Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P47989 (xanthine oxidase)
 8,633 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Quinoid polycyclic aromatic hydrocarbons are potent redox-active compounds that undergo enzymatic and nonenzymatic redox cycling with their semiquinone radical. We previously reported that acenaphthenequinone (AcQ) can damage human lung epithelial A549 cells through the formation of reactive species (RS). However, the biochemical mechanisms by which RS-generating enzymes cause oxidative burst during AcQ exposure remain elusive. Here we examined the biochemical mechanism of AcQ-induced RS generation by using selective metabolic inhibitors in A549 cells. We found that AA861, a 5-lipoxygenase (5-LO)-specific inhibitor significantly decreases RS generation. This inhibition of RS seems to be 5-LO specific because other inhibitors did not suppress AcQ-induced RS generation by nicotinamide adenine nucleotide phosphate (reduced) oxidase and/or xanthine oxidase. In addition, the inhibition of 5-LO by AA861 markedly reduced AcQ-induced nuclear factor kappa B (NF-kappa B) activation. We further found the activation of 5-LO pathway by exposing cells to AcQ mediates the secretion of inflammatory leukotriene B4, which can be significantly suppressed by a potent RS scavenger, N-acetylcysteine. Thus, based on our findings, we propose that AcQ-induced damage is likely due to increased RS generation and NF-kappa B activity through 5-LO activation.
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PMID:Activation of 5-lipoxygenase and NF-kappa B in the action of acenaphthenequinone by modulation of oxidative stress. 1792 9

Acute leptin exposure stimulates endothelial nitric oxide (NO) production in vitro. In contrast, chronic elevations in circulating leptin levels in patients with obesity are associated with endothelial dysfunction and impaired endothelial NO production. Therefore, the goal of the current study was to examine the direct effects of acute and more sustained leptin stimulation on endothelial nitric oxide synthase (eNOS) and NO production in human aortic endothelial cells (HAECs). HAECs were treated with vehicle or with leptin (5 or 60 ng/mL) acutely (30-60 minutes) or for 72 hours. HAEC NO release into culture media was measured with a chemiluminescence technique, and superoxide (O(2)(-.)) production was measured with electron spin resonance (ESR) spectroscopy. HAEC eNOS activity was measured as the conversion of (3)H-arginine to (3)H-citrulline, and protein levels of eNOS, phospho-eNOS (serine 1177), Erk, phospho-Erk, suppressor of cytokine signaling (SOCS3), xanthine oxidase (XO), and the reduced nicotinamide adenine dinucleotide (NADPH) oxidase components p22phox, p67phox, Nox-4, and gp91phox were examined by Western blotting or immunoprecipitation. Acute leptin exposure increased eNOS serine 1177 phosphorylation and caused Erk activation. In contrast, prolonged leptin stimulation was not cytotoxic and failed to alter eNOS expression, phosphorylation, or HAEC NO release. Furthermore, prolonged leptin stimulation did not alter O(2)(-.) production or NADPH oxidase or XO expression but increased SOCS3 expression. In contrast to acute stimulation, prolonged (72 hours) stimulation does not alter endothelial cell NO or O(2)(-.) production. We postulate that chronic leptin stimulation, through increased SOCS3 expression, may attenuate the effects of leptin on vascular endothelial function.
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PMID:Attenuation of signaling and nitric oxide production following prolonged leptin exposure in human aortic endothelial cells. 1806 98

