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)

Aristolochic acid I (AAI) and aristolochic acid II (AAII), the two major components of the carcinogenic plant extract aristolochic acid (AA), are known to be mutagenic and to form DNA adducts in vivo. According to the structures of the major DNA adducts identified in animals and humans, nitroreduction is the crucial pathway in the metabolic activation of these naturally occurring nitroarenes to their ultimate carcinogenic species. Using the nuclease P1-enhanced version of the 32P-post-labelling assay we investigated the formation of DNA adducts by AAI and AAII in different in vitro activation systems in order to determine the most suitable in vitro system mimicking target tissue activation. Although DNA adducts resulting from oxidative activation of AAs have not yet been identified both reductive and oxidative in vitro systems were employed. In vitro incubations were conducted under standardized conditions (0.3 mM AAs; 4 mM dNp as calf thymus DNA) using rat liver microsomes, xanthine oxidase (a mammalian nitroreductase), horseradish peroxidase, lactoperoxidase and chemical reduction by zinc. Enzymatic incubations were performed under aerobic and anaerobic conditions. A combination of two independent chromatographic systems (ion-exchange chromatography and reversed-phase HPLC) with reference compounds was used for the identification of DNA adducts detected by the 32P-post-labelling assay. The two known major adducts of AAI or AAII found in vivo were generated by all in vitro systems except for incubations with AAII and horseradish peroxidase where two unknown adducts predominated. Irrespective of the in vitro activation system used, the majority of adduct spots obtained were identified as the previously characterized four AA-DNA adducts: dA-AAI, dA-AAII, dG-AAI and dG-AAII. This indicates that both reductive and peroxidative activation of AAI or AAII resulted in chromatographically indistinguishable DNA adducts. Thus, peroxidase mediated activation of AAs led to the formation of the same adducts that had been observed in vivo and upon reductive activation in several in vitro systems. Quantitative analyses of individual adducts formed in the various in vitro systems revealed relative adduct labelling (RAL) values over a 100,000-fold range from 4 in 10(3) for activation of AAII to deoxyadenosine adducts by zinc to only 3 in 10(8) for activation of AAII by lactoperoxidase. The extent of DNA modification by AAI was higher than by AAII in all enzymatic in vitro systems. Only activation by zinc resulted in higher total binding to exogenous DNA by AAII than by AAI. Aerobic incubations with rat liver microsomes generated AAI- and AAII-DNA adduct profiles reproducing profiles in target tissue (forestomach) of rats, thus providing the most appropriate activation among the in vitro systems tested.
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PMID:Comparison of DNA adduct formation by aristolochic acids in various in vitro activation systems by 32P-post-labelling: evidence for reductive activation by peroxidases. 916 96

Many forms of active oxygen have been suggested to participate in the course of inflammation. Anti-inflammatory drugs have been considered to function as active oxygen inhibitors. However, detailed mechanisms for such inhibitory activity remain unclear because of little well established methods to study inhibitory effect of anti-inflammatory drugs on active oxygen species. In this report, the author investigated four non-steroidal anti-inflammatory drugs, including acetaminophen, sodium salicylate, naproxen and flurbiprofen, their elimination and inhibition ability of active oxygen, using of the electron spin resonance spin-trapping method and the horseradish peroxidase method. In this experiment as active oxygen models, superoxide was evolved from a hypoxanthine-xanthine oxidase reaction system, and hydrogen peroxide by the spontaneous dismutation reaction. The data here show that the amount of superoxide was reduced in the manner of concentration of non-steroidal anti-inflammatory drugs in the reaction. Kinetic studies for these reaction showed that acetaminophen and sodium salicylate reacted with superoxide competitively, whereas naproxen and flurbiprofen did not. Analysis of generation of hydrogen peroxide formed by the spontaneous dismutation of superoxide derived from the reaction system revealed that hydrogen peroxide was increased by acetaminophen and decreased by sodium salicylate, naproxen and flurbiprofen.
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PMID:Mechanisms of active oxygen species reduction by non-steroidal anti-inflammatory drugs. 920 22

To clarify whether the changes of free radicals and its scavengers are induced by thyroid disorders, we measured levels of free radical scavengers and checked O2 radical generating systems in the human thyroid gland. Thyroid specimens from patients with Graves' disease, follicular adenoma, and papillary and follicular carcinomas contained significantly higher concentrations of xanthine oxidase (XOD) and gluthathione peroxidase (GSH-PX), compared to those in the normal thyroid tissue. Catalase concentration was significantly lower in thyroid specimens from patients with Graves' disease and significantly lower in thyroid specimens from patients with follicular adenoma, compared to those in the normal thyroid tissue. Cu/Zn superoxide dismutase (Cu/Zn SOD) concentration was significantly lower in the specimens from follicular adenoma and papillary carcinoma and Mn SOD concentration was significantly higher in the specimens from papillary carcinoma than those in the normal thyroid tissue. The lipid peroxide concentration, expressed as malondialdehyde (MDA) concentration, was significantly higher in the specimens from papillary carcinoma than those in the normal thyroid tissue. These findings suggest that the levels of free radicals are increased and are scavenged and catalyzed in the thyroid of Graves' disease, whereas free radicals and lipid peroxide are not completely scavenged in papillary carcinoma tissues, suggesting that these substances affect some role in cell function of thyroid tumors.
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PMID:Changes in free radical scavengers and lipid peroxide in thyroid glands of various thyroid disorders. 928 68

