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)

NADPH-cytochrome P-450 reductase-catalyzed reduction of paraquat promoted the release of iron from ferritin. Aerobically, iron release was inhibited approximately 60% by superoxide dismutase, whereas xanthine oxidase-dependent iron release was inhibited nearly 100%. This suggests that both superoxide and the paraquat cation radical can catalyze the release of iron from ferritin. Accordingly, under anaerobic conditions, the paraquat radical mediated a very rapid, complete release of iron from ferritin. Similarly, the cation free radicals of the closely related chemicals, diquat and benzyl viologen, also promoted iron release. ESR studies demonstrated that electron transfer from the paraquat cation radical to ferritin accounts for the reductive release of iron. The ferritin structure was not altered by exposure to the paraquat radical and also retained its ability to re-incorporate iron. These studies indicate that release of iron from ferritin may be a common feature contributing to free radical-mediated toxicities.
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PMID:Reductive release of iron from ferritin by cation free radicals of paraquat and other bipyridyls. 302 22

The effect of the purple acid phosphatases with binuclear iron centers (uteroferrin and bovine spleen phosphatase) on hydroxyl radical formation by iron-catalyzed Haber-Weiss-Fenton chemistry has been compared to that of lactoferrin and transferrin. Using 5,5-dimethyl-1-pyrroline-1-oxide to detect superoxide and hydroxyl radicals and the xanthine-xanthine oxidase system to generate superoxide and hydrogen peroxide, we have observed by ESR spectroscopy that both phosphatases were able to promote hydroxyl radical formation. Lactoferrin and transferrin were found incapable of giving rise to these reactive species. This can be explained by the fact that lactoferrin and transferrin carry two Fe(III) atoms per molecule, neither of which are readily reduced by biological reductants. In contrast, the phosphatases possess a binuclear iron center in which one of the iron atoms is stabilized in the ferric state, but the other freely undergoes one-electron redox reactions. The redox-active iron may act as a catalyst of the Haber-Weiss-Fenton sequence, thus enabling the reactions generating hydroxyl radical to proceed. The iron complex of diethylenetriamine penta-acetic acid, also redox active, was investigated and found as well to promote Haber-Weiss-Fenton chemistry.
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PMID:Hydroxyl radical formation and iron-binding proteins. Stimulation by the purple acid phosphatases. 302 17

Free radicals acting at sensitive subcellular sites, appear to play a pivotal role in both the deleterious and beneficial effects of maturation and senescence of various plant organs--leaves, flowers, and fruit. As evidenced by ESR spectrometry, spin trapping, specific membrane phase transition studies and enzyme kinetics, an important factor in the above processes appears to be lipoxygenase activity producing polyunsaturated fatty acid (PUFA) hydroperoxides and subsequently several free radical species and senescence-promoting compounds such as ethylene, malondialdehyde and jasmonic acid. The most intensely investigated are the oxy-free radical species including O2-., .OH, RO., ROO., PUFA and semiquinone free radicals. Higher plants are equipped with ways and means to combat free radicals and these may be classified under two general headings; (a) direct scavengers including SOD, ascorbic acid, and alpha-tocopherol acting in concert (b) incipient preventative mechanisms against radical formation, these include xanthine oxidase inhibitors, strategies based on endogenous H2O2 disposal in the form of peroxidative enzymes and glutathione turnover, and Ca2+ channel blockers. The antisenescence phytohormone cytokinin appears to possess a dual effect and may act in both capacities. The special case of delayed free radical formation in comparatively dry biological systems such as seeds is detailed, and specific free radical-generating photosensitizer compounds are also discussed.
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PMID:Plant senescence processes and free radicals. 307 46

