EC:1.17.3.2 - FACTA Search

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)

Three classical direct nitric oxide (NO) donors, 3-morpholine-sydnonimine (SIN-1), S-nitroso-N-acetyl-d,l-penicillamine (SNAP) and sodium nitroprusside (NaNP) as well as two indirect NO donors, molsidomine (MSL) and glyceryl trinitrate (GTN) were studied for their potencies to generate O2-, to scavenge O2-, to consume molecular oxygen and to inhibit lipid oxidation. Out of five NO donors only those which were spontaneous releasers of NO at physiological pH were also scavengers of O2- which has been generated by xanthine:xanthine oxidase system (SIN-1 IC50 19 microM, SNAP IC50 416 microM) and inhibitors of the Fe3+ and ascorbate stimulated oxidation of rat liver lipids (SIN-1 IC50 76 microM, SNAP IC50 12 microM). Only SIN-1 at high concentrations of 300-5000 microM generated O2- as detected by a SOD inhibitable reduction of nitroblue tetrazolium. None of the in vitro studied activities were exerted by NaNP, MLS and GTN.
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PMID:Nitric oxide donors as generators and scavengers of superoxide anions. 840 59

In many clinical situations, including cardiac ischemia/reperfusion, elective cardiac arrest, and renal dialysis, the chances of increased production of oxygen free radicals (OFR) exist. OFR have been implicated as a causative factor of cell damage in several pathologic conditions. The effects of exogenous OFR, generated by xanthine plus xanthine oxidase, in the absence and in the presence of OFR scavenger (superoxide dismutase [SOD]) on the contractility of isolated perfused heart of rabbit were studied. OFR produced concentration-dependent decreases in the contractility of perfused heart. SOD prevented the OFR-induced decreases in the left ventricular contractility. Xanthine produced an increase in the contractility of isolated perfused rabbit's heart. Xanthine oxidase produced a marked decrease in the left ventricular contractility. Repeated administration of xanthine oxidase produced accelerated and greater decreases in the contractility of perfused heart when compared with that of the initial administration of the drug. Effects of xanthine or xanthine oxidase on the cardiac function and contractility were also studied in anesthetized dogs. Xanthine alone had no significant effect on the cardiac function and indices of myocardial contractility. However, xanthine oxidase produced a marked decrease in the mean aortic pressure, left ventricular work index, heart rate, cardiac index, left ventricular systolic pressure, left ventricular end-diastolic pressure, (+) and (-) dp/dt of left ventricular pressure, and other indices of myocardial contractility [(dp/dt)/PAW (pulmonary arterial wedge pressure)]; and an increase in the total systemic and pulmonary vascular resistance. Repeated administration of xanthine oxidase in anesthetized dogs had lesser effects on the cardiovascular system when compared with those from the initial dose of the drug. These results suggest that OFR are cardiac depressant. Clinical situations wherein there is an increased production of OFR or increased formation of xanthine and xanthine oxidase may be associated with decreased cardiac function and contractility. Scavengers of OFR may protect the heart from the deleterious effects of OFR in such clinical conditions.
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PMID:Cardiac depressant effects of oxygen free radicals. 845 76

We have investigated the relationship between intracellular glutathione levels and the inducibility of the mRNAs encoding the major antioxidant enzymes Cu,Zn superoxide dismutase (Cu,Zn SOD), catalase (CAT), glutathione peroxidase (GP), and the stress protein heme oxygenase (HO) following exposure of human umbilical vein endothelial cells (HUVEC) to either hypoxanthine-xanthine oxidase or 95% O2. Treatment of HUVEC with 2 and 200 microM buthionine sulfoximine (BSO) for 16 h reduced total glutathione (GSH) levels by 51 and 95%, respectively, whereas treatment with 100 microM diethylmaleate (DEM) for 24 h increased the cellular GSH content by 58%. None of these treatments affected the responsiveness of HUVEC to a subsequent oxidant challenge, in terms of antioxidant enzymes activities and mRNA levels. On the contrary, HO mRNA was significantly induced by both BSO and DEM, as well as by hyperoxia, albeit to a different extent. We conclude that intracellular redox changes do not appear to regulate the expression of the mRNAs encoding Cu,Zn SOD, CAT, and GP. Furthermore, factors other than endogenous thiols may play a role in the control of HO mRNA expression.
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PMID:Variable glutathione levels and expression of antioxidant enzymes in human endothelial cells. 849 25

The aim of this study was to determine whether lipids are damaged by myeloperoxidase (MP) not only with hydrogen peroxide (H2O2), but also with a H2O2-generating system. Using the hypoxanthine-xanthine oxidase-Cu,Zn-superoxide dismutase (HX-XO-SOD) system as an effective H2O2-generating system, we observed a reduction in the ability of MP to produce peroxylipids in the HX-XO-SOD-MP system, compared with the H2O2-MP system. We also noted that MP inhibited the production of monoepoxide by the H2O2-cytochrome c (Cyt c) system. These results suggest that MP plays a role as an absorber of active oxygen species and prevents phagocytes from self-destruction.
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PMID:Superoxide anion reduces the ability of myeloperoxidase to damage lipids. 860 38

