Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Accumulating evidence suggests a critical role of increased reactive oxygen species production for left ventricular (LV) remodeling and dysfunction after myocardial infarction (MI). An increased myocardial activity of the NAD(P)H oxidase, a major oxidant enzyme system, has been observed in human heart failure; however, the role of the NAD(P)H oxidase for LV remodeling and dysfunction after MI remains to be determined. MI was induced in wild-type (WT) mice (n=46) and mice lacking the cytosolic NAD(P)H oxidase component p47(phox) (p47(phox)-/- mice) (n=32). Infarct size was similar among the groups. NAD(P)H oxidase activity was markedly increased in remote LV myocardium of WT mice after MI as compared with sham-operated mice (83+/-8 versus 16.7+/-3.5 nmol of O(2)(-) x microg(-1) x min(-1); P<0.01) but not in p47(phox)-/- mice after MI (13.5+/-3.6 versus 15.5+/-3.5 nmol of O(2)(-) x microg(-1) x min(-1)), as assessed by electron-spin resonance spectroscopy using the spin probe CP-H. Furthermore, increased myocardial xanthine oxidase activity was observed in WT, but not in p47(phox)-/- mice after MI, suggesting NAD(P)H oxidase-dependent xanthine oxidase activation. Myocardial reactive oxygen species production was increased in WT mice, but not in p47(phox)-/- mice, after MI. LV cavity dilatation and dysfunction 4 weeks after MI were markedly attenuated in p47(phox)-/- mice as compared with WT mice, as assessed by echocardiography (LV end-diastolic diameter: 4.5+/-0.2 versus 6.3+/-0.3 mm, P<0.01; LV ejection fraction, 35.8+/-2.5 versus 22.6+/-4.4%, P<0.05). Furthermore, cardiomyocyte hypertrophy, apoptosis, and interstitial fibrosis were substantially reduced in p47(phox)-/- mice as compared with WT mice. Importantly, the survival rate was markedly higher in p47(phox)-/- mice as compared with WT mice after MI (72% versus 48%; P<0.05). These results suggest a pivotal role of NAD(P)H oxidase activation and its subunit p47(phox) for LV remodeling/dysfunction and survival after MI. The NAD(P)H oxidase system represents therefore a potential novel therapeutic target to prevent cardiac failure after MI.
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PMID:Critical role of the NAD(P)H oxidase subunit p47phox for left ventricular remodeling/dysfunction and survival after myocardial infarction. 1733 31

Adverse cardiac remodeling is a fundamental process in the progression to chronic heart failure. Although the mechanisms underlying cardiac remodeling are multi-factorial, a significant body of evidence points to the crucial roles of increased reactive oxygen species. This article reviews recent advances in delineating the different sources of production for reactive oxygen species (namely mitochondria, xanthine oxidase, uncoupled nitric oxide synthases, and NADPH oxidases) that may be involved in cardiac remodeling and the aspects of the remodeling process that they affect. These data could suggest new ways of targeting redox pathways for the prevention and treatment of adverse cardiac remodeling.
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PMID:Role of reactive oxygen species in myocardial remodeling. 1738 82

The role of angiotensin II and reactive oxygen species in the exacerbation of diastolic heart failure is unknown. We examined the therapeutic effect of angiotensin blockade on hypertensive diastolic heart failure, focusing on the role of xanthine oxidoreductase and reduced nicotinamide-adenine dinucleotide phosphate oxidase, major enzymes producing reactive oxygen species. Dahl salt-sensitive hypertensive rats (DS rats) with established diastolic heart failure were given vehicle, candesartan (an angiotensin II receptor subtype 1 receptor blocker), oxypurinol (a xanthine oxidoreductase inhibitor), apocynin (a reduced nicotinamide-adenine dinucleotide phosphate oxidase inhibitor), or hydralazine (a vasodilator), and their therapeutic effects on diastolic heart failure were compared. Candesartan treatment of DS rats with established diastolic heart failure reversed cardiac remodeling, improved cardiac relaxation abnormality, and prolonged survival, being accompanied by the attenuation of the increase in cardiac superoxide, reduced nicotinamide-adenine dinucleotide phosphate oxidase, and xanthine oxidoreductase activities. Thus, the beneficial effect of candesartan in DS rats appears to be mediated by the inhibition of cardiac reactive oxygen species. Cardiac xanthine oxidoreductase inhibition with oxypurinol significantly reduced cardiac superoxide, prevented the progression of cardiac remodeling, and delayed the mortality in DS rats. Apocynin, which significantly inhibited cardiac reduced nicotinamide-adenine dinucleotide phosphate oxidase activity, prevented the exacerbation of diastolic heart failure more than hydralazine. However, compared with candesartan or oxypurinol, apocynin did not improve cardiac reactive oxygen species, remodeling, and function in DS rats. In conclusion, candesartan slowed the exacerbation of hypertensive diastolic heart failure in DS rats by causing reverse cardiac remodeling. Cardiac xanthine oxidoreductase contributed to these beneficial effects of candesartan.
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PMID:Role of xanthine oxidoreductase in the reversal of diastolic heart failure by candesartan in the salt-sensitive hypertensive rat. 1770 54