The initial metabolite formed by most mammalian nitroreductases is the nitro anion free radical. We, as well as others, have proposed that nitroheterocyclic anion radicals covalently bind to protein, DNA, or thiol compounds such as reduced glutathione (GSH). Our results indicate that even at 100 mM GSH does not affect the steady-state concentration of the nitro anion free radical of N-[4-(5-nitro-2-furyl)-2-thiazolyl]acetamide (NFTA) in rat hepatic microsomal or xanthine oxidase incubations. The steady-state ESR amplitude of the anion radical is also unchanged by the addition of BSA or DNA. Similar results are obtained with nitrofurazone and nitrofurantoin. The reactive chemical species which binds to tissue macromolecules and GSH upon the reduction of nitrofurans remains unknown, but the anion free radical metabolite can be excluded from consideration.
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PMID:No detectable reaction of the anion radical metabolite of nitrofurans with reduced glutathione or macro-molecules. 609 28

The in vitro antioxidative activity of 5,6,7,8-tetrahydrobiopterin (BPH4) was measured and the ability of BPH4 to prevent paraquat-induced cell damage was examined in cultured hepatocytes. The scavenging activity of BPH4 against superoxide anion radicals was assayed in two systems, i.e., xanthine/xanthine oxidase (X/XOD) and rat macrophage/phorbol myristate acetate (M psi/PMA) radical-generating systems. BPH4 showed an extremely strong superoxide anion radical-scavenging activity in both assay systems. Biopterin (BP) itself did not show any activity in the X/XOD system, but was effective in the M psi/PMA system. The antioxidative activities of BPH4 against both superoxide anion and hydroxyl radicals were confirmed by spin trapping-ESR spectrometry. BPH4 also protected rat brain homogenate against auto-oxidation. We further examined the effect of BPH4 on paraquat-induced cell toxicity in cultured rat hepatocytes. The paraquat-induced elevation of the release of lactate dehydrogenase (LDH), a marker enzyme for cytotoxicity from cultured hepatocytes was suppressed by BPH4 in a dose-dependent manner. The elevation of lipid peroxides simultaneously induced by paraquat was also inhibited by BPH4 in the same manner. These results suggest that BPH4 might be useful in the treatment of various diseases whose pathogenesis is active oxygen-related.
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PMID:Antioxidative activity of 5,6,7,8-tetrahydrobiopterin and its inhibitory effect on paraquat-induced cell toxicity in cultured rat hepatocytes. 758 25

ESR spin trapping was utilized to study the singlet oxygen (1O2) generation in the reaction of superoxide (O2) with H2O2. The spin trap used was 2,2,6,6-tetramethyl-4-piperdone. Incubation of xanthine, xanthine oxidase and H2O2 generated 1O2 spin adduct signal. Omission of xanthine, xanthine oxidase or H2O2 caused a sharp decrease in 1O2 generation. 1O2 scavenger, sodium azide, inhibited 1O2 generation while .OH scavenger, ethanol, only slightly decreased the signal intensity. Potassium superoxide (KO2) decomposition generated 1O2. Catalase and sodium azide inhibited 1O2 generation and H2O2 enhanced it. The results demonstrate that O2 is capable of generating 1O2 upon reaction with H2O2.
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PMID:Singlet oxygen generation in the superoxide reaction. 766 19

Chemical reduction of mitosenes under aerobic conditions in DMSO showed characteristic ESR signals of the mitosene derived semiquinone free radicals. However, these signals diminished strongly upon addition of water to the reaction mixture, indicating a short lifetime of the mitosene semiquinone free radicals under aqueous conditions. In addition, enzymatic one-electron reduction of these mitosenes with either xanthine oxidase or purified NADPH cytochrome P450 reductase under anaerobic conditions showed no signals of the mitosene semiquinone free radicals. Subsequent cyclic voltammetry measurements demonstrated facilitation of the further one-electron reduction of the mitosene semiquinone free radicals in the presence of water in comparison with non-aqueous conditions. The present results strongly suggest that in the presence of water relatively stable hydroquinones are formed upon reduction of mitosenes. Consequently, the steady state concentrations of mitosene semiquinone free radicals will be lowered substantially in aqueous environment. Thus under physiological conditions, two-electron reduction and formation of the mitosene hydroquinone might be important in processes leading to DNA alkylation by these mitosenes.
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PMID:Reduction of antitumour mitosenes in non-aqueous and aqueous environment. An electron spin resonance and cyclic voltammetry study. 770 82

