Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.17.3.2 (xanthine oxidase)
 8,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

OH(*) free radicals were generated by Fenton reaction in the presence of bovine serum albumin (BSA). The decreasing water-solubility of BSA with increasing Fe(2+) concentrations of the system is a sensitive indicator of the cross-linking effects of the OH(*) free radicals. Idebenone (oxidized form) was solubilized for this experiment in DMSO and added to the system in final concentrations of 0.01 or 0.1%. Neither of these concentrations displayed any protective effect against the insolubilization of BSA. Therefore, oxidized idebenone has to be considered as a substance which reacts with OH(*) free radicals slower than the BSA itself, i.e., its oxidized form is not an efficient scavenger of this type of free radicals under the given circumstances. The ability of idebenone to scavenge superoxide radicals was tested in ( [Formula: see text] ) the pyrogallol system; and (ii) the xanthine-xanthine oxidase-nitro blue tetrazolium (XXO-NBT) system. Idebenone did not show any O(2)(-*) radical scavenging ability as revealed by these two in vitro methods, in the concentration ranges studied (up to 75 or 220 microg/ml, respectively). On the contrary, an increasing O(2)(-*) radical generation was observed with increasing concentrations of the drug in both test systems used. The possible biological significance of these observations is discussed in the light of other results like ESR spin trapping and measurements of superoxide dismutase (SOD) activity in various tissues.
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PMID:In vitro studies on the OH* and O2(-*) free radical scavenger properties of idebenone in chemical systems. 1537 68

Nitrones such as 5,5-dimethyl-1-pyrroline N-oxide (DMPO), 5-diethoxyphosphoryl-5-methyl-1-pyrroline N-oxide (DEPMPO) and 5-ethoxycarbonyl-5-methyl-1-pyrroline N-oxide (EMPO) have become the spin-traps of choice for the detection of transient radical species in chemical and biological systems using electron paramagnetic resonance (EPR) spectroscopy. The mechanism of decomposition of the superoxide radical anion (O2(.-)) adducts of DMPO, DEPMPO and EMPO in aqueous solutions was investigated. Our findings suggest that nitric oxide (NO) was formed during the decomposition of the O2(.-) adduct as detected by EPR spin trapping using Fe(II)N-methyl-d-glucamine dithiocarbamate (MGD). Nitric oxide release was observed from the O2(.-) adduct formed from hypoxanthine-xanthine oxidase, PMA-activated human neutrophils, and DMSO solution of KO2. Nitric oxide formation was not observed from the independently generated hydroxyl radical adduct. Formation of nitric oxide was also indirectly detected as nitrite (NO2(.-)) utilizing the Griess assay. Nitrite concentration increases with increasing O2(.-) concentration at constant DMPO concentration, while NO2(.-) formation is suppressed at anaerobic conditions. Moreover, large excess of DMPO also inhibits NO2(.-) formation which can be attributed to the oxidation of DMPO to hydroxamic acid nitroxide (DMPO-X) by nitrogen dioxide (NO2), a precursor to NO2(.-). Product analysis was also conducted to further elucidate the mechanism of adduct decay using gas chromatography-mass spectrometry (GC-MS) technique.
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PMID:Nitric oxide release from the unimolecular decomposition of the superoxide radical anion adduct of cyclic nitrones in aqueous medium. 1610 5

