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

The generation of free radicals in the progression of kainic acid (KA)-mediated neuronal death has been implicated in both in vitro and in vivo studies. In the present study, the association between KA-induced neurodegeneration and the appearance of lipid peroxidation products was investigated and compared to three well characterized free radical generating (FRG) systems: 200 microM ferrous ammonium sulfate (FAS), 20 microM copper (Cu2+), and 0.01 U/ml xanthine oxidase/2.3 mM purine/2.4 microM transferrin (XO). KA caused a dose-dependent increase in conjugated diene and lipid hydroperoxide formation as did the FRG systems. The antioxidant, butylated hydroxytoluene (BHT), decreased both FRG system- and KA-induced lipid peroxidation by approximately 60-70%. Unlike BHT, the potency of the lipid peroxidation inhibitor, U78517F, depended upon the system utilized to induce free radical generation. U78517F was most potent in attenuating FAS-induced lipid peroxidation (100 nM), followed by KA (1.5 microM), and then Cu2+ and XO (> 2 microM). Results were confirmed by measurement of cytolysis through the release of lactic dehydrogenase (LDH). These data provide further evidence that the generation of free radicals, subsequently leading to membrane disruption, is central to the mechanism of KA-elicited neuronal death in cultures of cerebellar granule cells.
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PMID:Kainic acid-induced lipid peroxidation: protection with butylated hydroxytoluene and U78517F in primary cultures of cerebellar granule cells. 825 95

We previously isolated the strain Z-54 (Serratia marcescens O5:H1) which produces a reddish-violet pigment. The structure of this pigment was confirmed to be that of a peptide complex containing Fe2+ and L-2(2-pyridyl)-1-pyrroline-5-carboxylic acid (pyrimine), as a chromophore. We measured the superoxide dismutase mimetic activities for the pyrimine-metal complexes by xanthine oxidase/nitroblue tetrazolium and cytochrome c methods and found that the pyrimine-Cu2+ (2:1) complex shows the highest activity yet reported (IC50 = 0.11 microM) among the complexes tested. Pyrimine-Cu+, -Fe2+ and -Mn2+ complexes also gave relatively high SOD mimetic activities. ESR spectra observed for pyrimine-Cu2+ (4:1) showed the structure of the Cu(2+)-complex to be tetrahedral and coordinated with four nitrogen atoms. These results support the idea that the pyrimine-metal complexes might be potent SOD mimics.
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PMID:Superoxide dismutase mimetic activities of metal complexes of L-2(2-pyridyl)-1-pyrroline-5-carboxylic acid (pyrimine). 826 87

The superoxide dismutase activity of several copper(II) complexes of linear and cyclic dipeptides has been measured. The results of a classic indirect method (xanthine-xanthine oxidase) have been compared with those obtained by generation of the superoxide radical through 2-(3-benzoylphenyl)propionic acid (ketoprofen) photolysis. A simulation approach, based on the knowledge of the stability constants of the different complex species existing in experimental conditions, has allowed us to obtain the correct speciation and to use these data to calculate the pertinent catalytic constants.
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PMID:Determination of superoxide dismutase-like activity of copper(II) complexes. Relevance of the speciation for the correct interpretation of in vitro O2- scavenger activity. 833 43

Allopurinol, a potent inhibitor of xanthine oxidase, is known to effectively protect the heart against damage in patients undergoing cardiac bypass surgery. There is still an ambiguity concerning the presence of xanthine oxidase in the human heart. Thus, the mechanism underlying the protective effect of allopurinol is unclear. Transition metal ions, such as iron and copper, can participate in single-electron reactions and mediate the formation of oxygen-derived free radicals. In this study the interaction between allopurinol and Cu(II) was investigated. Spectrophotometric investigation shows that allopurinol (0-0.8 mM) form a 1:1 complex with Cu(II) ions (0-0.8 mM) with a specific absorbance peak at 364 nm. Also, the rate constant (k) for the copper-catalyzed aerobic oxidation of ascorbate was markedly decreased in the presence of allopurinol (from 0.068 min-1 to 0.014 min-1). Allopurinol substantially reduced the copper-mediated and ascorbate-driven DNA breakage. Spectrophotometric measurements did not indicate a specific interaction between iron ions and allopurinol. It is suggested that the beneficial effects of allopurinol during reperfusion of the heart could stem from its chelation of copper, yielding a complex with low redox activity.
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PMID:Interaction between allopurinol and copper: possible role in myocardial protection. 834 48