This review focuses on the morphological features of atherosclerosis and the involvement of oxidative stress in the initiation and progression of this disease. There is now consensus that atherosclerosis represents a state of heightened oxidative stress characterized by lipid and protein in the vascular wall. Reactive oxygen species (ROS) are key mediators of signaling pathways that underlie vascular inflammation in atherogenesis, starting from the initiation of fatty streak development, through lesion progression, to ultimate plaque rupture. Plaque rupture and thrombosis result in the acute clinical complications of myocardial infarction and stroke. Many data support the notion that ROS released from nicotinamide adenine dinucleotide phosphate (NADPH) oxidase, myeloperoxidase (MPO), xanthine oxidase (XO), lipoxygenase (LO), nitric oxide synthase (NOS) and enhanced ROS production from dysfunctional mitochondrial respiratory chain, indeed, have a causatory role in atherosclerosis and other vascular diseases. Moreover, oxidative modifications in the arterial wall can contribute to the arteriosclerosis when the balance between oxidants and antioxidants shifts in favour of the former. Therefore, it is important to consider sources of oxidants in the context of available antioxidants such as superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx), glutathione reductase and transferases thiol-disulfide oxidoreductases and peroxiredoxins. Here, we review also the mechanisms in which they are involved in order to accelerate the pace of the discovery and facilitate development of novel therapeutic approaches.
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PMID:Atherosclerosis and oxidative stress. 1807 94

A large body of literature suggest that vascular reduced nicotinamide-adenine dinucleotide phosphate (NADPH) oxidases are important sources of reactive oxygen species. Many studies, however, relied on data obtained with the inhibitor apocynin (4'-hydroxy-3'methoxyacetophenone). Because the mode of action of apocynin, however, is elusive, we determined its mechanism of inhibition on vascular NADPH oxidases. In HEK293 cells overexpressing NADPH oxidase isoforms (Nox1, Nox2, or Nox4), apocynin failed to inhibit superoxide anion generation detected by lucigenin chemiluminescence. In contrast, apocynin interfered with the detection of reactive oxygen species in assay systems selective for hydrogen peroxide or hydroxyl radicals. Importantly, apocynin interfered directly with the detection of peroxides but not superoxide, if generated by xanthine/xanthine oxidase or nonenzymatic systems. In leukocytes, apocynin is a prodrug that is activated by myeloperoxidase, a process that results in the formation of apocynin dimers. Endothelial cells and smooth muscle cells failed to form these dimers and, therefore, are not able to activate apocynin. Dimer formation was, however, observed in Nox-overexpressing HEK293 cells when myeloperoxidase was supplemented. As a consequence, apocynin should only inhibit NADPH oxidase in leukocytes, whereas in vascular cells, the compound could act as an antioxidant. Indeed, in vascular smooth muscle cells, the activation of the redox-sensitive kinases p38-mitogen-activate protein kinase, Akt, and extracellular signal-regulated kinase 1/2 by hydrogen peroxide and by the intracellular radical generator menadione was prevented in the presence of apocynin. These observations indicate that apocynin predominantly acts as an antioxidant in endothelial cells and vascular smooth muscle cells and should not be used as an NADPH oxidase inhibitor in vascular systems.
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PMID:Apocynin is not an inhibitor of vascular NADPH oxidases but an antioxidant. 1808 48

Exercise-induced proteinuria is a common consequence of physical activity and is caused predominantly by alterations in renal hemodynamics. Although it has been shown that exercise-induced oxidative stress can also contribute to the occurrence of postexercise proteinuria, the sources of reactive oxygen species that promote it are unknown. We investigated the enzymes nicotinamide adenine dinucleotide phosphate (NADPH) oxidase and xanthine oxidase (XO) as possible sources of oxidative stress in postexercise proteinuria. First, we evaluated the effect of blocking the NADPH oxidase enzyme on postexercise proteinuria. We found a significant increase in urinary protein level, kidney thiobarbituric acid-reactive substances (TBARS), and protein carbonyl content after exhaustive exercise, and NADPH oxidase activity was induced by exercise. Rats that were treated with an NADPH oxidase inhibitor for 4 days before exhaustive exercise showed no increase in kidney TBARS or protein carbonyl derivative level and no proteinuria or NADPH oxidase activation. In the next set of experiments, we investigated the effect of XO blockage on postexercise proteinuria. Oxypurinol, an XO inhibitor was administered to rats for 3 days before exercise. Although XO inhibition significantly decreased kidney TBARS levels and protein carbonyl content in exercised rats, the inhibition did not prevent exercise-induced proteinuria. However, plasma and kidney XO activity was not induced by exercise, but rather it was suppressed under oxypurinol treatment. These results suggest that increased NADPH oxidase activity induced by exhaustive exercise is an important source of elevated oxidative, stress during exercise, which contributes to the occurrence of postexercise proteinuria.
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PMID:Potential sources of oxidative stress that induce postexercise proteinuria in rats. 1825 3