A mononuclear (1:1) copper complex of curcumin, a phytochemical from turmeric, was synthesized and examined for its superoxide dismutase (SOD) activity. The complex was characterized by elemental analysis, IR, NMR, UV-VIS, EPR, mass spectroscopic methods and TG-DTA, from which it was found that a copper atom is coordinated through the keto-enol group of curcumin along with one acetate group and one water molecule. Cyclic voltammetric studies of the complex showed a reversible Cu(2+)/Cu(+) couple with a potential of 0.402 V vs NHE. The Cu(II)-curcumin complex is soluble in lipids and DMSO, and insoluble in water. It scavenges superoxide radicals with a rate constant of 1.97 x 10(5) M(-1) s(-1) in DMSO determined by stopped-flow spectrometer. Subsequent to the reaction with superoxide radicals, the complex was found to be regenerated completely, indicating catalytic activity in neutralizing superoxide radicals. Complete regeneration of the complex was observed, even when the stoichiometry of superoxide radicals was 10 times more than that of the complex. This was further confirmed by EPR monitoring of superoxide radicals. The SOD mimicking activity of the complex was determined by xanthine/xanthine oxidase assay, from which it has been found that 5 microg of the complex is equivalent to 1 unit of SOD. The complex inhibits radiation-induced lipid peroxidation and shows radical-scavenging ability. It reacts with DPPH radicals with rate constant 10 times less than that of curcumin. Pulse radiolysis-induced one-electron oxidation of the complex by azide radicals in TX-100 micellar solutions produced strongly absorbing ( approximately 500 nm) phenoxyl radicals, indicating that the phenolic moiety of curcumin remained intact on complexation with copper. The results confirm that the new Cu(II)-curcumin complex possesses SOD activity, free radical neutralizing ability, and antioxidant potential. Quantum chemical calculations with density functional theory have been performed to support the experimental observations.
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PMID:Evaluation of a new copper(II)-curcumin complex as superoxide dismutase mimic and its free radical reactions. 1610 10

Free radical formation has been investigated in diverse experimental models of LPS-induced inflammation. Here, using electron spin resonance (ESR) and the spin trap alpha-(4-pyridyl-1-oxide)-N-tert-butylnitrone, we have detected an ESR spectrum of alpha-(4-pyridyl-1-oxide)-N-tert-butylnitrone radical adducts in the lipid extract of mouse skin treated with LPS for 6 h. The ESR spectrum was consistent with the trapping of lipid-derived radical adducts. In addition, a secondary radical-trapping technique using dimethyl sulfoxide (DMSO) demonstrated methyl radical formation, revealing the production of hydroxyl radical. Radical adduct formation was suppressed by aminoguanidine, N-(3-aminomethyl)benzylacetamidine (1400W), or allopurinol, suggesting a role for both inducible nitric oxide synthase (iNOS) and xanthine oxidase (XO) in free radical formation. The radical formation was also suppressed in iNOS knockout (iNOS(-/-)) mice, demonstrating the involvement of iNOS. NADPH oxidase was not required in the formation of these radical adducts because the ESR signal intensity was increased by LPS treatment in NADPH oxidase knockout (gp91(phox-/-)) mice as much as it was in the wild-type mouse. Nitric oxide (*NO) end products were increased in LPS-treated skin. As expected, the *NO end products were not suppressed by allopurinol but were by aminoguanidine. Interestingly, nitrotyrosine formation in LPS-treated skin was also suppressed by aminoguanidine and allopurinol independently. Pretreatment with the ferric iron chelator Desferal had no effect on free radical formation. Our results imply that both iNOS and XO, but neither NADPH oxidase nor ferric iron, work synergistically to form lipid radical and nitrotyrosine early in the skin inflammation caused by LPS.
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PMID:Free radical production requires both inducible nitric oxide synthase and xanthine oxidase in LPS-treated skin. 1653 16

Phenolic compounds are widely present in plants and they have received considerable attention due to their antioxidant property. In this article we report the results of a study of the reactivity of 10 selected phenolics (sesamol, three phenolic acids, three flavonols, one flavone, and two flavanones) with superoxide anion radical (O(2) (*)), hydroxyl radical (HO(*)) and singlet oxygen ((1)O(2)). The following generators of reactive oxygen species were used: 18-crown-6/KO(2)/dimethylsulfoxide (DMSO) or hypoxanthine/xanthine oxidase as sources of O(2) (*), the Fenton reaction carried out in a sodium trifluoroacetate (pH 6.15) for HO(*), and a mixture of alkaline aqueous H(2)O(2) and cobalt ions for (1)O(2). We have employed chemiluminescence, electron spin resonance spin trapping, and spectrophotometry techniques to examine an antioxidative property. All tested compounds acted as scavengers of various reactive oxygen species. The reactivity indexes (beta) for the reaction of the phenolic compounds with HO(*) were calculated.
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PMID:Scavenging effects of phenolic compounds on reactive oxygen species. 1737 54

