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: EC:1.6.3.1 (NADPH oxidase)
11,281 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reduction of nitrite to nitric oxide during ischemia protects the heart against injury from ischemia/reperfusion. However the optimal dose of nitrite and the mechanisms underlying nitrite-induced cardioprotection are not known. We determined the ability of nitrite and nitrate to confer protection against myocardial infarction in two rat models of ischemia/reperfusion injury and the role of xanthine oxidoreductase, NADPH oxidase, nitric oxide synthase and K(ATP) channels in mediating nitrite-induced cardioprotection. In vivo and in vitro rat models of myocardial ischemia/reperfusion injury were used to cause infarction. Hearts (n=6/group) were treated with nitrite or nitrate for 15 min prior to 30 min regional ischemia and 180 min reperfusion. Xanthine oxidoreductase activity was measured after 15 min aerobic perfusion and 30 min ischemia. Nitrite reduced myocardial necrosis and decline in ventricular function following ischemia/reperfusion in the intact and isolated rat heart in a dose- or concentration-dependent manner with an optimal dose of 4 mg/kg in vivo and concentration of 10 microM in vitro. Nitrate had no effect on protection. Reduction in infarction by nitrite was abolished by the inhibition of flavoprotein reductases and the molybdenum site of xanthine oxidoreductase and was associated with an increase in activity of xanthine dehydrogenase and xanthine oxidase during ischemia. Inhibition of nitric oxide synthase had no effect on nitrite-induced cardioprotection. Inhibition of NADPH oxidase and K(ATP) channels abolished nitrite-induced cardioprotection. Nitrite but not nitrate protects against infarction by a mechanism involving xanthine oxidoreductase, NADPH oxidase and K(ATP) channels.
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PMID:Nitrite confers protection against myocardial infarction: role of xanthine oxidoreductase, NADPH oxidase and K(ATP) channels. 1776 19

Mineralocorticoid receptor blockade improves mortality early after myocardial infarction (MI). This study investigated the vascular effects of mineralocorticoid receptor blockade in the early phase postinfarction in rats. Starting immediately after coronary ligation, male Wistar rats were treated with placebo or eplerenone (100 mg/kg/d). After 7 days, hemodynamic assessment was performed and endothelial function was determined. Maximum acetylcholine-induced relaxation was significantly attenuated in aortic rings from rats with heart failure after MI, and ameliorated by eplerenone treatment. Endothelium-independent relaxation by DEA-NONOate was similar among the groups. Endothelial NO synthase phosphorylation was reduced in the aorta of MI rats and restored by eplerenone therapy. Angiotensin I-induced vasoconstriction as well as angiotensin-converting enzyme protein levels were enhanced in aortas from MI placebo rats, and reduced by mineralocorticoid receptor inhibition. Aortic reactive oxygen species formation as well as the expression of the NAD(P)H oxidase subunit p22(phox) were increased after MI and normalized in eplerenone treated rats. In conclusion, mineralocorticoid receptor antagonism improved endothelial dysfunction in the early phase post-MI. Underlying mechanisms involve inhibition of vascular angiotensin-converting enzyme upregulation and improvement of endothelial NO synthase-derived NO bioavailability.
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PMID:Mineralocorticoid receptor blockade improves vasomotor dysfunction and vascular oxidative stress early after myocardial infarction. 1787 16

Cardiac remodelling occurs in response to stress, such as chronic hypertension or myocardial infarction, and forms the substrate for subsequent development of heart failure. Key pathophysiological features include ventricular hypertrophy, interstitial fibrosis, contractile dysfunction, and chamber dilatation. Although the molecular mechanisms are complex and not fully defined, substantial evidence now implicates increased oxidative stress as being important. The NADPH oxidase ('Nox') enzymes are a particularly important source of reactive oxygen species that are implicated in redox signalling. This article reviews the evidence for an involvement of NADPH oxidases in different aspects of adverse cardiac remodelling. A better understanding of the roles of this complex enzyme family may define novel therapeutic targets for the prevention of heart failure.
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PMID:Involvement of NADPH oxidases in cardiac remodelling and heart failure. 1790 89

