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)

At physiologic pH values, histidine-containing nickel(II) oligopeptides reduced the flux of superoxide anion (O2-) generated in the hypoxanthine/xanthine oxidase system. The postulated involvement of the Ni(III)/Ni(II) redox couple in this apparent dismutation receives indirect support from electron-spin resonance data. These complexes also catalyzed the disproportionation of hydrogen peroxide, a process which generates active intermediates capable of hydroxylating p-nitrophenol and oxidizing uric acid to allantoin. An oxene moiety, namely [Nio]2+, is postulated as the active species in these H2O2-dependent reactions. Spectral analysis showed that monovalent, divalent and trivalent ions induced cooperative conformational changes in synthetic polydeoxynucleotides. For the nickel(II) ion, resistance to DNase-I activity clearly showed that an alternating G-C sequence is required for the observed transitions. It is concluded that the ability of nickel(II) peptide complexes to participate in active oxygen biochemistry suggests a possible role for nickel as a chemical promoter of cancer, whereas the capacity of the nickel(II) ion to induce conformational changes in DNA could, in principle, affect gene expression. Of course, the validity of both hypotheses require that the observed reactions be verified as biologically significant.
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PMID:Superoxide dismutase activity and novel reactions with hydrogen peroxide of histidine-containing nickel(II)-oligopeptide complexes and nickel(II)-induced structural changes in synthetic DNA. 248 92

Adriamycin and mitomycin C were reduced by xanthine oxidase/NADH in the presence of a DNA template comprising a stable initiated ternary transcription complex derived from the lac UV5 promoter. Subsequent elongation of the transcription complex treated with mitomycin C revealed high levels of terminated transcripts one nucleotide prior to G residues on the coding strand (i.e. at X of XpC sequences of the non-coding strand). Lower levels of termination occurred with adriamycin, and these were also one nucleotide prior to G residues of the coding strand, but with greater sequence specificity since they were observed mainly at G of GpC sequences of the non-coding strand. The same sites were also observed with adriamycin in the absence of reducing conditions and the level of termination at these sites was enhanced up to 10-fold by Fe2+ and Fe3+, but not by Cu2+, Zn2+, Co2+ or Ni2+. These results suggest that an iron-adriamycin complex with DNA is highly sequence-specific and results in adducts, similar to those of mitomycin C, which can terminate the transcription process. Such a mechanism offers new insights into the possible mode of action of anthracyclines.
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PMID:DNA sequence-specific adducts of adriamycin and mitomycin C. 249 87

To investigate mechanisms of ATP depletion in human umbilical vein endothelial cells after oxidant injury, we studied the relationship between DNA damage, activation of the DNA-repairing enzyme poly ADP-ribose polymerase, NAD depletion, and ATP depletion. We found that oxidant stress generated with hypoxanthine-xanthine oxidase and glucose-glucose oxidase resulted in profound DNA damage. When endothelial cells were exposed to 25 and 50 mU/ml xanthine oxidase for 60 min, the percentage of double-stranded DNA was significantly reduced (p less than 0.05) to 15.2 +/- 1.2 and 4.6 +/- 0.5%, respectively, compared to 75.7 +/- 3.9% for control cells. When endothelial cells were exposed to 25 and 50 mU/ml glucose oxidase for 60 min, the percentage of double-stranded DNA was significantly (p less than 0.05) reduced to 35.0 +/- 1.5% and 9.9 +/- 7.7%, respectively, compared to 73.2 +/- 2.4% for control cells. ATP and NAD levels declined simultaneously with DNA damage. Because activation of the DNA-repairing enzyme poly ADP-ribose polymerase can consume NAD sufficient to interfere with ATP synthesis, we studied NAD and ATP levels after oxidant injury when ADP-ribose polymerase was inhibited with 3-aminobenzamide and nicotinamide. When poly ADP-ribose polymerase was inhibited, NAD levels remained normal, but ATP depletion was not prevented. We conclude that oxidant injury to human umbilical vein endothelial cells results in profound DNA damage and NAD and ATP depletion. NAD depletion results from activation of poly ADP-ribose polymerase, but this phenomenon is not the mechanism of ATP depletion in human umbilical vein endothelial cells.
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PMID:Mechanisms of endothelial cell ATP depletion after oxidant injury. 252 33