Our laboratory recently isolated free PQQ (2,7,9-tricarboxy-pyrroloquinoline quinone, methoxatin), a bacterial redox cofactor, from red cells, neutrophils, serum and milk and found free PQQ in CSF, synovial fluid and bile. The metabolism and functions of PQQ and ascorbate may be coupled. Physiologically, free PQQ catalyzes dioxygen-superoxide interconversion, and participates in both superoxide generation (respiratory burst) and scavenging (cell protection). Using a labeled aromatic o-diamine, superoxide formation by activated neutrophils was inhibited and the labeled phenazine adduct of PQQ could be isolated from the inhibited cells (Karnovsky et al., 1992). PQQ may convert xanthine oxidase to xanthine dehydrogenase (XD) and could be the physiological coenzyme of XD. PQQ plus copper, form a potent amine-oxidizing system. Shah et al., 1992 found that PQQ-Cu2+ catalyzes the oxidation of epsilon-amino groups in collagen and elastin. Rucker's lab (Smidt et al., 1991) has found that PQQ may be a vitamin for mouse pups. Watanabe et al., 1988 and Nishigori et al., 1989, showed that injected PQQ protects animals against oxidative stress injury. PQQ's in vivo antioxidant action, spares reduced glutathione. PQQ, as an actively transported organic anion, concentrates in cells. In other experiments (Aizenman et al., 1992), PQQ protected neurons against the neurotoxin action of the glutamate-receptor against NMDA. We shall consider possible roles for PQQ in the biosynthesis of nitric oxide (NO, endothelium-derived relaxing factor, EDRF) from L-arginine and in NO removal by superoxide. NO has now been linked to the inhibition of osteoclastic bone resorption.
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PMID:Is the antioxidant, anti-inflammatory putative new vitamin, PQQ, involved with nitric oxide in bone metabolism? 840 96

1. Endothelial barrier function was assessed by use of an in vitro model in which transfer of trypan blue-labelled albumin was measured across monolayers of bovine aortic endothelial cells grown on polycarbonate membranes. 2. Addition of either hypoxanthine (0.2 mM) or xanthine oxidase (20 mu ml-1) alone during a 90 min incubation did not affect albumin transfer across endothelial cell monolayers, but a combination of both increased transfer. 3. The increase in albumin transfer induced by hypoxanthine and xanthine oxidase was abolished by catalase (3 u ml-1), reduced by allopurinol (4 mM), but unaffected by superoxide dismutase (6000 u ml-1), the hydroxyl radical scavengers, mannitol (15 mM), dimethylthiourea (10 mM) and N-(2-mercaptopropionyl)-glycine (1 mM), the iron chelator, deferoxamine (0.5 mM), ferric chloride (50 microM), an inhibitor of nitric oxide synthase, NG-nitro-L-arginine (30 microM), or the antioxidant, dithiothreitol (3 mM). 4. Hydrogen peroxide (0.1-30 mM) itself increased albumin transfer across endothelial cell monolayers, exhibiting a biphasic concentration-response curve. The increase induced by 0.1 mM hydrogen peroxide was abolished in the presence of 0.3 u ml-1 catalase whilst that induced by 10 mM hydrogen peroxide was abolished by 3000 u ml-1 catalase. 5. Homocysteine (0.5-1.5 mM) did not affect albumin transfer across endothelial monolayers when added alone, but when added in combination with copper sulphate (50 microM), which catalyses its oxidation, a significant increase in albumin transfer was observed. 6. The increase in albumin transfer induced by the combination of homocysteine (1.5 mM) and copper sulphate was abolished by catalase (1 u ml-1), but was unaffected by superoxide dismutase (6000 u ml-1), mannitol (15 mM), dimethylthiourea (1 mM) or deferoxamine (0.5 mM).7. The data suggest that the endothelial barrier dysfunction induced by the combination of hypoxanthine and xanthine oxidase is mediated solely by the action of hydrogen peroxide and not by superoxide anion, hydroxyl radical, peroxynitrite anion or hypochlorous acid. The copper-catalysed oxidation of homocysteine also induces endothelial barrier dysfunction through the generation of hydrogen peroxide.These findings may have relevance to the endothelial barrier dysfunction associated with ischaemia reperfusion injury and the atherogenic actions of homocysteine.
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PMID:Arterial endothelial barrier dysfunction: actions of homocysteine and the hypoxanthine-xanthine oxidase free radical generating system. 848 31

Cultured vascular smooth muscle cells (SMC) and endothelial cells (EC) stimulate low density lipoprotein (LDL) oxidation by free radical-mediated, transition metal-dependent mechanisms. The physiological source(s) of metal ions is not known; however, purified ceruloplasmin, a plasma protein containing 7 coppers, oxidizes LDL in vitro. We now show that ceruloplasmin also increases LDL oxidation by vascular cells. In metal ion-free medium, human ceruloplasmin increased bovine aortic SMC- and EC-mediated LDL oxidation by up to 30- and 15-fold, respectively. The maximal response was at 100-300 microg ceruloplasmin/ml, a level at or below the unevoked physiological plasma concentration. Oxidant activity was dependent on protein structure as a specific proteolytic cleavage or removal of one of the seven ceruloplasmin copper atoms inhibited activity. Three lines of evidence indicated a critical role for cellular superoxide (O2.) in ceruloplasmin-stimulated oxidation. First, the rate of production of O2. by cells correlated with their rates of LDL oxidation. Second, superoxide dismutase effectively blocked ceruloplasmin-stimulated oxidation by both cell types. Finally, O2. production by SMC quantitatively accounted for the observed rate of LDL oxidation. To show this, the course of O2. production by SMC was simulated by repeated addition of xanthine and xanthine oxidase to culture medium under cell-free conditions. Neither ceruloplasmin nor O2. alone increased LDL oxidation, but together they completely reconstituted the oxidation rate of ceruloplasmin-stimulated SMC. These results are the first to show that ceruloplasmin stimulates EC- and SMC-mediated oxidation of LDL and that cell-derived O2. accounts quantitatively for metal-dependent, free radical-initiated oxidation of LDL by these cells.
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PMID:Ceruloplasmin enhances smooth muscle cell- and endothelial cell-mediated low density lipoprotein oxidation by a superoxide-dependent mechanism. 866 20

