UNIPROT:P47989 - FACTA Search

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Query: UNIPROT:P47989 (xanthine oxidase)
8,633 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Enhanced formation of nitric oxide (NO) by both the constitutive and the inducible isoforms of NO synthase (NOS) has been implicated in the pathophysiology of a variety of diseases, including circulatory shock. Non-isoform-selective inhibition of NO formation, however, may lead to side effects by inhibiting the constitutive isoform of NOS and, thus, the various physiological actions of NO. S-Methylisothiourea sulfate (SMT) is at least 10- to 30-fold more potent as an inhibitor of inducible NOS (iNOS) in immunostimulated cultured macrophages (EC50, 6 microM) and vascular smooth muscle cells (EC50, 2 microM) than NG-methyl-L-arginine (MeArg) or any other NOS inhibitor yet known. The effect of SMT on iNOS activity can be reversed by excess L-arginine in a concentration-dependent manner. SMT (up to 1 mM) does not inhibit the activity of xanthine oxidase, diaphorase, lactate dehydrogenase, monoamine oxidase, catalase, cytochrome P450, or superoxide dismutase. SMT is equipotent with MeArg in inhibiting the endothelial, constitutive isoform of NOS in vitro and causes increases in blood pressure similar to those produced by MeArg in normal rats. SMT, however, dose-dependently reverses (0.01-3 mg/kg) the hypotension and the vascular hyporeactivity to vasoconstrictor agents caused by endotoxin [bacterial lipopolysaccharide (LPS), 10 mg/kg, i.v.] in anesthetized rats. Moreover, therapeutic administration of SMT (5 mg/kg, i.p., given 2 hr after LPS, 10 mg/kg, i.p.) attenuates the rises in plasma alanine and aspartate aminotransferases, bilirubin, and creatinine and also prevents hypocalcaemia when measured 6 hr after administration of LPS. SMT (1 mg/kg, i.p.) improves 24-hr survival of mice treated with a high dose of LPS (60 mg/kg, i.p.). Thus, SMT is a potent and selective inhibitor of iNOS and exerts beneficial effects in rodent models of septic shock. SMT, therefore, may have considerable value in the therapy of circulatory shock of various etiologies and other pathophysiological conditions associated with induction of iNOS.
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PMID:Beneficial effects and improved survival in rodent models of septic shock with S-methylisothiourea sulfate, a potent and selective inhibitor of inducible nitric oxide synthase. 752 23

Regulation of induced nitric oxide synthase in rat hepatocyte primary cultures was explored. Nitric oxide synthase (NOS) induction by tumor necrosis factor-alpha (TNF alpha) is synergized by interferon-gamma, and both NOS activity and gene expression are maximal by 10 h and maintained through 24 h. Glutathione depletion by diethylmaleate, which conjugates reduced glutathione, 1,3-bis(chloroethyl)-1-nitrosourea (BCNU), a glutathione reductase inhibitor, or buthionine sulfoxamine, a glutathione synthesis inhibitor, abolishes or reduces NOS induction in TNF alpha-treated hepatocytes, whereas N-acetylcysteine has little effect. Thus, reduced glutathione is critical to NOS mRNA induction and activity in TNF alpha-treated hepatocytes. NOS induction in TNF alpha-treated cells is reduced by rotenone, a mitochondrial complex 1 inhibitor. Concurrent treatment with TNF alpha and the antioxidant, Trolox, or the iron-chelating agent, desferrioxamine, also reduces NOS activity. Dithiothreitol, a thiol antioxidant, reduced TNF alpha induction of NOS. Trolox and BCNU, combined, blocked TNF alpha stimulation of NOS greater than either agent alone. These results suggest that TNF alpha increases mitochondrial production of reactive oxygen intermediates (ROI), which contributes to NOS induction. Hepatocytes exposed to extracellular ROI generation through a xanthine/xanthine oxidase superoxide-generating system expressed increased NOS activity and mRNA levels. NOS induction by superoxide also requires reduced glutathione since diethylmaleate blocks induction by xanthine/xanthine oxidase while N-acetylcysteine elevates NOS expression. Thus, the generation of ROI by cytokines or other physiological processes stimulates the induction of NOS and this process is regulated by cellular levels of reduced glutathione.
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PMID:Regulation of hepatic nitric oxide synthase by reactive oxygen intermediates and glutathione. 753 84