It has been shown that the intrinsic mitochondrial apoptotic cascade is activated in vascular hyperpermeability after conditions such as hemorrhagic shock. Studies from our laboratory demonstrated mitochondrial reactive oxygen species (ROS) formation in endothelial cells during vascular hyperpermeability. We hypothesized that the participation of mitochondrial ROS in the intrinsic apoptotic cascade results in microvascular endothelial cell hyperpermeability. The purpose of this study was to identify the site(s) of ROS formation in the mitochondrial complex(es) that leads to hyperpermeability. Rat lung microvascular endothelial cell monolayers were pretreated with inhibitors of the complex(es) (I-V) before the activation of the mitochondrial apoptotic cascade using the proapoptotic peptide BAK (BH3). Inhibitors of the xanthine oxidase, nicotinamide adenine dinucleotide phosphate (reduced form) oxidase, NOS, and cytochrome P-450 monooxygenase were also studied. The hyperpermeability was determined by the fluorescence of fluorescein isothiocyanate-albumin that leaked across endothelial cells and ROS production by 2',7& rime;-dichlorofluorescein diacetate. Cytochrome c levels were also measured. BAK (BH3)-transfected cells showed increased ROS, cytosolic cytochrome c, and hyperpermeability (P<0.05). Complex III inhibitors antimycin A (10 microM) and stigmatellin (10 microM) attenuated BAK (BH3)-mediated ROS formation and hyperpermeability (P<0.05). The complex III inhibition decreased BAK (BH3)-mediated cytochrome c release. The results suggest that mitochondrial ROS formation, particularly at respiratory chain complex III, is involved in BAK-induced monolayer hyperpermeability.
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PMID:Mitochondrial complex III is involved in proapoptotic BAK-induced microvascular endothelial cell hyperpermeability. 1841 38

MC3T3-E1 osteoblast-like cells represent a suitable model for studying osteogenic development in vitro. The current investigation extends our previous work on the response of these cells to hydrogen peroxide by considering the effects of reactive oxygen species from other sources, and by determining whether differentiation alters sensitivity to oxidative damage. Aspects of hydrogen peroxide-mediated apoptotic and necrotic death were also examined. Cell viability was determined using the Alamar Blue assay; and accompanying morphological changes monitored by phase-contrast microscopy. Sensitivity to hydrogen peroxide increased significantly in cultures which had been induced to differentiate. Hydrogen peroxide and copper (II) ions, when combined, produced greater damage than hydrogen peroxide alone, whilst the hydroxyl radical scavengers mannitol or dimethylsulphoxide had no effect. Cyclosporin A and nicotinamide afforded partial protection. The tryptophan metabolite, 3-hydroxykynurenine significantly reduced viability, although 3-hydroxyanthranilic acid did not. The xanthine/xanthine oxidase system also reduced cell viability, an effect prevented by catalase but potentiated by superoxide dismutase. S-nitroso-N-acetylpenicillamine did not impair viability at the concentrations tested. Cultures were resistant to mitochondrial poisoning by potassium cyanide, but succumbed to 24-h exposures to 3-nitropropionic acid (1 mM). The results reveal a differential sensitivity of MC3T3-E1 cells to hydrogen peroxide-induced oxidative stress, an enhancement of sensitivity by cellular differentiation, and a potential preference for the glycolytic pathway by MC3T3-E1 cells. This study gives new insight into how bone cells may succumb to the toxic effects of oxidative stress generated by different stimuli and has relevance to conditions such as osteoporosis.
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PMID:Responses of differentiated MC3T3-E1 osteoblast-like cells to reactive oxygen species. 1844 93