This study assessed the role of xanthine oxidase in vascular ageing. A positive correlation between xanthine oxidase activity and age was found in human plasma. Similar results were found in rat plasma. Xanthine oxidase expression and activity in homogenates from the aortic wall were significantly higher in samples from old rats than in their young counterparts (p < 0.01). In rat skeletal muscle homogenates both xanthine oxidase expression and activity showed a similar age-related profile. Superoxide production by xanthine oxidase in aortic rings was higher in aged rats. Uric acid, the final product of xanthine oxidase has been proposed as a risk factor for coronary heart disease and an independent marker of worse prognosis in patients with moderate-to-severe chronic heart failure. These results give a possible explanation for this correlation and underscore the role of xanthine oxidase in ageing.
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PMID:Age-related increase in xanthine oxidase activity in human plasma and rat tissues. 1790 99

In addition to its critical role in purine metabolism, xanthine oxidoreductase (XOR) has been implicated in the development of tissue oxidative damage in a wide variety of respiratory and cardiovascular disorders such as acute lung injury, ischemia-reperfusion injury, atherosclerosis, heart failure, and arterial hypertension. Although much remains to be clarified about the regulation and signaling pathways of this enzyme, it is quite evident from abundant investigation in animal models and some human trials that XOR inhibition can favorably alter critical disease processes and impact outcomes. From promising bench-to-bedside data, a better understanding of this enigmatic enzyme is emerging. However, the positive findings related to XOR inhibition need to be confirmed in large-scale, well-designed clinical trials. This will hopefully provide new opportunities for therapeutic intervention. This article reviews the available evidence involving XOR in oxidative states with specific emphasis on respiratory and cardiovascular diseases.
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PMID:Xanthine oxidoreductase in respiratory and cardiovascular disorders. 1834 15

Endothelial dysfunction (ED) in the setting of cardiovascular risk factors such as hypercholesterolemia, hypertension, diabetes mellitus, chronic smoking as well as in patients with heart failure has been shown to be at least in part dependent on the production of reactive oxygen species (ROS) such as superoxide and the subsequent decrease in vascular bioavailability of nitric oxide (NO). Methods to quantify endothelial dysfunction include forearm plethysmography, flow-dependent dilation of the brachial artery, finger-pulse plethysmography, pulse curve analysis, and quantitative coronary angiography after intracoronary administration of the endothelium-dependent vasodilator acetylcholine. Superoxide sources include the NADPH oxidase, xanthine oxidase, and mitochondria. Superoxide produced by the NADPH oxidase may react with NO released by the endothelial nitric oxide synthase (eNOS) thereby generating peroxynitrite (ONOO-), leading to eNOS uncoupling and therefore eNOS-mediated superoxide production. The present review will discuss current concepts of how to assess endothelial function, prognostic implications of ED, mechanisms underlying ED with focus on oxidative stress and circulating biomarkers, which have been proposed to indicate endothelial dysfunction and/or damage, respectively.
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PMID:Pathophysiology, diagnosis and prognostic implications of endothelial dysfunction. 1838 84

Many studies have shown a strong correlation between urate levels and cardiovascular disease. The formation of urate is complex as the same enzyme that produces urate, xanthine oxidase (XO) also catalyzes the formation of reactive oxygen species (ROS). There is some evidence that the urate molecule has free radical scavenging properties in vitro and acute infusions of urate improve endothelial function in at-risk populations. High levels of ROS are clearly linked to worse outcome in a variety of conditions. Allopurinol has been the archetypal XO inhibitor for over 40 years. Small studies have demonstrated its beneficial effects, mainly in heart failure but also in a variety of other cohorts of patients with cardiovascular risk. It is a safe agent, provided suitable patients are chosen and monitored carefully. Newer promising agents like oxypurinol have not shown the expected benefits in larger multicentered studies. This review looks at the biology of urate, its role in cardiovascular disease, the possible mechanisms by which XO inhibitors exert their beneficial effect on endothelial dysfunction, and examines the possible causes for the failure of newer agents to live up to expectations.
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PMID:The role of urate and xanthine oxidase inhibitors in cardiovascular disease. 1846 21

