could act as a key mediator of this process. Evidence supporting this hypothesis comes from studies on pigs that were chronically treated with organic nitrates to pharmacologically induce COS. In these animals, microinjection of superoxide dismutase into the rostral VLM (RVLM) diminished sympathetic activity by up to 70%, whereas peroxynitrite, a key mediator of NO-related oxidative stress, had excitotoxic effects. Antagonism of neuronal COS may therefore represent a novel approach to counteract neurohumoral activation in diseases such hypertension, obesity and heart failure.
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PMID:Mechanisms of action of nitric oxide in the brain stem: role of oxidative stress. 1214 34

The effect of angiotensin-converting enzyme (ACE) inhibition and endothelin A (ET ) receptor antagonism alone and in combination on endothelial vasomotor dysfunction in chronic heart failure (CHF) was compared. Vasoreactivity and superoxide anion formation were determined in aortic rings from Wistar rats with experimental CHF 12 weeks after extensive myocardial infarction compared with sham-operated animals. Rats were treated with placebo, with the ET receptor antagonist LU 135252 (30 mg/kg/d), with the ACE inhibitor trandolapril (0.3 mg/kg/d), or with a combination of LU 135252 and trandolapril. Infarct size was similar among the groups. In the placebo group, the concentration-response curve of the endothelium-dependent, acetylcholine-induced relaxation was significantly shifted to the right and the maximum relaxation was attenuated (R 53 +/- 3%) compared with the sham placebo group (R 72 +/- 3%). Treatment with LU 135252 as well as trandolapril significantly improved acetylcholine-induced maximum relaxation (LU 135252 66 +/- 4%, trandolapril 67 +/- 4%, p < 0.05 versus CHF placebo). In addition to R (LU 135252/trandolapril 70 +/- 4%), combination therapy also improved the pathologic rightward shift (p < 0.05). Increased O production in CHF was significantly reduced in all treatment groups. The increased relaxation elicited by exogenous superoxide dismutase in CHF was reduced to normal values by monotherapy and further attenuated by combination treatment. Although monotherapy with the ACE inhibitor trandolapril and the ET receptor antagonist LU 135252 improved endothelial dysfunction in experimental CHF, combination therapy was more effective.
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PMID:Angiotensin-converting enzyme inhibition and endothelin antagonism for endothelial dysfunction in heart failure: mono-or combination therapy. 1235 22

Angiotensin II (Ang II) has profound effects in the central nervous system (CNS), including promotion of thirst, regulation of vasopressin secretion, and modulation of sympathetic outflow. Despite its importance in cardiovascular and volume homeostasis, angiotensinergic mechanisms are incompletely understood in the CNS. Recently, a novel signaling mechanism for Ang II involving reactive oxygen species (ROS) has been identified in a variety of peripheral tissues, but the involvement of ROS as second messengers in Ang II-mediated signaling in the CNS has not been reported. The hypothesis that superoxide is a key mediator of the actions of Ang II in the CNS was tested in mice using adenoviral vector-mediated expression of superoxide dismutase (AdSOD). Changes in blood pressure, heart rate, and drinking elicited by injection of Ang II in the CNS were abolished by prior treatment with AdSOD in the brain, whereas the cardiovascular responses to carbachol, another central vasopressor agent, were unaffected. In addition, Ang II stimulated superoxide generation in primary CNS cell cultures, and this was prevented by the Ang II receptor (Ang II type 1 subtype) antagonist losartan or AdSOD. These results identify a novel signaling mechanism mediating the actions of Ang II in the CNS. Dysregulation of this signaling cascade may be important in hypertension and heart failure triggered by Ang II acting in the CNS.
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PMID:Superoxide mediates the actions of angiotensin II in the central nervous system. 1245 82

Reactive oxygen species (ROS) play a role in cardiovascular diseases such as heart failure and hypertension. Furthermore, increasing evidence has accumulated suggesting that ROS can also be formed subsequent to the stimulation of various receptors, thus functioning as second messengers. The objective of the present study was to elucidate the role of intracellular-generated ROS in the inotropic and chronotropic effects of the alpha1- and beta-adrenoceptor and the ET-receptor stimulation in isolated rat atria. In addition, we investigated whether the MAPKerk pathway is involved in the ROS-provoked rise of contractile force. For this purpose hydrogen peroxide was applied, which is known to serve several endogenous functions as a second messenger. Moreover, hydrogen peroxide readily crosses cell membranes, which thus allows to mimic the intracellular formation. Preincubation of atria with EUK 8 (400 microM), a cell permeable superoxide dismutase- and catalase-mimetic, reduced the positive inotropic effect upon alpha1-adrenoceptor and ET-receptor stimulation. The responsiveness to beta-adrenoceptor stimulation remained unaffected by this pretreatment. The chronotropic effects were not altered by preincubation with EUK 8. In contrast to the MAPK(p38) inhibitor SB203580 (2 and 10 microM), the two MKKmek inhibitors PD98059 (30 and 100 microM) and U0126 (10 microM) significantly attenuated the positive inotropic response to hydrogen peroxide in isolated rat left atria. In addition, inhibition of the Na+/H+ exchange (NHE) by cariporide (1 microM) counteracted ROS-provoked increase of contractile force. From the present study we conclude that the inotropic responses to alpha1-adrenoceptor and ET-receptor stimulation are, at least partially, caused by intracellular-formed ROS, that subsequently may activate the MAPKerk pathway and the NHE.
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PMID:The influence of endogenously generated reactive oxygen species on the inotropic and chronotropic effects of adrenoceptor and ET-receptor stimulation. 1273 26

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