The scavenging effect of Chinonin on NO and oxygen free radicals and its protective effect on myocardium from the ischemia-reperfusion injury was studied with electron spin resonance (ESR) and chemiluminescence techniques. Chinonin can effectively inhibit the oxidative activity of ONOO-, (the IC50 = 7 x 10 (-5) mmol/L) and scavenge oxygen free radicals generated from the reaction of xanthine and xanthine oxidase (the IC50 = 2/5 x 10(-4) mmol/l). It is difficult to find another antioxidant which can scavenge so effectively both ONOO- and oxygen free radicals simultaneously. In the system of ischemia-reperfusion injury of myocardium, Chinonin can, in parallel, scavenge the NO and oxygen free radicals generated from the ischemia-reperfused myocardium, and decrease the activities of lactate dehydrogenase (LDH) and creatine kinase (CK) in the coronary artery effluent of ischemia-reperfused heart and therefore protect the heart from ischemia-reperfusion injury. The protective effect of 0.1 mmol/l Chinonin is similar to that of 1500 U/ml SOD and catalase.
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PMID:Scavenging effect of Chinonin on NO and oxygen free radicals and its protective effect on the myocardium from the injury of ischemia-reperfusion. 860 70

Hemolymph of M. Edulis is rich in phagocytic hemocytes. Hemocytes contain numerous lysosomes which, in turn, contain various hydrolytic enzymes. Phagocytic activity of M. edulis hemocytes is thought to be associated with NAD(P)H-oxidase activity of the plasma membrane. The laser dye, dihydrorhodamine 123 (DHR), was used for cytochemical and biochemical detection of the generation of reactive oxygen species (ROS) by isolated M. edulis hemocytes. Hemocytes readily take up DHR from the suspension medium and selectively concentrate it in the lysosomes, wherein DHR is oxidized to fluorescent rhodamine 123. Concomitant uptake of DHR with superoxide dismutase or the spin-trap, tert-phenylbutyl nitrone, but not catalase markedly reduced fluorescence in the lysosomes implicating superoxide anion (O2-) but not hydrogen peroxide (H2O2) in DHR oxidation. Uptake of the anthraquinone, purpurin, and FeEDTA with DHR greatly amplified fluorescence within the lysosomes. These data are consistent with uptake of xenobiotics by hemocytes and their concentration in lysosomes wherein, ROS are generated in response to their accumulation. The rate of DHR oxidation by hemocytes was not stimulated by zymosan, a known stimulator of the oxidative burst. In vitro studies using the xanthine oxidase/hypoxanthine reaction to generate O2- and selective inhibitors of ROS production indicated that DHR is oxidized by O2- and H2O2 but not by .OH and that iron can participate in the reaction. Incubating isolated hemocytes promoted low-level, SOD-sensitive, FeEDTA-stimulated production of ethylene from alpha-keto-gamma-methiolbutyric acid, indicating the in situ formation of .OH via production of O2-. The above suggest that enhanced production of ROS in M. edulis hemocytes by xenobiotic accumulation within the lysosomal compartment should be considered in the toxic sequelae of exposure of marine molluscs to chemical pollutants.
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PMID:Production of reactive oxygen species by hemocytes from the marine mussel, Mytilus edulis: lysosomal localization and effect of xenobiotics. 864 15

In this study, the activities of major enzymes participating in free radical metabolism (xanthine oxidase, XO; Cu,Zn and Mn superoxide dismutases, SOD; glutathione peroxidase, GSH-Px; catalase, CAT) were measured in kidney tissues from guinea pigs treated with gentamicin alone (200 mg/kg/day), gentamicin plus vitamin C (600 mg/kg/day), gentamicin plus vitamin E (400 mg/kg/day), and gentamicin plus vitamins C and E together for 10 days, and from animals treated with physiological saline solution alone during this period. We found no significant differences between control and gentamicin groups with respect to XO and Cu,Zn-SOD activities. However, the activities of Mn-SOD, GSH-Px, and CAT were found to be significantly depressed in the gentamicin-treated group relative to controls. In the gentamicin plus vitamin C group, the renal tissue Mn-SOD activity was found to be higher as compared with control and gentamicin groups. In this group, XO, GSH-Px and CAT activities were also higher than in the gentamicin-treated group, but no statistically significant differences existed between the values of this group and controls. Similar results were also observed in the gentamicin plus vitamin E group for Mn-SOD, GSH-Px, CAT, and XO. In this group, the Cu,Zn-SOD activity was found to be decreased as compared with control and gentamicin groups. In the gentamicin plus vitamins C and E group, the Cu,Zn-SOD activity was found to be decreased, the XO activity to be unchanged, and Mn-SOD, GSH-Px, and CAT activities to be increased as compared with the gentamicin and control groups. The results suggest that the enzymatic antioxidant defense system was significantly disturbed because of the suppressed activities of Mn-SOD, GSH-Px, and CAT in the kidney tissues from animals treated with gentamicin. However, vitamins C and E given concurrently with gentamicin completely abrogated this enzymatic suppression.
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PMID:Reduced enzymatic antioxidant defense mechanism in kidney tissues from gentamicin-treated guinea pigs: effects of vitamins E and C. 868 38