The antioxidant activity of marchantin H was investigated using various experimental models. Marchantin H inhibited nonenzymatic iron-induced lipid peroxidation in rat brain homogenates with an IC50 value of 0.51 +/- 0.03 microM. It was more potent than desferrioxamine or other classical antioxidants. Marchantin H also suppressed NADPH-dependent microsomal lipid peroxidation with an IC50 value of 0.32 +/- 0.01 microM without affecting microsomal electron transport of NADPH-cytochrome P450 reductase. Marchantin H could scavenge the stable free radical 1,1-diphenyl-2-picrylhydrazyl and peroxyl radical derived from 2,2 '-azobis(2-amidinopropane) dihydrochloride in aqueous phase, but not the peroxyl radical derived from 2,2 '-azobis(2,4-dimethylvaleronitrile) in hexane. The oxygen consumption during peroxyl radical-induced human erythrocyte ghost oxidation was decreased in a concentration-dependent manner by marchantin H. Furthermore, it was reactive toward superoxide anion generated by the xanthine/xanthine oxidase system. On the other hand, marchantin H inhibited copper-catalyzed oxidation of human low-density lipoprotein, as measured by fluorescence intensity, thiobarbituric acid-reactive substance formation, and electrophoretic mobility in a concentration-dependent manner. Our results indicate that marchantin H is a potentially effective and versatile antioxidant and can be used as a chaperone protecting biomacromolecules against peroxidative damage.
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PMID:Marchantin H as a natural antioxidant and free radical scavenger. 883 34

Mixed ligand complexes of copper polyamine with biomolecules such as imidazole, substituted imidazoles or pyridine have been synthesized and characterized. These molecules were used because of their low toxicity and high activity. These complexes were found to possess a distorted octahedral microenvironment with a potential SOD mimicking activity. The IC50 values for these complexes were of the order of 2-90 microM. Pyridine and imidazole complexes were most effective as they possess the lowest IC50 values of 2.1 and 6 microM respectively which are higher than the IC50 value of polyamine copper complex. Based on the uric acid estimations, it has also been ascertained that these complexes dismute O2- without inhibiting xanthine oxidase activity. The presence of increasing concentrations of albumin had no effect on the SOD mimicking activity of mixed ligand complexes. Polyamine complex, however lost approximately 80% of SOD mimicking activity in the presence of albumin (1 mg). These results suggest that coordination of polyamine copper complex with imidazoles/pyridine may abolish their binding affinity for albumin while potentiating their SOD mimicking activity.
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PMID:Coordination of copperpolyamine complex with imidazoles potentiates it superoxide dismutase mimicking activity and abolishes its interaction with albumin. 884 51

Reactive oxygen species have been implicated in normal and pathological processes of many tissues, including skeletal muscle. I extended previous studies by examining the effect of these intermediates and eight of their antagonists (superoxide dismutase, catalase, deferoxamine, [Cu(II)]2(3,5-diisopropylsalicylate)4, 1,2-dimethyl-3-hydroxy-pyridone, 1,3-dimethyl-2-thiourea, N-(2-mercaptopropionyl)-glycine, vitamin E) on indirectly stimulated twitch tension of an in vitro neuroskeletomuscular preparation, the phrenic nerve-diaphragm of the rat. In the absence of exogenous reactive oxygen species, none of the antagonists potentiated twitch tension, and all but one (N-[2-mercaptopropionyl]-glycine) of the membrane-permeant antagonists attenuated twitch tension. The reactive oxygen intermediate-generating system of purine plus xanthine oxidase reduced indirectly stimulated twitch tension by 36% while having no effect on directly stimulated twitch tension. Catalase (but not superoxide dismutase or deferoxamine) eliminated the reduction in twitch tension, indicating that hydrogen peroxide played a role in the reduction. The membrane-permeant antagonists [Cu(II)]2(3,5-diisopropylsalicylate)4 and 1,2-dimethyl-3-hydroxy-pyridone also eliminated the reduction in twitch tension caused by reactive oxygen species, suggesting that hydrogen peroxide could have acted intracellularly through an iron-catalyzed Haber-Weiss reaction to produce hydroxyl radical, which in turn reacted with intracellular components, thereby reducing twitch tension.
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PMID:Action of reactive oxygen species and their antagonists on twitch tension of the rat phrenic nerve-diaphragm. 888 89


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