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)

The effect of diethyldithiocarbamate (DDC) and sodium nitroprusside (SNP) on the killing of endothelial cells and on the release of arachidonate by mixtures of oxidants and membrane-damaging agents was studied in a tissue culture model employing bovine aortic endothelial cells labeled either with 51Chromium or 3arachidonic acid. While exposure to low, subtoxic concentrations of oxidants (reagent H2O2, glucose-oxidase generated peroxide, xanthine xanthine oxidase, AAPH-generated peroxyl radical, menadione-generated oxidants) did not result either in cell death or in the loss of membrane-associated arachidonic acid, the addition of subtoxic amounts of a variety of membrane-damaging agents (streptolysin S, PLA2, histone, taurocholate, wheatgerm agglutinin) resulted in a synergistic cell death. However, no significant amounts of arachidonate were released unless proteinases were also present. The addition to these reaction mixtures of subtoxic amounts of DDC (an SOD inhibitor and a copper chelator) not only very markedly enhanced cell death but also resulted in the release of large amounts of arachidonate (in the complete absence of added proteinases). Furthermore, the inclusion in DDC-containing reaction mixtures of subtoxic amounts of SNP, a generator of NO, further enhanced, in a synergistic manner, both cell killing and the release of arachidonate. Cell killing and the release of arachidonate induced by the DDC and SNP-containing mixtures of agonists were strongly inhibited by catalase, glutathione, N-acetyl cysteine, vitamin A, and by a nonpenetrating PLA2 inhibitor as well as by tetracyclines. A partial inhibition of cell killing was also obtained by 1,10-phenanthroline and by antimycin. It is suggested that DDC might amplify cell damage by forming intracellular, loosely-bound complexes with copper and probably also by depleting antioxidant thiols. It is also suggested that "cocktails" containing oxidants, membrane-damaging agents, DDC, and SNP might be beneficial for killing of tumor cells in vivo and for the assessment of the toxicity of xenobiotics in vitro.
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PMID:Diethyldithiocarbamate and nitric oxide synergize with oxidants and with membrane-damaging agents to injure mammalian cells. 935 Apr 19

When rat liver xanthine dehydrogenase was incubated with fluorodinitrobenzene (FDNB) at pH 8.5, the total enzyme activity decreased gradually to a limited value of initial activity with modification of two lysine residues in a similar way to the modification of bovine milk xanthine oxidase with FDNB (Nishino, T., Tsushima, K., Hille, R. and Massey, V. (1982) J. Biol. Chem. 257, 7348-7353). After modification with FDNB, the two peptides containing dinitrophenyl-lysine were isolated from the molybdopterin domain after proteolytic digestion and were identified as Lys754 and Lys771 by sequencing the peptides. During the modification of these lysine residues, xanthine dehydrogenase was found to be converted to an oxidase form in the early stage of incubation. Incorporation of the 3H-dinitrophenyl group into enzyme cysteine residues was 0.96 mol per enzyme FAD for 68% conversion to the oxidase form. The modified enzyme was reconverted to the dehydrogenase form by incubation with dithiothreitol with concomitant release of 3H-dinitrophenyl compounds. After modification with 3H-FDNB followed by carboxymethylation under denaturating conditions, the enzyme was digested with proteases. Three 3H-dinitrophenyl-labeled peptides were isolated and sequenced. The modified residues were identified to be Cys535, Cys992 and Cys1324. These residues are conserved among the all known mammalian enzymes, but Cys992 and Cys1324 are not conserved in the chicken enzyme. Cys1324 of the rat enzyme was found not to be involved in the conversion from the dehydrogenase to the oxidase by limited proteolysis experiments, but Cys535 and Cys992 which seemed to be modified alternatively with FDNB appear to be involved in the conversion.
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PMID:The conversion from the dehydrogenase type to the oxidase type of rat liver xanthine dehydrogenase by modification of cysteine residues with fluorodinitrobenzene. 936 59

