UNIPROT:P47989 - FACTA Search

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)

Growth inhibitory factor (GIF), a brain-specific member of the metallothionein family (MT-III), has been characterized as a inhibitory substance for neurotrophic factors in Alzheimer's disease brains. However, the function of GIF, other than the inhibition of neurotrophic factors, remains unknown. We demonstrate here that exogenous GIF prevents neurite extension of cortical neurons in the early period of differentiation and the death of differentiated neurons caused by high oxygen exposure. Down-regulation of GIF in cortical neurons with antisense S-oligonucleotides promoted neuronal death under high oxygen conditions. ESR spin-trapping studies demonstrated that GIF at 2-6 microm scavenged hydroxyl radicals generated by a Fenton-type reaction or the photolysis of hydrogen peroxide much more effectively than the same concentration of metallothionein I+II. GIF did not scavenge either superoxide produced by the xanthine/xanthine oxidase reaction or NO generated from 1-hydroxy-2-oxo-3-(N-methyl-3-aminopropyl)-3-methyl-1-triazene. Moreover, GIF at 40-80 microm inhibited tyrosine nitration by peroxynitrite as efficiently as metallothionein I+II at the same concentration. These results indicate that GIF prevents neurite extension of neurons in the early period of differentiation and supports the survival of differentiated neurons by scavenging hydroxyl radicals.
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PMID:Growth inhibitory factor prevents neurite extension and the death of cortical neurons caused by high oxygen exposure through hydroxyl radical scavenging. 1205 24

We have examined the mechanism of 1-methyl-3-nitro-1-nitrosoguanidine (MNNG)-induced gastric cancer with respect to the production of hydroxyl free radical (OH). Nucleophilic attack by H2O2 on the nitroso group of MNNG produces 1-methyl-3-nitroguanidine (MNG) and the intermediate peroxynitric acid (ONOOH), which splits into hydroxyl free radical (OH) and nitrogen dioxide leading to the formation of nitric and nitrate ions in water. Xanthine oxidase (XO) induces the production of O2.- or H2O2 from molecular oxygen, depending on the overall level of enzyme reduction. In this study, we examined OH production by the reaction of MNNG with H2O2 derived from the XO-HX system containing XO and the purine substrate hypoxanthine by ESR using the spin trapping reagent 5,5'-dimethyl-1-pyrroline-N-oxide (DMPO). OH was produced in the XO-HX-DMPO system with addition of MNNG (the MNNG-XO-HX-DMPO system) under aerobic conditions, but was not in the XO-HX-DMPO system, and production of OH was inhibited by catalase but not by superoxide dismutase, suggesting that OH was produced by the reaction of MNNG with H2O2 derived from the XO-HX system. The production of OH was significantly increased with increase in the reducing activity of XO, though that of O2.- was not, also suggesting the O2(.-)-independent .OH production. The productions of nitrite ion and MNG in the MNNG-XO-HX system were determined by the colorimetric method and HPLC, respectively. Based on these findings, we conclude that .OH was produced by homolytic split of the intermediate ONOOH formed by nucleophilic attack of H2O2 derived from the XO-HX system on MNNG.
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PMID:Production of hydroxyl free radical in the xanthine oxidase system with addition of 1-methyl-3-nitro-1-nitrosoguanidine. 1218 Jan 89

This paper describes the use of complex liposomes as real membrane models to evaluate the potential benefits of several antioxidants in relation to lipid peroxidation. The xanthine oxidase/Fe(3+)-ADP-EDTA and the Fe(2+)/H2O2 systems have been used to generate hydroxyl radicals and the water soluble azo-compound 2,2'-azobis(2-amidinopropane) dihydrochloride (AAPH) to generate carbon centered radicals (A*) by thermal decomposition. The antioxidant behavior of the rosemary and citrus plant extracts and vitamin-E and vitamin-E acetate alpha-tocopherols have been analyzed. The order of effectiveness in avoiding radical chain reactions has been established by using the colorimetric thiobarbituric acid reaction and the fluorescent probe DPH-PA. ESR spectroscopy has been used to carry out the pursuit of the oxidation processes on the basis of the identification of the radical species resulting from the oxidant system and the ability of the antioxidants to act as scavengers for hydroxyl and AAPH-derived radicals. The modification of the main transition temperature for the lipid mixture and the splitting of the calorimetric peak in the presence of the antioxidants were demonstrated by differential scanning calorimetry. The results obtained showed that the phenols-containing plant extracts and alpha-tocopherols perturb the phase behavior of the BBE lipid bilayer and have a fluidifying effect that could favor the known antioxidant capability and scavenging characteristics of these compounds. 31P-NMR results could be interpreted as, after the incorporation of these antioxidants, those lipid molecules interacting with antioxidants give rise to lamellar phase spectral components with resonance position at lower fields or to isotropic signals in accordance with a higher motion of their phosphate groups.
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PMID:Interaction of tocopherols and phenolic compounds with membrane lipid components: evaluation of their antioxidant activity in a liposomal model system. 1263