Tetrahydroisoquinolines (TIQs) are endogenous compounds deriving from the nonenzymatic Pictet-Spengler condensation of catecholamines (CA) with aldehydes. TIQs have been extensively studied in the last years not only because they have been found in the brain of postmortem specimens of Parkinson's patients, but also because they are able to induce parkinsonian symptoms if injected in animals. In the present article we demonstrate that TIQs bearing a catecholic moiety (tetrahydropapaveroline, salsolinol, laudanosoline, and apomorphine) are easily oxidized in the presence of hydrogen peroxide by various enzymes--i.e., peroxidase (POD), lipoxygenase (LOX), and xanthine oxidase (XO)--into the corresponding TIQ-melanins. The kinetic parameters of the above-mentioned reactions and some spectroscopic characteristics of the synthetized pigments are reported. In particular, UV-VIS and EPR spectra emerge as very similar to those exhibited by dopa-melanin. Furthermore, TIQ-melanins appear to be similar to dopa-melanin regarding some specific physico-chemical properties: NADH-oxidizing properties, oxy-radicals scavenging activity, and ability to form soluble mixed polymers with melanins from opioid peptides.
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PMID:Melanins from tetrahydroisoquinolines: spectroscopic characteristics, scavenging activity and redox transfer properties. 943 26

The antioxidant activity of hemoglobin was examined by studying both its peroxidase activity and its interaction with the superoxide anion. The peroxidase activity of both the subunits (alpha and beta) was reduced with respect to the alpha 2 beta 2 tetramer and heme-oxidation was found to be associated with a decrease in this activity. Lucigenin-amplified chemiluminescence experiments have shown that at low pH, the presence of hemoglobin reduces the level of superoxide anion generated by the xanthine/xanthine oxidase system (met-Hb is more efficient in reducing the level of O2- than oxy-hemoglobin). These results confirm that hemoglobin may be of importance in providing protection against oxidative damage to erythrocytes.
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PMID:Antioxidant activities of different hemoglobin derivatives. 946 55

It has been shown that erythrocyte membrane proteins become susceptible to degradation by membrane-bound serine protease activity after oxidative modification of the membranes (M. Beppu, M. Inoue, T. Ishikawa, K. Kikugawa, Biochim. Biophys. Acta 1196 (1994) 81-87). The aim of the present study was to clarify the presence of the serine protease in oxidized erythrocyte membranes and to characterize the selectivity of the enzyme to oxidized proteins. Human erythrocytes were oxidized in vitro with xanthine/xanthine oxidase/Fe(III) and oxidized membranes isolated. Proteolytic activity of the membranes toward spectrin obtained from oxidized membranes and bovine serum albumin oxidized with H2O2/horseradish peroxidase was increased by membrane oxidation, and the degradability of the substrates was increased by substrate oxidation. The proteolytic activity was inhibited by the serine protease inhibitor diisopropyl fluorophosphate (DFP). The 72 kDa and 80 kDa proteins in the membranes were labeled by [3H]DFP when detected by sodium dodecyl sulfate-polyacrylamide gel electrophoresis under reducing conditions and subsequent fluorography. The 72 kDa protein was found to be a serine enzyme, acetylcholine esterase. The 80 kDa protein appeared to be responsible for the degradation of oxidatively damaged proteins. The 80 kDa protein was loosely bound to membranes and readily solubilized into a 0.1% NP-40 detergent solution. The presence of the same 80 kDa protease in intact erythrocyte cytosol was suggested. The increased serine protease activity in oxidized membranes can result from the increased adherence of the cytosolic 80 kDa serine protease to the membranes due to oxidation.
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PMID:Characterization of membrane-bound serine protease related to degradation of oxidatively damaged erythrocyte membrane proteins. 981 51