Obesity is an independent risk factor for cardiovascular diseases. As the first obese gene product identified, leptin participates in many physiological processes. Besides its well known effects on food intake and energy metabolism, leptin has been shown to regulate cardiovascular function, glucose and lipid metabolism. Although the precise role of leptin on cardiac health is still at large, the peptide may initiate both hypertrophic and anti-hypertrophic effects on hearts. Circulating leptin levels are believed to correlate closely with body mass index (BMI) and total amount of body fat, and predict change of heart morphology and function. This is evidenced by that fact that compromised cardiac function is present in both hyperleptinemic (db/db) and hypoleptinemic (ob/ob) mouse models. Leptin replenishment may reconcile depressed cardiac contractile function in ob/ob mice, indicating the permissive effect of leptin on cardiac function. Multiple signal pathways including NO, Jak/STAT, p38 MAP kinase, ET-1 and NADPH oxidase have been implicated to participate in the cardiac regulatory response of leptin. In addition, elevated plasma leptin levels are speculated to be an independent risk factor for cardiovascular diseases such as hypertension and myocardial infarction. The current dogma indicates that physiological range of leptin may be essential for normal cardiomyocyte structure and function whereas disrupted leptin signaling due to too much or too little leptin may trigger functional and morphological alterations leading to cardiac dysfunction.
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PMID:Fitness or fatness--the debate continues for the role of leptin in obesity-associated heart dysfunction. 1822 Jun 67

Conditions of stress, such as myocardial infarction, stimulate up-regulation of heme oxygenase (HO-1) to provide cardioprotection. Here, we show that CO, a product of heme catabolism by HO-1, directly inhibits native rat cardiomyocyte L-type Ca2+ currents and the recombinant alpha1C subunit of the human cardiac L-type Ca2+ channel. CO (applied via a recognized CO donor molecule or as the dissolved gas) caused reversible, voltage-independent channel inhibition, which was dependent on the presence of a spliced insert in the cytoplasmic C-terminal region of the channel. Sequential molecular dissection and point mutagenesis identified three key cysteine residues within the proximal 31 amino acids of the splice insert required for CO sensitivity. CO-mediated inhibition was independent of nitric oxide and protein kinase G but was prevented by antioxidants and the reducing agent, dithiothreitol. Inhibition of NADPH oxidase and xanthine oxidase did not affect the inhibitory actions of CO. Instead, inhibitors of complex III (but not complex I) of the mitochondrial electron transport chain and a mitochondrially targeted antioxidant (Mito Q) fully prevented the effects of CO. Our data indicate that the cardioprotective effects of HO-1 activity may be attributable to an inhibitory action of CO on cardiac L-type Ca2+ channels. Inhibition arises from the ability of CO to promote generation of reactive oxygen species from complex III of mitochondria. This in turn leads to redox modulation of any or all of three critical cysteine residues in the channel's cytoplasmic C-terminal tail, resulting in channel inhibition.
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PMID:Carbon monoxide inhibits L-type Ca2+ channels via redox modulation of key cysteine residues by mitochondrial reactive oxygen species. 1859 41

Myocardial infarction (MI) has been associated with increases in reactive oxygen species (ROS). Exercise training (ET) has been shown to exert positive modulations on vascular function and the purpose of the present study was to investigate the effect of moderate ET on the aortic superoxide production index, NAD(P)H oxidase activity, superoxide dismutase activity and vasomotor response in MI rats. Aerobic ET was performed during 11 weeks. Myocardial infarction significantly diminished maximal exercise capacity, and increased vasoconstrictory response to norepinephrine, which was related to the increased activity of NAD(P)H oxidase and basal superoxide production. On the other hand, ET normalized the superoxide production mostly due to decreased NAD(P)H oxidase activity, although a minor SOD effect may also be present. These adaptations were paralleled by normalization in the vasoconstrictory response to norepinephrine. Thus, diminished ROS production seems to be an important mechanism by which ET mediates its beneficial vascular effects in the MI condition.
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PMID:Moderate exercise training decreases aortic superoxide production in myocardial infarcted rats. 1876 68