The direct neurotoxic action of the beta-amyloid protein, the major constituent of senile plaques, may represent the underlying cause of neuronal degeneration observed in Alzheimer's disease. The apoptotic-mediated neuronal death induced by beta-amyloid appears to reside in its ability to form Ca(2+)-permeable pores in neuronal membranes resulting in an excessive influx of Ca2+ and the induction of neurotoxic cascades. It is possible that during beta-amyloid exposure a Ca(2+)-mediated increase in free radical generation may exceed the defensive capacity of cells and thus lead to cell death. Consequently, in the present study we have investigated the effect of a panoply of antioxidants and inhibitors of free radical formation on the development of beta-amyloid neurotoxicity. Acute exposure of rat hippocampal neurons to "aged" beta-amyloid25-35 peptide (5-50 microM) induced a slow, concentration-dependent apoptotic neurotoxicity (25-85%) during a 6 day exposure. Co-incubation of cultures with beta-amyloid25-35 peptide (25 microM) and inhibitors of nitric oxide synthase and/or xanthine oxidase (NG-monomethyl-L-arginine [1 mM), N omega-nitro-L-arginine [1 mM], oxypurinol [100 microM], allopurinol [100 microM]), important mediators of nitric oxide, superoxide, and hydroxyl radical formation, did not attenuate beta-amyloid neurotoxicity. Similarly, a reduction in free radical generation by selective inhibition of phospholipase-A2 cyclooxygenase, and lipoxygenase activities with quinacrine (0.5 microM), indomethacin (50 microM), and nor-dihydroguaiaretic acid (0.5 microM), respectively, did not reduce the proclivity of beta-amyloid to induce cell death. Exposure of cultures to catalase (25 U/ml) and/or superoxide dismutase (10 U/ml) as well as the free radical scavengers vitamin E (100 microM), vitamin C (100 microM), glutathione (100 microM), L-cysteine (100 microM), N-acetyl-cysteine (100 microM), deferoxamine (5 microM), or haemoglobin (35 micrograms/ml) failed to attenuate the neurotoxic action of beta-amyloid. On the other hand, pre-treatment of cultures with subtoxic concentrations of beta-amyloid peptide significantly increased the vulnerability of neurons to H2O2 exposure and suggest that beta-amyloid peptide renders neurons more sensitive to free radical attack. However, a potential beta-amyloid-mediated increase in free radical formation is not a proximate cause of the neurotoxic mechanism of beta-amyloid in vitro.
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PMID:Inhibitors of free radical formation fail to attenuate direct beta-amyloid25-35 peptide-mediated neurotoxicity in rat hippocampal cultures. 753 47

Nitric oxide which was released in aqueous solutions (> or = 10 microM) of direct NO-donors such as 3-morpholinesydnonimine (SIN-1) and S-nitroso-N-acetyl-penicillamine (SNAP) consumed avidly sulfhydryl groups of N-acetylcysteine > cysteine > glutathione. In case of SIN-1 generation of nitrites run in parallel to disappearance of sulfhydryl groups of N-acetylcysteine and glutathione, however, for a pair of SIN-1 and cysteine the rate of formation of nitrites was much slower than the rate of consumption of sulfhydryl groups. We infer that kinetics of formation and breakdown of S-nitrosothiols varies depending on the type of a thiol which reacts with a NO-donor. Indirect NO-donors such as glyceryl trinitrate (GTN), molsidomine (MSD) or sodium nitroprusside (NaNP) at concentrations < 100 microM did not consume sulfhydryl groups of cysteine unless pretreated with the xanthine/xanthine oxidase system. We suppose that in this last case superoxide anions react with nitric oxide to form peroxynitrites with a higher potency than nitric oxide itself to destroy sulfhydryl groups. We conclude that out of three studied thiols N-acetylcysteine is the best substrate for the formation of S-nitrosothiols, while S-nitrosocysteine is the slowest releaser of nitric oxide. Moreover, unlike SIN-1 and SNAP, NaNP is not a direct NO-donor but behaves rather like GTN. Minute amounts of nitric oxide released either from NaNP or GTN gain from superoxide anions an amplification as SH-scavengers.
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PMID:In vitro generation and decomposition of S-nitrosothiols from direct and indirect nitric oxide donors. 755 May 51