The antioxidant properties of carnosine and its components histidine and beta-alanine were compared using several model systems: glutathione-horseradish peroxidase-luminol (GSH-HRP-luminol), xanthine-xanthine oxidase (X-XO), stimulated human blood polymorphonuclear leukocytes (PML), and egg yolk phospholipid liposomes in the presence of Fe2+ ions. Carnosine and histidine (30-40 mM) were shown to cause 50% suppression of free radical reactions in the GSH-HRP-luminol system, whereas beta-alanine displayed no activity. The O(2-)-scavenging activity of carnosine in the X-XO system was demonstrated; 50% inhibition was achieved at 7.1 x 10(-5) M. Suppression of the luminol-dependent PML chemiluminescence by carnosine and reduction of the latent period of the Fe(2+)-induced chemiluminescence of the liposome suspension was suggested to demonstrate its ability to interact with Ca2+ and Fe2+ ions. This was confirmed by the o-phenanthroline test. The results obtained demonstrate that carnosine is capable of scavenging different radicals and binding divalent metal ions. The antioxidant activity of carnosine was observed in all the systems studied, and carnosine effective concentrations corresponded to those found in the brain and muscles. The universal effects of carnosine and its high concentration in excitable tissues suggest this dipeptide to be an inhibitor of free radical reactions in vivo.
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PMID:Effect of carnosine and its components on free-radical reactions. 982 62

Reactive oxygen species such as superoxides, hydrogen peroxide (H2O2) and hydroxyl radicals have been suggested to be involved in the catalytic action of nitric oxide synthase (NOS) to produce NO from L-arginine. An examination was conducted on the effects of oxygen radical scavengers and oxygen radical-generating systems on the activity of neuronal NOS and guanylate cyclase (GC) in rat brains and NOS from the activated murine macrophage cell line J774. Catalase and superoxide dismutase (SOD) showed no significant effects on NOS or GC activity. Nitroblue tetrazolium (NBT, known as a superoxide radical scavenger) and peroxidase (POD) inhibited NOS, but their inhibitory actions were removed by increasing the concentration of arginine or NADPH respectively, in the reaction mixture. NOS and NO-dependent GC were inactivated by ascorbate/FeSO4 (a metal-catalyzed oxidation system), 2'2'-azobis-amidinopropane (a peroxy radical producer), and xanthine/xanthine oxidase (a superoxide generating system). The effects of oxygen radicals or antioxidants on the two isoforms of NOS were almost similar. However, H2O2 activated GC in a dose-dependent manner from 100 microM to 1 mM without significant effects on NOS. H2O2-induced GC activation was blocked by catalase. These results suggested that oxygen radicals inhibited NOS and GC, but H2O2 could activate GC directly.
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PMID:The effects of oxygen radicals on the activity of nitric oxide synthase and guanylate cyclase. 989 52

The antioxidant activity of a representative series of free, glycine- and taurine-conjugated bile acids was evaluated by two different chemiluminescent assays: (a) the enhanced chemiluminescence system based on horseradish peroxidase and luminol/oxidant/enhancer reagent, and (b) the hypoxanthine/xanthine oxidase/Fe(2+)-EDTA/luminol system. Bile acids were studied at final concentrations ranging from 1 to 28 mmol/L. All of the bile acids studied inhibited the steady-state chemiluminescent reaction and the extent of inhibition depended upon the structure of the bile acids, whereas the duration was related to bile acid concentration. The mechanism of the light inhibition is probably due to trapping of oxygen free radicals generated in the chemiluminescent reactions, within bile acid micelles. The free radicals trapped into micelles reduced the formation of luminol radicals and consequently the light output; when the micelles were saturated, the oxygen free radicals in solution again produced luminol radicals. The micelle interaction with reactive oxygen species could be a physiological mechanism of defence against the toxicity of those species in the intestinal content. On the other hand, alterations in bile acid organ distribution, concentration and composition leads to a membrane damage caused by their detergent-like properties, which could be associated to oxygen free radical production.
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PMID:Antioxidant properties of bile salt micelles evaluated with different chemiluminescent assays: a possible physiological role. 992 60

This study was designed to determine whether oxygen-derived free radicals play a role in the pathogenesis of gastric mucosal lesions produced by haemorrhagic shock and reperfusion experimental model in the rat. Ranitidine (H2-receptor blocker) in different doses, allopurinol, an inhibitor of xanthine oxidase and SOD (superoxide dysmutase) pre-treatment were used against haemorrhagic shock and reperfusion induced gastric mucosal lesions. Altogether 67 rats were divided into seven different groups. The area of gastric mucosal lesions was measured, the activity of endogenous peroxidase was examined histochemically and histological grading was made. Evans blue was used to demonstrate the improved permeability of gastric mucosal membranes. Ranitidine, in high dose, allopurinol and superoxide dysmutase significantly protected against haemorrhagic shock-induced gastric mucosal lesions, against improved membrane permeability and peroxidation.
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PMID:Experimental study of hypovolaemic shock-induced gastric mucosal lesions in the rat. 1037 31


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