Endothelial injury is thought to play a pivotal role in the development and progression of vascular diseases, such as atherosclerosis, hypertension or restenosis, as well as their complications, including myocardial infarction or stroke. Accumulating evidence suggests that bone marrow-derived endothelial progenitor cells (EPCs) promote endothelial repair and contribute to ischemia-induced neovascularization. Coronary artery disease and its risk factors, such as diabetes, hypercholesterolemia, hypertension and smoking, are associated with a reduced number and impaired functional activity of circulating EPCs. Moreover, initial data suggest that reduced EPC levels are associated with endothelial dysfunction and an increased risk of cardiovascular events, compatible with the concept that impaired EPC-mediated vascular repair promotes progression of vascular disease. In this review we summarize recent data on the effects of pharmacological agents on mobilization and functional activity of EPCs. In particular, several experimental and clinical studies have suggested that statins, angiotensin-converting enzyme inhibitors, angiotensin II type 1 receptor blockers, PPAR-gamma agonists and erythropoietin increase the number and functional activity of EPCs. The underlying mechanisms remain largely to be defined; however, they likely include activation of the PI3-kinase/Akt pathway and endothelial nitric oxide synthase, as well as inhibition of NAD(P)H oxidase activity of progenitor cells.
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PMID:Pharmacological approaches to improve endothelial repair mechanisms. 1879 10

The ubiquitous tripeptide glutathione (GSH) is an essential factor in many biological processes, thus its depletion has a major impact on cell function and survival. In this study, we examined regulation of GSH in cardiomyocytes under chronic oxidative stress elicited by myocardial infarction (MI). Cardiac dysfunction was induced in rats by coronary artery ligation, and experiments were conducted in myocytes isolated from non-infarcted left ventricle and septum after 6-8 weeks. Fluorescence microscopy studies using the probe monochlorobimane showed that [GSH] in myocytes from post-MI hearts was 42% less than in sham control hearts (P < 0.05). However, depleted GSH levels were normalized after 5-6 h by an insulin mimetic (bis-peroxovanadium-1,10-phenanthroline, bpV(phen); 10 micromol l(-1)) or by exogenous pyruvate (5 mmol l(-1)). The increase in [GSH] by bpV(phen) was partly inhibited by buthionine sulphoximine (BSO; 50 micromol l(-1)), a blocker of GSH synthesis, and by 1,3-bis-(2-chloroethyl)-1-nitrosourea (BCNU; 100 micromol l(-1)), an inhibitor of glutathione disulphide reductase. By comparison, the effect of pyruvate was not altered by BSO but was completely blocked by BCNU. Studies using inhibitors of signalling cascades indicated that upregulation of [GSH] by bpV(phen) in myocytes from post-MI hearts was mediated by mitogen activated protein kinase/extracellular signal-regulated kinase kinase 1/2 and p38 mitogen-activated protein kinase but not by phosphatidylinositol 3-kinase. The effect of pyruvate was not altered by any kinase inhibitor tested. In cells loaded with the probe TEMPO-9-AC to monitor superoxide anion, baseline fluorescence was 2.3-fold greater in post-MI myocytes than in sham control myocytes (P < 0.05) and was markedly decreased by diphenyleneiodonium (30 micromol l(-1)), an inhibitor of NADPH oxidase, exogenous GSH (10 mmol l(-1)) or bpV(phen). In parallel studies, [GSH] in post-MI myocytes was also normalized by diphenyleneiodonium or exogenous GSH. These data show that GSH is differentially regulated by receptor tyrosine kinase-dependent and -independent agonists that maintain functional GSH levels necessary to neutralize excess generation of reactive oxygen species in the failing heart.
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PMID:Glutathione homeostasis in ventricular myocytes from rat hearts with chronic myocardial infarction. 1939 62