The cytotoxic effect of lipopolysaccharide (LPS) was examined on bovine aortic endothelial cell proliferation in vitro. These LPS-induced cytotoxicity (IC50 = 20 ng/ml) was not inhibitable by substances regulating the formation of nitric oxide (NO). e.g. by NG-monomethyl-L-arginine (L-NMMA), an inhibitor of NO synthesis, and by the glucocorticoid dexamethasone, an inhibitor of the induction of NO synthase. Also other substances which inhibit the generation or action of oxygen radicals, as glutathion and the xanthine oxidase inhibitor allopurinol did not prevent the cytotoxic effect of LPS. Only tyrphostin B46, an inhibitor of tyrosine kinase, attenuated the toxic LPS effect, suggesting that the LPS-induced cytotoxicity in bovine aortic endothelial cell cultures is mediated by a specific tyrosine kinase, and not by NO or oxygen radicals.
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PMID:Investigations into the mechanism of toxicity of lipopolysaccharide (LPS) in bovine aortic endothelial cells. 756 18

The pathophysiology of ischaemia depends on the residual cerebral blood flow. As a result, it is different in global ischaemia, when compared with focal ischaemia, where the centre area is surrounded with an area called an ischaemic penumbra. Ischaemia results from a sudden failure in the oxygen and glucose supply. Oxidative phosphorylation fails, a major event that is responsible for all the other reactions. Anaerobic metabolism produces lactate and H+. Cell membrane ionic pumps are inactivated, which results in a breakdown of ionic homeostasis. Ca++ and Na+ penetrate into the cells, as K+ is released. The energy failure causes an extracellular accumulation of excitatory amino-acids, thus eliciting a hyperstimulation of the NMDA receptors. These receptors are hyperactivated as a result of the deterioration in the control systems with, especially, the blockade of the NMDA receptor by Mg++. As a consequence, there is a massive entry of Ca++ into the cell, including a series of enzymatic reactions involving phospholipases, proteases and endonucleases. Reperfusion will cause toxic lesions by producing free radicals, due to the action of arachidonic acid, xanthine oxidase and nitric oxide. The decrease in cell energetic supplies, as well as the overactivation of enzymes and the production of free radicals, result in cell death.
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PMID:[Cerebral ischemic cascade]. 767 74

When cultures of pancreatic islet cells are exposed to the nitric oxide donor sodium nitroprusside, to enzymatically generated reactive oxygen intermediates or to streptozotocin cell lysis occurs after 4-12 h. We report here that a heat shock at 43 degrees C for 90 min reduces cell lysis from nitric oxide (0.45 mM sodium nitroprusside) by 70%, from reactive oxygen intermediates (12 mU xanthine oxidase and 0.05 mM hypoxanthine) by 80% and from streptozotocin (1.5 mM) by 90%. Heat shock induced resistance was observed immediately after termination of the 90 min culture at 43 degrees C and correlated with enhanced expression of hsp70. The occurrence of DNA strand breaks, a major early consequence of nitric oxide, reactive oxygen intermediates, or streptozotocin action, was not suppressed by heat shock treatment. However, the depletion of NAD+, the major cause of radical induced islet cell death, was suppressed after heat shock (P < 0.01). We conclude that pancreatic islet cells can rapidly activate defence mechanisms against nitric oxide, reactive oxygen intermediates and streptozotocin by culture at 43 degrees C. Islet cell survival is due to the prevention of lethal NAD+ depletion during DNA repair, probably by slowing down poly(ADP-ribose)polymerase activation.
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PMID:Heat shock induces resistance in rat pancreatic islet cells against nitric oxide, oxygen radicals and streptozotocin toxicity in vitro. 776 24