The cross talk between reactive oxygen species (ROS) and reactive nitrogen species (RNS) plays a pivotal role in the regulation of myocardial and vascular function. Both nitric oxide and redox-based signaling involve the posttranslational modification of proteins through S-nitrosylation and oxidation of specific cysteine residues. Disruption of this cross talk between ROS and RNS contributes to the pathogenesis of heart failure. Therefore, the elucidation of these complex chemical interactions may improve our understanding of cardiovascular pathophysiology. This chapter discusses the significant role of spatial confinement of nitric oxide synthases, NADPH oxidase, and xanthine oxidoreductase in the regulation of myocardial excitation-contraction coupling. This chapter describes techniques for assessing oxidative and nitrosative stress. A variety of assays have been developed that quantify S-nitrosylated proteins. Among them, the biotin-switch method directly evaluates endogenously nitrosylated proteins in a reproducible way. Identification of the biotinylated or S-nitrosylated proteins subjected to the biotin-switch assay are described and evaluated with a one-dimensional gel (Western blot) or with the newly developed two-dimensional fluorescence difference gel electrophoresis proteomic analysis. Quantifying the number of free thiols with the monobromobimane assay in a protein of interest allows estimation of cysteine oxidation and, in turn, the state of nitroso-redox balance of effector molecules. In summary, this chapter reviews the biochemical methods that assess the impact of nitroso/redox signaling in the cardiovascular system.
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PMID:Nitric oxide and cardiobiology-methods for intact hearts and isolated myocytes. 1855 46

The purine analog xanthine oxidase (XO) inhibitors (XOIs), allopurinol and oxypurinol, have been reported to protect against heart failure secondary to myocardial infarction or rapid ventricular pacing. Because these agents might influence other aspects of purine metabolism that could influence their effect, this study examined the effect of the non-purine XOI, febuxostat, on pressure overload-induced left ventricular (LV) hypertrophy and dysfunction. Transverse aortic constriction (TAC) in mice caused LV hypertrophy and dysfunction and increased myocardial nitrotyrosine at 8 days. TAC also caused increased phosphorylated Akt (p-Akt(Ser473)), p42/44 extracellular signal-regulated kinase (p-Erk(Thr202/Tyr204)), and mammalian target of rapamycin (mTOR) (p-mTOR(Ser2488)). XO inhibition with febuxostat (5 mg/kg/d by gavage for 8 days) beginning approximately 60minutes after TAC attenuated the TAC-induced LV hypertrophy and dysfunction. Febuxostat blunted the TAC-induced increases in nitrotyrosine (indicating reduced myocardial oxidative stress), p-Erk(Thr202/Tyr204), and p-mTOR(Ser2488), with no effect on total Erk or total mTOR. Febuxostat had no effect on myocardial p-Akt(Ser473) or total Akt. The results suggest that XO inhibition with febuxostat reduced oxidative stress in the pressure overloaded LV, thereby diminishing the activation of pathways that result in pathologic hypertrophy and contractile dysfunction.
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PMID:Xanthine oxidase inhibition with febuxostat attenuates systolic overload-induced left ventricular hypertrophy and dysfunction in mice. 1899 79

An R120G mutation in alphaB-crystallin (CryAB(R120G)) causes desmin-related myopathy (DRM). In mice with cardiomyocyte-specific expression of the mutation, CryAB(R120G)-mediated DRM is characterized by CryAB and desmin accumulations within cardiac muscle, mitochondrial deficiencies, activation of apoptosis, and heart failure (HF). Excessive production of reactive oxygen species (ROS) is often a hallmark of HF and treatment with antioxidants can sometimes prevent the progression of HF in terms of contractile dysfunction and cardiomyocyte survival. It is unknown whether blockade of ROS is beneficial for protein misfolding diseases such as DRM. We addressed this question by blocking the activity of xanthine oxidase (XO), a superoxide-generating enzyme that is upregulated in our model of DRM. The XO inhibitor oxypurinol was administered to CryAB(R120G) mice for a period of 1 or 3 months. Mitochondrial function was dramatically improved in treated animals in terms of complex I activity and conservation of mitochondrial membrane potential. Oxypurinol also largely restored normal mitochondrial morphology. Surprisingly, however, cardiac contractile function and cardiac compliance were unimproved, indicating that the contractile deficit might be independent of mitochondrial dysfunction and the initiation of apoptosis. Using magnetic bead microrheology at the single cardiomyocyte level, we demonstrated that sarcomeric disarray and accumulation of the physical aggregates resulted in significant changes in the cytoskeletal mechanical properties in the CryAB(R120G) cardiomyocytes. Our findings indicate that oxypurinol treatment largely prevented mitochondrial deficiency in DRM but that contractility was not improved because of mechanical deficits in passive cytoskeletal stiffness.
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PMID:Biochemical and mechanical dysfunction in a mouse model of desmin-related myopathy. 1929 43


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