Previous work has demonstrated that reactive oxygen intermediates (ROIs) play an important regulatory role in the induction of monocyte chemotactic protein 1 (MCP-1) in certain cells. This study investigated the mechanisms of ROI regulation of MCP-1 gene expression in whole blood and isolated peripheral blood mononuclear cells (PBMCs). The antioxidants dimethyl sulfoxide (DMSO), N-acetyl cysteine, and dimethyl thiourea significantly inhibited lipopolysaccharide (LPS)-induced MCP-1 production in either whole blood or isolated blood cells. In contrast, interleukin 6 and tumor necrosis factor production were not affected and interleukin-1beta levels were actually increased with DMSO treatment. Exogenous ROI (either hydrogen peroxide or O2 generated by xanthine/xanthine oxidase) stimulated MCP-1 production, which was also inhibited by DMSO. To confirm the biological relevance of these findings in vivo, mice treated with DMSO before LPS challenge had significantly lower plasma levels of MCP-1. The level of inhibition was addressed in experiments which demonstrated that DMSO significantly decreased MCP-1 mRNA induced by LPS in whole blood and PBMCs. Cycloheximide treatment did not abolish the DMSO inhibition of MCP-1 mRNA, demonstrating that de novo protein synthesis is not required. Treatment with actinomycin D showed that DMSO did not increase the decay rate of MCP-1 mRNA, indicating that ROI did not change the stability of MCP-1 mRNA. These results provide evidence that in whole blood and PBMCs, DMSO regulates MCP-1 gene expression by decreasing the induction of MCP-1 mRNA.
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PMID:Mechanisms of oxidant regulation of monocyte chemotactic protein 1 production in human whole blood and isolated mononuclear cells. 1752 8

Monocyte chemoattractant protein-1 (MCP-1) is produced by different cells in response to inflammatory stimulation. In the present study, a series of human MCP-1 promoter reporter genes were constructed to illustrate elements involved in antioxidant dimethyl sulfoxide (DMSO) inhibition of MCP-1 gene expression. MCP-1 secretion and mRNA expression and transcription activity stimulated by TNF-alpha or IL-1beta were significantly inhibited by 1% DMSO in alveolar type II epithelial cells (A549). Deletion of -7537 to -2741 caused a 77% decrease in reporter activity, but DMSO inhibition was still present. Deletion of -7537 to -2616 containing the A1 NF-kappaB binding site resulted in a complete loss of MCP-1 stimulation. Deletion of -2585 to -74 decreased reporter activity by approximately 50%, and DMSO inhibited this induction. Deletion of -2614 to -74 containing the A2 NF-kappaB binding site completely abolished responses to stimulation. Mutations of either of the NF-kappaB binding sites decreased promoter activity, which could still be inhibited by DMSO, whereas deletion of both NF-kappaB binding sites abolished induced transcriptional activity. Mutation or deletion of the NF-kappaB binding sites significantly decreased or abolished reporter activity in response to reactive oxygen intermediates (ROI), generated by xanthine plus xanthine oxidase. In conclusion, DMSO inhibits MCP-1 gene expression through both NF-kappaB binding sites located far upstream of the 5'-flanking region of the MCP-1 promoter.
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PMID:Promoter elements responsible for antioxidant regulation of MCP-1 gene expression. 1794 78

A2E is one of the bis-retinoid pyridinium compounds that accumulate as lipofuscin pigments in retinal pigment epithelial (RPE) cells in association with aging and in some inherited forms of retinal degeneration. Here we observed that 430nm irradiation of A2E in the presence of the spin trap DMPO, led to the appearance of a superoxide dismutase-inhibitable electron paramagnetic resonance (EPR) spectrum characteristic of DMPO-OH; this finding was indicative of hydroxyl radical (OH) formation following initial spin trapping of superoxide anion by DMPO. We also observed an increase in dihydroethidium (HEt) fluorescence and luminol-based chemiluminescence that on the basis of inhibition by superoxide dismutase, was indicative of superoxide anion generation when A2E was irradiated at 430nm in cell-free systems. Nevertheless, while A2E was readily oxidized in the presence of a singlet oxygen generator, superoxide anion did not serve to oxidize A2E. Specifically, by HPLC quantitation and FAB-mass spectroscopy, there was no evidence of A2E oxidation when A2E was incubated with a superoxide anion generator (xanthine/xanthine oxidase) in a variety of solvents (100% PBS, 30% DMSO in PBS, 100% MeOH and CHCl3) or in the presence of detergent. On the other hand, however, peroxy-A2E, an oxidized form of A2E with an endoperoxide moiety on the short-arm of the molecule, readily underwent further oxygen addition when incubated with xanthine/xanthine oxidase. Superoxide anion may be generated by irradiation of A2E but is not involved in the early events that oxidize A2E. Superoxide can contribute to the further oxidation of already-oxidized A2E.
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PMID:Mechanisms involved in A2E oxidation. 1843 97