Reactive oxygen species (ROS) have been suggested to act as cellular messengers that mediate signal transduction cascades in various cell types. However, little is known about their role in this capacity in the nervous system. We have begun to investigate the role of ROS, and that of nitric oxide (NO), in mediating mitogen-activated protein kinase (MAPK) signaling in rat hippocampal slices. Our studies have revealed that direct exposure of hippocampal slices to hydrogen peroxide, xanthine/xanthine oxidase (a superoxide-generating system), sodium nitroprusside (an NO donor compound), S-nitroso-N-acetylpenicillamine (an NO donor compound), or 3-morpholinosydnonimine (a compound that produces NO and superoxide) results in an enhancement in tyrosine phosphorylation of several proteins, including proteins with apparent molecular masses of 42 and 44 kDa. We investigated the possibility that these proteins correspond to the active forms of p42 MAPK and p44 MAPK. Hippocampal slices exposed to various ROS and NO donors resulted in increases in levels of the active forms of both p42 MAPK and p44 MAPK. The ROS- and NO-enhanced tyrosine phosphorylation and activation of p42 MAPK and p44 MAPK were inhibited by pretreatment with the antioxidant N-acetyl-L-cysteine. Our observations indicate that ROS and NO can mediate protein tyrosine phosphorylation and MAPK signaling in the hippocampus via a redox-sensitive mechanism and suggest a potential cellular mechanism for their effects in the nervous system.
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PMID:Stimulation of p42 and p44 mitogen-activated protein kinases by reactive oxygen species and nitric oxide in hippocampus. 948 20

S-Nitrosothiols (RSNO) occur in vivo and have been proposed as nitric oxide (.NO) storage and transport biomolecules. Still, the biochemical mechanisms by which RSNO release .NO in biological systems are not well defined, and in particular, the interactions between reactive oxygen species and RSNO have not been studied. In this work, we show that xanthine oxidase (XO), in the presence of purine (hypoxanthine, xanthine) or pteridine (lumazine) substrates, induces S-nitrosocysteine (CysNO) and S-nitrosoglutathione (GSNO) decomposition under aerobic conditions. The decomposition of RSNO by XO was inhibitable by copper-zinc superoxide dismutase, in agreement with the participation of superoxide anion (O-2) in the process. However, while superoxide dismutase could totally inhibit aerobic decomposition of GSNO, it was only partially inhibitory for CysNO. Competition experiments indicated that O-2 reacted with GSNO with a rate constant of 1 x 10(4) M-1.s-1 at pH 7.4 and 25 degreesC. The decomposition of RSNO was accompanied by peroxynitrite formation as assessed by the oxidation of dihydrorhodamine and of cytochrome c2+. The proposed mechanism involves the O-2-dependent reduction of RSNO to yield .NO, which in turn reacts fast with a second O-2 molecule to yield peroxynitrite. Under anaerobic conditions, CysNO incubated with xanthine plus XO resulted in CysNO decomposition, .NO detection, and cysteine and uric acid formation. We found that CysNO is an electron acceptor substrate for XO with a Km of 0.7 mM. In agreement with this concept, the enzymatic reduction of CysNO by XO was inhibitable by oxypurinol and diphenyliodonium, inhibitors that interfere with the catalytic cycle at the molybdenum and flavin sites, respectively. In conclusion, XO decomposes RSNO by O-2-dependent and -independent pathways, and in the presence of oxygen it leads to peroxynitrite formation.
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PMID:Xanthine oxidase-mediated decomposition of S-nitrosothiols. 952 75