Exposure of the plasmid pBR 322 to the aerobic xanthine oxidase reaction introduced single strand scissions and endonuclease III-sensitive sites. The latter may be residues of thymine glycol. Both forms of DNA damage were completely prevented by superoxide dismutase or catalase, whereas bovine serum albumin was much less effective. Mannitol and benzoate, added as scavengers of HO., and desferrioxamine or diethylene triamine pentaacetate, added to sequester Fe(III), also protected. These results indicate a metal-catalyzed interaction of O2- with H2O2, which produces HO. which, in turn, causes DNA strand scission and oxidation of thymine residues to thymine glycol. Plasmid isolated from aerobically-incubated cells contained more strand scissions and endonuclease III-sensitive sites than did plasmid from anaerobically-incubated cells, and a low molecular weight scavenger of O2- prevented the damage seen with the aerobic cells. Genetic defects in AP endonucleases rendered E. coli more susceptible to the dioxygen-dependent lethality of plumbagin, which mediates O2- production. Similarly, plasmid DNA, within the endonuclease-deficient cells, exhibited more strand scissions and endonuclease III-sensitive sites upon aerobic exposure to plumbagin than did endonuclease-sufficient cells, and a low molecular weight scavenger of O2- was protective. These results are consistent with the conclusions that strand scissions and formation of endonuclease III-sensitive sites are among the consequences of exposure of DNA to O2- plus H2O2, both in vitro and in vivo.
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PMID:Formation of endonuclease III-sensitive sites as a consequence of oxygen radical attack on DNA. 254 64

Poly(ADP-ribosylation) [poly(ADPR)] is a posttranslational modification of chromosomal proteins that affects the structural and functional properties of chromatin. We have studied poly(ADPR) of ADPR-transferase and topoisomerase I in intact mouse epidermal cells JB6 (clone 41) by a combination of affinity chromatography on phenylboronate and immunoblotting with monoclonal antibodies against poly(ADPR) chains and polyclonal antibodies against ADPR-transferase and topoisomerase I, respectively. Constitutive, steady-state poly(ADPR) substitution of ADPR-transferase was estimated at 4% and that of topoisomerase I at 0.1%. Active oxygen produced extracellularly by xanthine-xanthine oxidase and the methylating agent N-methyl-N'-nitro-N-nitrosoguanidine transiently increased the level of poly(ADPR) substitution of these enzymes by a factor of 6-10. While the poly(ADPR) substitution of ADPR-transferase remained elevated after 60 min of incubation, the poly(ADPR) substitution of topoisomerase I had returned to control values within this time. Benzamide (100 microM) partially prevented the stimulation of poly(ADPR) synthesis by these agents. We speculate that self-inactivation of ADPR-transferase by poly(ADPR) represents a feedback mechanism that has the function to avoid excessive poly(ADPR) synthesis and concomitant NAD and ATP depletion. Inactivation of topoisomerase I in the neighborhood of DNA breakage may temporarily shut down DNA replication and allow DNA repair to occur.
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PMID:ADP-ribosylation of ADPR-transferase and topoisomerase I in intact mouse epidermal cells JB6. 254 71