Phenolcarboxylic acids (caffeic acid, p-coumaric acid, ferulic acid) and their dehydrogenation polymer (DHP) were compared for their ability to inhibit the nitric oxide (NO) production by lipopolysaccharide (LPS)-activated mouse macrophage-like cells Raw 264.7 and to scavenge superoxide (O2-) (generated by hypoxanthine and xanthine oxidase reaction), hydroxyl radical (generated by Fenton reaction) and NO radical (generated by NOC-7), using ESR spectroscopy in vitro. All phenolcarboxylic acids effectively inhibited the NO production by activated Raw 264.7 cells. Among them, caffeic acid showed the highest cytotoxic activity, radical intensity and O2- scavenging activity, but the least NO scavenging activity. Caffeic acid also inhibited the NO production most effectively. Polymers of caffeic acid (DHP-CA) and p-coumaric acid (DHP-pCA) showed higher cytotoxicity, radical intensity and radical scavenging activity and more efficiently inhibited the NO production, as compared with the corresponding monomers. DHP-CA showed higher radical generation and O2- scavenging activity than DHP-pCA. The potent O2- scavenging activity of caffeic acid was probably due to the chemical reaction of O2- to the cathecol groups. Caffeic acid, DHP-CA and DHP-pCA induced the cytotoxicity, possibly due to autogenerating radicals, because these compounds efficiently produced radicals under alkaline conditions. In summary, caffeic acid acted as a polyphenolics in phenylcarboxylic acids. A possible link between cytotoxicity and radical generation of phenylcarboxylic acids is proposed.
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PMID:Inhibition of NO production by activated macrophages by phenolcarboxylic acid monomers and polymers with radical scavenging activity. 1282 Mar 89

A prolyl endopeptidase inhibitor was isolated from the ethyl acetate soluble fraction of Phyllanthus ussurensis. The active compound was identified as an ellagitannin, corilagin. It was shown to non-competitively inhibit prolyl endopeptidase (PEP) with the IC50 value of 1.17x10(-6) microM. The Ki value was 6.70x10(-7) M. Corilagin was less inhibitory to other serine proteases such as chymotrypsin, trypsin, and elastase, indicating that it was relatively a specific inhibitor of PEP. Corilagin also effectively inhibited reactive oxygen species such as hydroxide and superoxide anion radical, hydrogen peroxide, and DPPH. Especially, corilagin showed potent scavenging activity on the superoxide anion radical in the ESR method (IC50 = 3.79x10(-6) M) as well as xanthine oxidase system.
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PMID:A prolyl endopeptidase-inhibiting antioxidant from Phyllanthus ussurensis. 1472 35

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

The radical scavenging activity of oxidized and reduced idebenone (ID-O and ID-H, respectively) against superoxide radical (O2(-*) was studied in vitro using two methods: (1) O2(-*) radicals were generated enzymatically in a hypoxanthine (HPX)-xanthine oxidase (XOD) system and detected by 5,5-dimethyl-1-pyrroline N-oxide (DMPO) spin trapping. Superoxide dismutase and other scavengers added to this system competed to various extents with DMPO to trap O2(-*) radicals, resulting in a decrease of the ESR signal intensity of the DMPO-OOH spin adduct. ID-O reacted about 12-fold quicker (k = 4.48 x 10(4) M(-1)s(-1)) with the O2(-*) radicals than ID-H (k = 3.62 x 10(3) M(-1)s(-1)) x (2) O2(-*) radicals were generated chemically in potassium superoxide (KO2)-crown ether system. Quinoid compounds reacted with the O2(-*)radicals to form semiquinone radicals that could be observed by ESR. At liquid nitrogen temperature (-196 degrees C), the ESR signal of O2(-*) radicals could be observed directly, thus allowing us to estimate the scavenging activity of ID-O and ID-H. These experiments also revealed that ID-O possesses an O2(-*) radical scavenging activity, whereas ID-H reacts quantitatively much slower. Analyzing various quinone compounds, it has been established that the O2(-*) radical scavenging process is a reversible, most probably oscillating, monovalent electron transfer from superoxide to the quinone, and that the O2(-*) radical scavenging activity depends on the redox potential, i.e., on the actual state of oxidation of the quinones.
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PMID:Superoxide radical scavenging activity of idebenone in vitro studied by ESR spin trapping method and direct ESR measurement at liquid nitrogen temperature. 1537 69