1,1-Diphenyl-2-Picryl-Hydrazyl (DPPH), a stable free radical, has been used for detecting antioxidant activity in chemical analysis. However, it is still unknown if DPPH triggers free radical injury in cardiac tissue. In order to establish a simple free radical-injured isolated heart model, we investigated the action of DPPH on isolated guinea pig heart by Langendorff perfusion and compared it with cardiac effect of superoxide anion (O2.-), generated by the hypoxanthine (HX)-xanthine oxidase (XO) system. Free radical scavengers, dimethyl sulphoxide (DMSO), superoxide dismutase (SOD), and L-cysteine, were also used to analyze the characteristic of the DPPH free radical-derived cardiac dysfunction. In isolated guinea pig hearts, DPPH 100 nM and 250 nM in Krebs-Henseleit solution significantly decreased the left ventricular developed pressure (LVDP) and maximum velocity changes of left ventricular pressure (+/-LVdP/dtmax), elevated the left ventricular end-diastolic pressure (LVEDP), and increased lactate dehydrogenase (LDH) release and thiobarbituric acid-reactive substances (TBARS) formation in cardiac tissue. The cardiac dysfunction induced by DPPH 250 nM was more intense than 100 nM. L-Cysteine improved the DPPH-impaired cardiac function, while DMSO and SOD had no beneficial effect on this injury. The cardiac membrane fluidity was decreased by DPPH. Free radical signals, detected by electron spin resonance (ESR) in the DPPH-injured heart, were reduced by L-cysteine-treatment. These results suggest that DPPH free radical-induced cardiac dysfunction is attributed to neither the superoxide anion nor the hydroxyl radical. In conclusion, our data indicate that DPPH-induced isolated heart dysfunction serves as a simple and reproducible free radical-injured heart model.
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PMID:A simple reproducible model of free radical-injured isolated heart induced by 1,1-diphenyl-2-picryl-hydrazyl (DPPH). 969 63

In this study we have investigated some chemical properties and the biological role of thiazolidine compounds, obtained by condensation of aminothiols (L- or D-cysteine, cysteamine) with pyridoxal-5'-phosphate. These products have been tested in presence of rat liver extracts (supernatant and mitochondria); bacterial suspensions and enzymes (L- or D-aminoacid oxidase, xanthine oxidase) with interesting results which gives evidence to a biological role. Their formation in vivo may represent the regulation of intracellular levels of pyridoxal-5'-phosphate and aminothiols. Moreover, we have analysed the two diastereoisomers of the thiazolidine compounds derived from L-cysteine and D-cysteine: we have succeeded to distinguish by NMR analysis the cis and the trans forms, concluding that the interconversion of the free forms is extremely rapid at pH 7: thus, it may be relevant for the protein bound forms.
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PMID:Some chemical properties and biological role of thiazolidine compounds. 977 14

Time courses of total (GSH-t), disulfide (GSSG), and mixed disulfide (PSSG) forms of glutathione were studied in chicken blood submitted to oxidative stress induced by diamide or by the reactive oxygen species (ROS)-producing system xanthine/xanthine oxidase (X/XO). Diamide-treated blood induced an immediate increase in GSSG and PSSG, while X/XO produced a slow and sustained stress with increased values of GSSG and PSSG only after 30 and/or 60 min of incubation. Both total protein S-thiolation (mixed disulfide with glutathione) and dethiolation and hemoglobin A S-thiolation and dethiolation were clearly observed. Hemoglobin A (Hb A) was the major S-thiolated protein. We further characterized chicken Hb S-thiolation through the reaction of Hb with GSSG or the GSH/GSSG redox couple. Methemoglobin levels did not change with diamide or with X/XO treatment. Present results suggest that the most reactive cysteine pair of Hb A, the major chicken Hb, might function as an antioxidant under in vivo oxidative stress conditions.
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PMID:Oxidative stress causes intracellular reversible S-thiolation of chicken hemoglobin under diamide and xanthine oxidase treatment. 978 42

The reactivities of glutathione, cysteine, cysteamine, penicillamine, N-acetylcysteine, dithiothreitol and captopril with superoxide generated from xanthine oxidase and hypoxanthine, and with reagent hydrogen peroxide, have been investigated. Rates of thiol loss on adding hydrogen peroxide, and superoxide-dependent thiol loss and oxygen uptake were measured. The relative reactivities of the different thiols with both oxidants were inversely related to the pK of the thiol group, such that at pH 7.4, penicillamine was the most reactive. N-acetylcysteine weakly reactive and no reaction was seen with captopril. For hydrogen peroxide, the calculated rate constants for the reaction with the thiolate anion all fell within the range 18-26 M(-1) s(-1). With superoxide, our results are consistent with each thiol reacting via a short chain that consumes oxygen and regenerates superoxide. Only with some of the thiols, was the consumed oxygen recovered as hydrogen peroxide. Reported values for the rate constant for the reaction of thiols with superoxide vary over four orders of magnitude, with the highest being > 10(5) M(-1) s(-1). Due to the complexity of the chain reaction, no study so far has been able to obtain accurate values and we consider the best estimates to be in the 30 to 1000 M(-1) s(-1) range.
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PMID:Reactivity of biologically important thiol compounds with superoxide and hydrogen peroxide. 1046 5