Several 5-substituted 2-pyrimidinone 2'-deoxyribonucleoside (PdR) analogs were examined for their anti-herpes simplex virus (HSV) activity in cell culture. The order of potency of their antiviral activities against HSV type 1 (HSV-1) and HSV-2 was iodo PdR approximately ethynyl PdR approximately propynyl PdR. The antiviral action of iodo PdR is dependent on the ability of HSV to induce virus-specified thymidine kinase in infected cells. Several HSV-1 variants with altered thymidine kinase changed their sensitivity to iodo PdR, whereas HSV-1 variants with altered DNA polymerase were as sensitive as the parental virus to iodo PdR. Continuous presence of iodo PdR for more than one virus replication cycle was required for optimal antiviral activity. Iodo PdR (100 microM) had no activity against Epstein-Barr virus DNA replication in P3HR-1 cells. With an oral, an intraperitoneal, or a subcutaneous route of injection, iodo PdR administered twice a day for 2.5 days could prevent the death of mice infected with HSV-2. This in vivo activity is unlikely to be related to the potential conversion of iodo PdR to iododeoxyuridine, since iodo PdR is not a substrate of xanthine oxidase.
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PMID:Anti-herpes simplex virus activity of 5-substituted 2-pyrimidinone nucleosides. 254 79

Asbestos resembles the phorbol ester, 12-O-tetradecanoylphorbol 13-acetate (TPA), in its ability to elicit release of superoxide (O2-.) from rodent alveolar macrophages (AM) in vitro. In addition, superoxide dismutase (SOD), the antioxidant enzyme scavenging O2-, is increased in cultures of tracheobronchial epithelial cells and lung fibroblasts after exposure to either crocidolite or chrysotile asbestos. Our objectives here were to determine: (1) the chemical and physical properties of asbestos important in the generation of O2- from rat AM; and (2) the effects of O2- in comparison with asbestos on biosyntheses of collagen and non-collagen protein in rat lung fibroblasts in vitro. We were also interested in whether increased production of SOD occurred in the lungs of rats after inhalation of crocidolite asbestos. To determine whether O2- was elicited in response to a variety of asbestiform fibres, AM lavaged from Fischer 344 rat lungs were exposed in vitro to equivalent non-toxic amounts of crocidolite asbestos, erionite, Code 100 fibreglass, sepiolite, and their non-fibrous analogues, riebeckite, mordenite and glass particles. In addition, sized preparations of long (greater than 10 microns) and short (less than 2 microns) asbestos were introduced at identical concentrations to determine whether length of fibres is critical in O2- release. The amount of O2- released from AM in response to dusts was then determined by measuring SOD-inhibitable reduction of cytochrome C. All asbestiform fibres caused a significant (p less than 0.05) increase in generation of O2- from epithelial cells, whereas non-fibrous particles were less active at comparable concentrations. Experiments with long (greater than 10 microns) versus short (less than 2 microns) chrysotile showed that long fibres caused a more striking, dosage-dependent release of O2-. To determine whether O2- plays a role in the causation of fibrotic lung disease, rat lung fibroblasts were exposed to a biochemical generation system (xanthine-xanthine oxidase) for O2- before quantitation of cell-associated collagen and non-collagen protein at 24, 48 and 72 h thereafter. At the latter time periods, significant increases in total collagen per ng DNA were observed. In comparison with controls, the generation system for O2- also caused an initial decrease in synthesis of non-collagen protein followed by increases in synthesis of non-collagen protein at 48 and 72 h.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanisms of fibre-induced superoxide release from alveolar macrophages and induction of superoxide dismutase in the lungs of rats inhaling crocidolite. 254 20