We investigated a hypoxanthine (HPX) and xanthine oxidase (XOD) reaction by using a luminol analog 8-amino-5-chloro-7-phenylpyrido[3,4-d]pyridazine-1,4-(2H,3H)dione sodium salt (L-012)-mediated chemiluminescence (CL) response. Addition of a high activity of superoxide dismutase (SOD), a potent O2* scavenger, and of a high concentration of 5,5-dimethyl-1-pyrroline-N-oxide (DMPO), a potent spin trapping agent, diminished completely the CL response. Whereas a high concentration of dimethyl sulfoxide (DMSO), as a potent *OH scavenger could not attain to the complete diminishment of the CL response. It has been reported that luminol monoanion reacts with *OH to form luminol radical, and then resultant luminol radical reacts with O2* to elicit CL response. Complete scavenging for *OH is assumed to result in lack of luminol radical, which in turn induces lack of CL response. However, our results did not support the idea. Furthermore, we examined the effect of L-012 on the DMPO-OOH formation in the presence or absence of DMSO in the HPX-XOD system by applying an electron spin resonance (ESR)-spin trapping method. The DMPO-OOH formation was inhibited even in the presence of DMSO, and the rate constant (k2) between L-012 and O2* obtained in the presence of DMSO was 9.77 x 10(2) M(-1) s(-1) and the constant in the absence of DMSO was 2.97 x 10(3) M(-1) s(-1). The data suggests that L-012 is converted to a radical form that reacts with O2* even under the conditions of the absence of *OH. From these, we postulate that the existence of a reactive intermediate oxygen species in the HPX-XOD system.
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PMID:Existence of a new reactive intermediate oxygen species in hypoxanthine and xanthine oxidase reaction. 1867 Jan 27

The roles of the Pseudomonas aeruginosa-derived pigment pyocyanin (PYO) as an oxidant and activator of the proinflammatory transcription factor NF-kappaB were tested in a cystic fibrosis (CF) airway epithelial cell line, CF15. 100 microm PYO on its own had no effect or only small effects to activate NF-kappaB (<1.5-fold), but PYO synergized with the TLR5 agonist flagellin. Flagellin activated NF-kappaB 4-20-fold, and PYO increased these activations >2.5-fold. PYO could have synergized with flagellin to activate NF-kappaB by redox cycling with NADPH, generating superoxide (O(2)*), hydrogen peroxide (H(2)O(2)), and hydroxyl radical (HO*). Cytosol-targeted, redox-sensitive roGFP1 and imaging microscopy showed that 1-100 microm PYO oxidized CF15 cytosol redox potential (Psi(cyto)) from -325 mV (control) to -285 mV. O(2)* (derived from KO(2)*. or xanthine + xanthine oxidase) or H(2)O(2) oxidized Psi(cyto) dose-dependently but did not activate NF-kappaB, even in the presence of flagellin, and 400 microm H(2)O(2) inhibited NF-kappaB. Overexpressing intracellular catalase decreased effects of PYO and H(2)O(2) on Psi(cyto) but did not affect flagellin + PYO-activated NF-kappaB. Catalase also reversed the inhibitory effects of H(2)O(2) on NF-kappaB. The HO* scavenger DMSO did not alter the effects of PYO on Psi(cyto) and NF-kappaB. The synergistic NF-kappaB activation was calcium-independent. Thus, in the presence of flagellin, PYO activated NF-kappaB through a redox- and calcium-independent effect.
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PMID:Redox-independent activation of NF-kappaB by Pseudomonas aeruginosa pyocyanin in a cystic fibrosis airway epithelial cell line. 1868 96


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