Chemokines and adhesion molecules play a pivotal role in leukocyte infiltration during tissue injury. RANTES (regulated upon activation, normal T cell expressed and secreted) is a monocyte chemoattractant that induces the expression of CD11/CD18 integrins on leukocytes for which intercellular adhesion molecule-1 (ICAM-1) is the ligand. Both RANTES and ICAM-1 can be expressed by mesangial cells (MC) in culture and in glomeruli during immune injury. In this study, the role of reactive oxygen species (ROS) in the activation of RANTES and ICAM-1 in murine MC was examined. Tumor necrosis factor alpha (TNF-alpha) and aggregated immunoglobulin (aggr. Ig) G, which enhance ROS formation in MC, increased mRNA transcripts of both RANTES and ICAM-1. Thiol-containing free-radical scavengers N-acetyl cysteine, dimethyl- and tetramethylthiourea, or pyrrolidinedithiocarbamate abrogated the increase in mRNA for RANTES and ICAM-1 in response to TNF-alpha or IgG. Hydroxy-methoxy acetophenone, an inhibitor of NADPH-dependent oxidase, also attenuated RANTES and ICAM-1 in response to TNF-alpha or IgG. ROS generated by addition of xanthine oxidase and hypoxanthine induced RANTES and ICAM-1 expression, whereas hydrogen peroxide caused no response. Because cAMP can interfere with gene activation in MC, the effects of 8-Br-cAMP, forskolin, and prostaglandin E2 on mRNA levels were examined for RANTES and ICAM-1. These agents attenuated the response to IgG aggregates and also to superoxide generation. Finally, the effect of glucocorticoids, which are frequently used in glomerular immune injury, was examined. Dexamethasone decreased mRNA for both RANTES and ICAM-1 after stimulation with aggr. IgG or TNF-alpha. Both forskolin and dexamethasone also reduced the amount of RANTES protein secreted by MC in response to aggr. IgG. Only dexamethasone decreased RANTES secretion in response to TNF-alpha stimulation. The inhibitory effects of cAMP and dexamethasone may explain the beneficial effects of cAMP mimetics, such as prostaglandin E2 and glucocorticoid administration on glomerular inflammatory processes.
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PMID:Regulation of RANTES and ICAM-1 expression in murine mesangial cells. 1049 89

The influence of gamma radiation on basal compared to activation-dependent Ca(2+) influx in human lymphocytes was investigated. A new quantitative fluorescence technique termed differential ratiometric fluorescence spectroscopy (DRFS) was employed. DRFS facilitated the real-time detection of changes in fluorescence in experimental and control cell samples simultaneously, enabling the resolution of acute moderate changes ( congruent with10-30%) in Ca(2+) (manganese) influx after exposure to ionizing radiation and other oxidant interventions. Exposure to radiation inhibited thapsigargin-stimulated store-operated Ca(2+) influx but not basal Ca(2+) influx in Jurkat T cells and human peripheral blood lymphocytes. The response of store-operated Ca(2+) influx to gamma radiation was dependent on dose between 5 and 40 Gy and was inhibited by preincubation with the Ca(2+) channel blocker Ni(2+), as determined with Jurkat T cells. Elevation of the intracellular concentration of glutathione significantly reduced the inhibition of Ca(2+) influx by gamma radiation. Similar to radiation, both the superoxide anion-generating xanthine/xanthine oxidase system and hydrogen peroxide inhibited thapsigargin-stimulated Ca(2+) influx in Jurkat T cells, and this inhibition was reversed in the presence of the antioxidant N-acetyl-l-cysteine. In conclusion, (1) ionizing radiation inhibited store-operated Ca(2+) entry in human lymphocytes, (2) the sensitivity of Ca(2+) influx to radiation was strictly dependent on depletion of Ca(2+) stores, and (3) glutathione protected against the inhibition of store-operated Ca(2+) entry by gamma radiation.
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PMID:Inhibition of store-operated calcium entry in human lymphocytes by radiation: protection by glutathione. 1058 31


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