Superoxide (O2-)-dependent lipid peroxidation on addition of xanthine oxidase (XO) and Fe(3+)-ADP was induced in egg phosphatidylcholine (PC) liposomes containing dicetylphosphate (DCP), which are negatively charged like biological membranes, but not in uncharged egg PC liposomes. Positively charged Fe(3+)-ADP interacted more with negatively charged egg PC-DCP liposomes than with uncharged egg PC liposomes. The activities of Fe(3+)-chelates for initiating O(2-)-dependent lipid peroxidation were in the order Fe(3+)-ADP > Fe(3+)-citrate > Fe(3+)-oxalate = Fe(3+)-malonate > Fe(3+)-EDTA = 0. This order was the same as that for the reduction rates of these Fe(3+)-chelates to Fe(2+)-chelates by O(2-)-generated by XO. Lineweaver-Burk plots showed that the chelators inhibited XO by different mechanisms: uncompetitively by ADP and adenosine and non-competitively by organic acid chelators (citrate and oxalate) and EDTA. These results suggest that ADP interacts with XO in a manner different from the other chelators. Lipid peroxidation by XO-xanthine and Fe(3+)-ADP was induced in egg PC liposomes containing a trace (0.31-0.35 mol%) of peroxidized egg PC (PC-OOH), but not in PC-OOH-free liposomes of egg PC obtained by their pretreatment with triphenylphosphine. PC-OOH incorporated into dimyristoyl phosphatidylcholine (DMPC) liposomes was degraded on addition of both XO-xanthine and Fe(3+)-chelate, but not of either one alone. alpha-Tocopherol in DMPC liposomes was oxidized on addition of XO-xanthine and Fe(3+)-chelates in the presence, but not in the absence of PC-OOH. Furthermore, PC-OOH was required for decrease of the ESR spectrum of the spin probe 12-(N-oxyl-4,4'-dimethyloxazolidin-2-yl)stearic acid, which labels the hydrophobic region of egg PC liposome membranes, on addition of XO-xanthine and Fe(3+)-chelates. These results indicate that the "induction message of lipid peroxidation," which is associated with reduction of Fe(3+)-ADP by O2- and concurrent degradation of PC-OOH, must be transferred from the membrane surface to the inner hydrophobic region of the membranes.
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PMID:Dynamics of xanthine oxidase- and Fe(3+)-ADP-dependent lipid peroxidation in negatively charged phospholipid vesicles. 784 Jun 82

Using ESR, a weak signal identified as the ascorbate free radical was observed in fresh cow's milk. The signal was unchanged after storage at 5 degrees C for 24 h but disappeared after storage at 25 degrees C. A marked increase in the steady-state ascorbate radical concentration was observed with the addition of H2O2 or xanthine; the increase was abolished in the presence of azide. Based on the xanthine-oxygen reductase activity and 2,2'-azino-di-(3-ethylbenzthiazoline-6-sulfonic acid) peroxidase activity, cow's milk contains 0.45 microM xanthine oxidase and 0.32 microM lactoperoxidase. The results suggest that H2O2- and xanthine-induced ascorbate radical formation was due to the ascorbate peroxidase activity of lactoperoxidase in cow's milk.
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PMID:Ascorbate radicals in fresh cow's milk. 785 81

Superoxide scavenging activities (SSA) of newly synthesized spin-labeled nitrosourea and triazene derivatives, and their precursor nitroxides were investigated by the ESR/spin-trapping method using the spin trap 5,5-dimethyl-1-pyrroline-N-oxide (DMPO) and hypoxanthine/xanthine oxidase as the superoxide-generating system. The spin-labeled nitrosoureas, triazenes and their precursor nitroxides exhibited excellent SSA, whereas clinically used nitrosourea and triazene, which do not contain the nitroxide moiety, did not show any SSA. Furthermore, it was deduced that these nitroxides scavenge superoxide by redox cycling between nitroxide and corresponding hydroxylamine.
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PMID:Superoxide scavenging activity of spin-labeled nitrosourea and triazene derivatives. 798 88

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