1. The role of copper/zinc superoxide dismutase (Cu/Zn SOD) in protection of nitrergic neurotransmission in the mouse anococcygeus was investigated by use of duroquinone (DQ), which generates superoxide anions within tissues via reduction by flavoprotein enzymes. 2. In control anococcygeus muscles, DQ (10-100 microM) produced concentration-related inhibition (-log IC40 = 4.41) of relaxations to exogenous nitric oxide (NO; 15 microM). Nitrergic relaxations induced by field stimulation (10 Hz; 10 s train) were much less affected, 100 microM DQ reducing nitrergic relaxations by only 14 +/- 6%. 3. Following incubation with the Cu/Zn SOD inhibitor, diethyldithiocarbamate (DETCA; 3 mM; 45 min incubation; 10 min washout), the inhibitory effects of DQ on relaxations to NO were potentiated (-log IC40 = 5.22), and clear, concentration-related inhibitions of nitrergic relaxations were now observed (-log IC40 = 4.54). In both cases, these inhibitions were partially reversed by Cu/Zn SOD (250 u ml-1). In DETCA-treated tissues, DQ (100 microM) also reduced relaxations to sodium nitroprusside (1 microM) and S-nitroso-glutathione (30 microM), but potentiated those to 8-Br-cyclic GMP (100 microM). 4. Neither hydroquinone (HQ: 100 microM) nor 1,4-benzoquinone (BQ: 100 microM), both of which reduced responses to exogenous NO, inhibited relaxations induced by field stimulation in DETCA-treated tissues. Indeed, when added during DQ-induced inhibition of nitrergic relaxations, both HQ and BQ produced partial reversal of the block. 5. DQ had no effect on the detection of superoxide anions estimated via the xanthine:xanthine oxidase chemiluminescence assay, or of authentic NO as measured by a chemical microsensor. However, the detection of both superoxide anions and NO in these assays was inhibited by inclusion of either HQ or BQ. 6. The results support the proposal that nitrergic transmission in the peripheral nervous system is protected by Cu/Zn SOD activity in the region of the neuroeffector junction, and this may explain the lack of effect of superoxide anion generating drugs such as DQ. Such an explanation does not hold for either HQ or BQ, which appear to be acting directly as free radical scavengers in these experiments.
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PMID:Inhibition of relaxations to nitrergic stimulation of the mouse anococcygeus by duroquinone. 871 1

--2-(Dimethylamino) fluorene (1a) and 5-benzoyloxy-2,3,7,8,12,13,17,18-octaethylporphyrin (4) react with superoxide anion radical (generated from KO2/18-crown-6 polyether) in aprotic media. Yet, when incorporated into the lipid bilayer of dimyristoyl phosphatidylcholine liposomes, these two substrates are inert to superoxide, generated enzymatically (xanthine oxidase/acetaldehyde) or radiolytically (60Co or 137Cs source/formate solution). On the other hand, 7-acetoxy-4-methylcoumarin (6), which reacts with superoxide in aprotic media yielding the corresponding 4-methylumbelliferone (7), also gives the same product when incorporated within the liposomal bilayer and reacted with radiolytically or enzymatically generated superoxide. In the latter case, the reaction is inhibited by SOD. NMR studies indicate that in contradistinction to the highly lipophilic 1a and 4, which presumably lie well within the lipid bilayer, 7 lies in a highly polar region of the bilayer. These results suggest that superoxide anion does not penetrate deep into the liposomal bilayer; nevertheless, superoxide reactions can, indeed, be observed, provided the active site of the substrate lies at or near the lipid-water interface.
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PMID:Can superoxide organic chemistry be observed within the liposomal bilayer? 872 33

Using low temperature electron spin resonance (ESR) technique, we found that Salvia miltiorrhiza injection could scavenge the oxygen free radicals generated from ischemia-reperfusion injury in the myocardium as effectively as SOD. Using ESR spin trapping technique we found that one of its effective components, Danshensu, could scavenge superoxide anion free radicals generated from the reaction system of xanthine and xanthine oxidase, and that lipid free radicals generated from lipid peroxidation of myocardial mitochondrial membranes could be scavenged by another effective component, Tanshinone. The membrane fluidity of the mitochondria isolated from the ischemia-reperfused hearts was studied with the ESR spin labelling technique, and the TBA-method was used to detect the lipid peroxidation. It was found that Danshensu could protect the mitochondrial membrane from the ischemia-reperfusion injury and lipid peroxidation.
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PMID:Scavenging effects of salvia miltiorrhiza on free radicals and its protection for myocardial mitochondrial membranes from ischemia-reperfusion injury. 873 39

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