Hypertension and high serum cholesterol level are important risk factors for atherosclerosis and coronary heart disease. In the present study we tested the hypothesis whether high sodium intake, when given in combination with Western type high-fat diet, induces endothelial dysfunction and promotes atherosclerosis. Furthermore, the role and enzyme sources of increased oxidative stress were examined. Low-density lipoprotein receptor-deficient mice (LDLR(-/-)) and control C57Bl/6 mice received either high-fat, normal-sodium diet (fat 18% and cholesterol 0.5%; NaCl 0.7%; w/w) or high-fat, high-sodium diet (7% NaCl w/w) for 12 weeks. Superoxide formation was assessed by lucigenin enhanced chemiluminescence, endothelial functions were examined ex vivo, and atherosclerotic lesions from the aorta were assessed by light microscopy. High-fat, high-sodium diet increased systolic blood pressure in LDLR(-/-) mice but not in C57Bl/6 mice, whereas it induced cardiac hypertrophy in both mouse strains. Dietary combination of fat and sodium induced endothelial dysfunction in LDLR(-/-) mice. Preincubation with a superoxide scavenger Tiron normalized endothelial dysfunction, whereas the hydrogen peroxide scavenger catalase did not alter endothelial function. High sodium intake induced superoxide formation in LDLR(-/-) mice on high-fat diet. Stimulation of muscarinic receptors in the endothelial cells by acetylcholine increased superoxide generation, whereas preincubation with the nitric oxide synthase (NOS) inhibitor L-arginine methyl ester or endothelium removal reduced superoxide production. Inhibition of nicotinamide adenine dinucleotide phosphate (NADPH)-oxidase by apocynin decreased vascular superoxide formation whereas the xanthine oxidase inhibitor oxypurinol did not significantly affect oxidative stress in LDLR(-/-) mice. In conclusion, the detrimental effects of dietary sodium on endothelial function and progression of atherosclerosis in LDLR(-/-) mice on high-fat diet are mediated by increased ROS formation mainly through uncoupled NOS and NADPH oxidase. The present study also underscores the importance of superoxide and endothelial NOS uncoupling in the pathogenesis of endothelial dysfunction.
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PMID:Effects of dietary sodium on reactive oxygen species formation and endothelial dysfunction in low-density lipoprotein receptor-deficient mice on high-fat diet. 1903 90

Reactive oxygen species (ROS) are products of normal cellular metabolism and are known to act as second messengers. Under physiological conditions, ROS participate in maintenance of cellular 'redox homeostasis' in order to protect cells against oxidative stress through various redox-regulatory mechanisms. Overproduction of ROS, most frequently due to excessive stimulation of either reduced nicotinamide adenine dinucleotide phosphate by cytokines or the mitochondrial electron transport chain and xanthine oxidase, results in oxidative stress. Oxidative stress is a deleterious process that leads to lung damage and consequently to various disease states. Knowledge of the mechanisms of ROS regulation could lead to the pharmacological manipulation of antioxidants in lung inflammation and injury.
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PMID:Impact of oxidative stress on lung diseases. 1914 46

The oxidation of xanthine by xanthine oxidase (XO) or xanthine dehydrogenase represents an important source of reactive oxygen species (ROS), which contribute to the damaging consequences of cerebral ischemia, inflammation, and neurodegenerative disorders. However, both enzymes are also able to act on reduced nicotinamide adenine dinucleotide (NADH). The FAD binding site to which NADH binds is distinct from that of the xanthine binding site. We report that the combination of xanthine oxidase and NADH is toxic to cultures of cerebellar granule neurons. Protection by superoxide dismutase (Cu,Zn-SOD or Mn-SOD) or catalase indicates mediation of the toxicity by superoxide and hydrogen peroxide. In addition, pre-incubating XO with EDTA at concentrations as low as 2 microM, prevented the toxicity, indicating that a metal contaminating XO is involved in producing the toxic effects of XO/NADH. It is possible that such a metal might play a role in the toxicity of XO in vivo.
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PMID:Xanthine oxidase-induced neuronal death via the oxidation of NADH: prevention by micromolar EDTA. 1945 May 65


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