The effects of nitric oxide (NO) on xanthine oxidase (XOD) activity and the site(s) of the redox center(s) affected were investigated. XOD activity was determined by superoxide (O2-) generation and uric acid formation. NO reversibly and dose-dependently suppressed XOD activity in both determination methods. The suppression interval also disclosed a dose-dependent prolongation. The suppression occurred irrespective of the presence or absence of xanthine; indicating that the reaction product of NO and O2-, peroxynitrite, is not responsible for the suppression. Application of synthesized peroxynitrite did not affect XOD activity up to 2 microM. Methylene blue, which is an electron acceptor from Fe/S center, prevented the NO-induced inactivation. The results indicate that NO suppresses XOD activity through reversible alteration of the flavin prosthetic site.
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PMID:Nitric oxide reversibly suppresses xanthine oxidase activity. 782 92

The reactivity and toxicity of nitric oxide is modest in comparison to oxidants derived from nitric oxide. Exposure of Escherichia coli to 1 mM nitric oxide under aerobic or anaerobic conditions did not decrease viability of the bacteria. Peroxynitrite (1 mM), the reaction product of superoxide and nitric oxide, was completely bactericidal after 5 s. The nitrovasodilator, 3-morpholinosydnonimine-N-ethylcarbamide (SIN-1), slowly decomposes to release both nitric oxide and superoxide and thereby produces peroxynitrite. SIN-1 killed E. coli in direct proportion to its concentration with an LD50 of 0.5 mM. Copper, zinc superoxide dismutase (50-400 units/ml) provided substantial but not complete protection against SIN-1 killing. Catalase (500-10,000 units/ml) partially protected in direct proportion to its concentration, while inactivated catalase was not protective. Superoxide dismutase and catalase together completely protected E. coli against SIN-1 toxicity. Oxy-hemoglobin eliminated both SIN-1 and peroxynitrite toxicity. The bactericidal activity of SIN-1 was further enhanced by pterin plus xanthine oxidase. Pterin plus xanthine oxidase alone or together with Fe3+ ethylenediamine tetraacetate produced no significant decrease in E. coli viability. Hydrogen peroxide was not directly toxic to the bacteria, but E. coli pretreated with hydrogen peroxide were more susceptible to peroxynitrite, SIN-1, and the aerobic oxidation products of nitric oxide. Hydrogen peroxide pretreatment did not increase significantly the toxicity of nitric oxide under anaerobic conditions. Our results suggest that peroxynitrite is far more toxic to E. coli than nitric oxide or its by products from aerobic oxidation.
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PMID:The comparative toxicity of nitric oxide and peroxynitrite to Escherichia coli. 784 Jun 33

Despite extensive studies on streptozotocin, alloxan and nitric oxide toxicity in pancreatic islets the mechanism of oxygen radical induced islet cell death has not been determined. The present study shows at the level of single cells that following exposure to oxygen radicals generated from xanthine oxidase DNA strand breaks occur in cell nuclei within 5-60 min and precede cell death by several hours. Similar kinetics were seen when treating islet cells with the alkylating agent streptozotocin. Immunofluorescence studies demonstrated the endogenous formation of ADP-ribose polymers in nearly all islet cell nuclei within minutes of treatment with xanthine oxidase, indicating activation of the enzyme poly(ADP-ribose) polymerase (PARP). Concomitantly, cellular NAD+ depletion was noted. Nicotinamide largely prevented NAD+ depletion and in parallel resulted in islet cell survival. These findings identify islet cell nuclear DNA as a primary target of oxygen radical toxicity and suggest related pathways of oxygen radical, nitric oxide and streptozotocin toxicity.
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PMID:Analysis of oxygen radical toxicity in pancreatic islets at the single cell level. 784 Sep 1

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