Carotenoid fractions were extracted from red paprika, Valencia orange peel and the peel of Golden delicious apple. Thus, hypophasic carotenoids of paprika (PM1), orange (PM3) and apple (PM4), and epiphasic extractions of paprika (PM2) and apple (PM5) were obtained by extraction, saponification and partition between MeOH-H(2)O (9:1) (hypophasic) and hexane (epiphasic). A high content of capsanthin was quantified in hypophasic carotenoids (PM1) from red spice paprika, whereas the hypophasic fractions from orange (PM3) and apple (PM4) were mainly composed of violaxanthin, zeaxanthin and lutein. On the other hand, a high content of beta,beta-carotene and beta-cryptoxanthin was found in epiphasic fractions (PM2 and PM5). The extracts were studied for their anti-Helicobacter pylori (H. pylori), anti-human immunodeficiency virus (HIV), cytotoxic, multidrug resistance (MDR) reversal and radical scavenging activity. Among five PM extracts and beta,betacarotene, PM4 showed potent anti-H. pylori activity (MIC(50) = 36 microg/mL), comparable to metronidazole (MIC(50) = 45 microg/mL). The extracts were inactive against HIV. PM3 and PM4 showed slightly higher cytotoxic activity against three human tumor cell lines (squamous cell carcinoma HSC-2, HSC-3, submandibular gland carcinoma HSG) and human promyelocytic leukemic HL-60 cells than against three normal human oral cells (gingival fibroblast HGF, pulp cell HPC, periodontal ligament fibroblast HPLF), suggesting a tumor-specific cytotoxic activity. PM1, PM3 and PM4 displayed much higher MDR-reversing activity than (+/-)-verapamil. ESR spectroscopy demonstrated that PM1-5 and beta,beta-carotene produced little or no detectable radical under alkaline conditions and did not scavenge the O(2) (-) produced by the hypoxanthine and xanthine oxidase reaction. On the other hand, PM1 and PM2 scavenged efficiently 1,1-diphenyl-2-picrylhydrazyl (DPPH) radical, whereas singlet oxygen was also quenched efficiently by PM5 and PM2. The data suggest the potential importance of carotenoids as possible anti-H. pylori and MDR reversal agents. The active principles in the carotenoid extract might differ, depending upon the types of fruits and vegetables.
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PMID:Biological activity of carotenoids in red paprika, Valencia orange and Golden delicious apple. 1617 74

The possible anti-stress activity of mulberry juice was investigated in mice. When mice were subjected to water immersion restraint stress at 25 degrees C for 8 h, the plasma lipid peroxide level, determined by the d-ROMs test performed 12 h thereafter, was almost doubled. After administration of mulberry juice one or two weeks before the stress loading, the lipid peroxidation was completely blocked. Administration of mulberry juice after the stress loading, without pre-administration, was also protective. ESR spectroscopy revealed that mulberry juice scavenged superoxide anion (generated by hypoxanthine and xanthine oxidase reaction), hydroxyl radical (produced by the Fenton reaction) and NO radical (generated by a NO donor) at approximately 50% efficiency of blueberry juice. Mulberry juice produced smaller amounts of radical at neutral to alkaline pH. The cytotoxic and anti-HIV activities of mulberry juice were 18% and >4-fold those of blueberry juice, respectively. These data suggest that the anti-stress activity of mulberry juice in vivo may be derived from its radical scavenging activity.
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PMID:Anti-stress activity of mulberry juice in mice. 1690 Jul 80

This study examined the role of acid sphingomyelinase (ASM) and its redox amplification in mediating the formation of lipid raft (LR) redox signaling platforms in coronary arterial endothelial cells (CAECs). Using small interference RNA (siRNA) of ASM, Fas ligand (FasL)-induced increase in ASM activity, production of ceramide, and LR clustering in CAECs were blocked, and clustered Fas was also substantially reduced in detergent-resistant membrane fractions of CAECs. LR clustering, gp91(phox) aggregation, and p47(phox) translocation to the LR clusters induced by FasL were also blocked in ASM-siRNA transfected CAECs. Corresponding to this reduction of LR clustering with NAD(P)H oxidase subunits in ASM-siRNA transfected CAECs, superoxide (O(2)(-*)) production was significantly decreased as measured by either ESR or fluorescent spectrometry. Interestingly, superoxide dismutase (SOD) not only scavenged (O(2)(-*)), but also markedly attenuated LR clustering. Xanthine/xanthine oxidase, an exogenous (O(2)(-*)) generating system, dramatically increased ASM activity and LR clustering in EC membrane and enhanced FasL-induced LR clustering, which were blocked by SOD. These results suggest that that ASM activates LR clustering to form redox signaling platforms, where (O(2)(-*)) production enhances ASM activity, and thereby results in a forwarding amplification of LR and redox signaling. This ASM-mediated feedforwarding mechanism may be critical for an efficient transmembrane signaling through LRs.
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PMID:Acid sphingomyelinase and its redox amplification in formation of lipid raft redox signaling platforms in endothelial cells. 1750 8

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