Damage to the bases in DNA produced by the hypoxanthine/xanthine oxidase system in the presence of iron ions was studied. The base products in DNA were measured using gas chromatography-mass spectrometry with selected ion monitoring after acidic hydrolysis of DNA and trimethylsilylation. Products identified were cytosine glycol, thymine glycol, 5,6-dihydroxycytosine, 4,6-diamino-5-formamidopyrimidine, 8-hydroxyadenine, 2,6-diamino-4-hydroxy-5-formamidopyrimidine, and 8-hydroxyguanine. These are typical hydroxyl radical-induced products of the bases in DNA. 2,6-Diamino-4-hydroxy-5-formamidopyrimidine was the major product, followed by 8-hydroxyguanine, in DNA treated with hypoxanthine/xanthine oxidase/Fe3+-EDTA. The use of Fe3+ did not cause as much damage to the bases in DNA as did the use of Fe3+-EDTA. In both systems, the formation of the products was inhibited by superoxide dismutase, catalase, dimethyl sulfoxide, mannitol, and desferrioxamine, but inhibitions were much stronger in the systems containing EDTA. Hence formation of hydroxyl radicals by a superoxide radical-assisted Fenton reaction is proposed to account for the results obtained. 2,6-Diamino-4-hydroxy-5-formamidopyrimidine, 5,6-dihydroxycytosine, 4,6-diamino-5-formamidopyrimidine, and 8-hydroxyguanine were proposed as the products in DNA to measure if one aims to measure DNA products as indices of oxidative DNA damage involving hydroxyl radicals in vivo.
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PMID:Iron ion-dependent modification of bases in DNA by the superoxide radical-generating system hypoxanthine/xanthine oxidase. 254 43

We have shown, in a preliminary report, that macrophages can induce strand breaks in the DNA of co-cultured tumor cells (Chong et al., 1988). The present study is designed to determine if oxygen-centered species generated by the cell-free enzyme-substrate combination of hypoxanthine and xanthine oxidase can induce similar lesions and to identify the specific mediator(s). We report that co-incubation of murine mammary tumor cell lines with hypoxanthine and xanthine oxidase leads to the induction of DNA-strand breaks as determined by fluorescence analysis of DNA unwinding (FADU) assay or alkaline elution techniques. This damage is preventable by catalase which removes hydrogen peroxide but no protection is provided by agents to remove or prevent the formation of superoxide anion (superoxide dismutase), or hydroxyl radical (mannitol or the iron chelator o-phenanthroline). Likewise, cyclooxygenase or lipoxygenase inhibitors of arachidonate metabolism (indomethacin, nordihydroguaiaretic acid, caffeic acid) or bromophenacyl bromide do not alter the degree of DNA scission. Treatment with higher doses of oxygen species leads to significant toxicity as determined by evaluation of cell growth potential or colony-forming ability. Again, toxicity is prevented only by the presence of catalase. Tumor cells are able to rejoin strand breaks at lower, less toxic doses. When comparing different tumor cell subpopulations at various stages of progression, i.e., metastatic vs. nonmetastatic, for sensitivity to hydrogen peroxide-induced strand breakage, we found that at lower concentrations (less than 5 microM) metastatic populations are sensitive whereas nonmetastatic populations exhibit no significant breakage. At higher concentrations of hydrogen peroxide, all lines were sensitive, suggesting that a lower threshold of sensitivity may exist for more progressed tumor cell lines.
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PMID:Reactive oxygen-mediated damage to murine mammary tumor cells. 255 50

Incubation of a number of ferric ion chelates with H2O2 at pH 7.4 generated a reactive species able to produce chemical modifications of the bases in DNA that are very similar to those produced in DNA by the hypoxanthine/xanthine oxidase system (Aruoma, O.I., Halliwell, B., and Dizdaroglu, M. (1989) J. Biol. Chem. 264, 13024-13028). Products were identified and quantitated by the use of gas chromatography-mass spectrometry with selected-ion monitoring. Compared with other complexes used, ferric ion-nitrilotriacetic acid produced by far the largest amount of the base products. Typical hydroxyl radical scavengers and superoxide dismutase provided significant decreases in the yields of the products. On this basis, it is proposed that ferric ion complexes react with H2O2 to produce hydroxyl radical; this was also shown using the deoxyribose assay. Inhibition of product formation by superoxide dismutase suggests the involvement of superoxide radical in this reaction. It is likely that hydroxyl radical generated by reaction of the ferric ion-nitrilotriacetic acid complex with H2O2 contributes to the carcinogenicity and nephrotoxicity associated with this chelating agent.
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PMID:Damage to the bases in DNA induced by hydrogen peroxide and ferric ion chelates. 258 27


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