Type 2 diabetes adversely affects the outcomes in patients with myocardial infarction (MI), which is associated with the development of left ventricular (LV) failure. NAD(P)H oxidase-derived superoxide (O(2)(-)) production is increased in type 2 diabetes. However, its pathophysiological significance in advanced post-MI LV failure associated with type 2 diabetes remains unestablished. We thus hypothesized that an inhibitor of NAD(P)H oxidase activation, apocynin, could attenuate the exacerbated LV failure after MI in high-fat diet (HFD)-induced obese mice with type 2 diabetes. Male C57BL/6J mice were fed on either HFD or normal diet (ND) for 8 wk. At 4 wk of feeding, MI was created in mice by ligating the left coronary artery. HFD-fed MI mice were treated with either 10 mmol/l apocynin or vehicle. HFD + MI had significantly greater LV end-diastolic diameter (LVEDD; 5.7 +/- 0.1 vs. 5.3 +/- 0.2 mm), end-diastolic pressure (12 +/- 2 vs. 8 +/- 1 mmHg), and lung weight/tibial length (10.1 +/- 0.3 vs. 8.7 +/- 0.7 mg/mm) than ND + MI, which was accompanied by an increased interstitial fibrosis of noninfarcted LV. Treatment of HFD + MI with apocynin significantly decreased LVEDD (5.4 +/- 0.1 mm), LV end-diastolic pressure (9.7 +/- 0.8 mmHg), lung weight/tibial length (9.0 +/- 0.3 mg/mm), and concomitantly interstitial fibrosis of noninfarcted LV to the ND + MI level without affecting body weight, glucose metabolism, and infarct size. NAD(P)H oxidase activity and O(2)(-) production were increased in noninfarcted LV tissues from HFD + MI, both of which were attenuated by apocynin to the ND + MI level. Type 2 diabetes was associated with the exacerbation of LV failure after MI via increasing NAD(P)H oxidase-derived O(2)(-), which may be a novel important therapeutic target in advanced heart failure with diabetes.
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PMID:Increased myocardial NAD(P)H oxidase-derived superoxide causes the exacerbation of postinfarct heart failure in type 2 diabetes. 1946 39

The purpose of this study was to determine whether reactive oxygen species (ROS) promote cardiac angiogenesis following myocardial infarction (MI) and contribute to cardiac repair. Rats with MI were treated with or without antioxidants, tempol and apocynin. Hearts of these rats were collected at days 2, 4, 7 and 14 post-MI. We examined the spatial and temporal relationship between oxidative stress and angiogenesis as well as the potential regulation of ROS in cardiac angiogenesis. We found: (i) following MI, gp91(phox), a subunit of NADPH oxidase, a key enzyme for ROS production, was significantly increased in the border zone at day 2, followed by the infarcted myocardium at day 4, peaked at day 7 and declined at day 14, while superoxide dismutase was significantly reduced; (ii) malondialdehyde, a marker of oxidative stress, was significantly increased in the infarcted myocardium at day 7; (iii) pre-existing blood vessels in the infarcted myocardium underwent necrosis post-MI, whereas newly formed vessels appeared at the border zone at day 4, and then extended into the infarcted myocardium, where microvascular density peaked at day 7 and (iv) antioxidant treatment significantly reduced microvascular density in the infarcted myocardium at day 7. These observations suggest that following MI, angiogenesis is mostly active in the infarcted myocardium in the first week, which is temporally and spatially coincident with enhanced ROS. Suppression of angiogenesis by antioxidants indicates that ROS promote angiogenesis in the infarcted myocardium and contribute to cardiac repair. Further studies are required to determine the mechanisms responsible for ROS-mediated cardiac angiogenesis.
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PMID:Reactive oxygen species promote angiogenesis in the infarcted rat heart. 1975 16


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