EC:1.17.3.2 - FACTA Search

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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)

The protective effect of allopurinol, an inhibitor of the enzyme, xanthine oxidase, against the renal ischaemia-reperfusion of the rat was investigated. Rats were subjected to renal ischaemia by clamping of the left renal artery and vein for 45 min, and were then reperfused for 24 h; these animals were randomized to receive either saline (n = 10) or allopurinol (n = 10) at a dose of 50 mg/kg bolus intraperitoneally 5 min before reperfusion. The control group comprised seven healthy rats not exposed to ischaemia or reperfusion. The blood urea nitrogen and plasma creatinine levels were increased in the allopurinol group, but the increase was less than that in the placebo group, compared with the controls. The kidney glutathione level was significantly reduced in the placebo group but not in the allopurinol group compared with the controls. The glutathione peroxidase activity in the kidney tissues was reduced more than two-fold in the placebo group compared with the controls, but the reduction in glutathione peroxidase was considerably less in the allopurinol group. Renal tissue lactate dehydrogenase, aspartate amino-transferase, gamma-glutamyl transferase and alkaline phosphatase activities were reduced almost two-fold in the placebo group, but allopurinol treatment maintained these enzyme activities close to the control activities. These results provide evidence that allopurinol treatment may have beneficial effects on antioxidant defences against ischaemia-reperfusion injury of rat kidneys.
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PMID:Beneficial effects of allopurinol on glutathione levels and glutathione peroxidase activity in rat ischaemic acute renal failure. 867 98

The involvement of active oxygen has been suggested in the development of cerulein-induced acute pancreatitis in rats. Previously, we directly detected pancreatic active oxygen (O2-) production in rats with cerulein-induced pancreatitis by using a supersensitive photon counter and a cypridina luciferin analogue (MCLA) that reacts specifically with O2- by emitting luminescence. In the present study, with the specific aim of determining the source of O2-, we prepared two groups of animals with cerulein-induced pancreatitis: those treated with allopurinol, a xanthine oxidase inhibitor; and those treated with nitrogen mustard, a leukopenia-inducing substance. In each of these two groups, pancreatic O2- production and the severity of pancreatic injuries were comparatively studied. In the leukopenic animal group, decreases in O2- dependent chemiluminescence and improvement in the pancreatic condition coincided. This suggests that neutrophils might be involved in experimentally induced pancreatitis as a source of active oxygen.
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PMID:The involvement and sources of active oxygen in experimentally induced acute pancreatitis. 872 Jun 65

Products released from activated macrophages have been demonstrated to have microbicidal activity against a variety of microorganisms. Reactive oxygen intermediates (ROI) and reactive nitrogen intermediates (RNI) have been shown to affect the induction of degenerate (crisis) forms of Plasmodium spp. Polyamines are degraded into acrolein which has also been shown to be toxic to Plasmodium spp. We have investigated the possibility that these products act similarly with Babesia bovis. Crisis forms of B. bovis developed in erythrocyte cultures after the introduction of supernatants containing ROI, RNI, and acrolein. Xanthine degradation by xanthine oxidase leads to the formation of superoxide anion, hydrogen peroxide, and hydroxyl radicals. The degradation in the presence of B. bovis was toxic to the parasite. The toxicity was partially reversed by the addition of the ROI scavenger catalase. However, H2O2 added directly had little effect, suggesting a role for the other ROI products. Spermine degradation by polyamine oxidase and direct addition of acrolein was toxic in a dose-dependent manner. Finally, spontaneous generation of nitric oxide from sodium nitroprusside or S-nitroso-N-acetyl-penicillamine was also toxic in a dose-dependent manner. These data lead us to suggest a role for activated macrophages in the primary immune response against B. bovis.
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PMID:Reactive oxygen and nitrogen intermediates and products from polyamine degradation are Babesiacidal in vitro. 878 95

Reactive oxygen species are involved in luminol chemiexcitation induced in biological systems, but the contribution of nitrogen-derived oxidants in the process still remains unclear. Herein, we report that luminol chemiluminescence (LCL) induced by a superoxide (O2.-)- and hydrogen peroxide (H2O2)-generating system (2-25 mU/ml xanthine oxidase plus acetaldehyde and oxygen) was markedly inhibited by nitric oxide (.NO) added either as bolus (0-10 microM) or a continuous flow (0-10 microM/min). However, the inhibition of LCL was followed by an overshoot in light emission after most .NO was consumed or the infusion stopped and was due to reactions of remaining peroxynitrite, the product of the reaction between O2.- and .NO, with luminol. Nitric oxide also inhibited peroxynitrite- and glucose oxidase-induced LCL, but no overshoot was observed. On the other hand, a continuous flux of pure peroxynitrite, at 2 to 10 microM/min, induced LCL with quantum yields close to those obtained by identical micromolar fluxes of O2.-, while peroxynitrite formed from the decomposition of the sydnonimine SIN-1 yielded 76% of the chemiluminescence obtained with authentic peroxynitrite. Peroxynitrite-induced LCL was 80 and 55% inhibitable by SOD and catalase, respectively, showing that there were O2.- and H2O2-dependent routes of chemiexcitation. The hydroxyl radical scavengers dimethyl sulfoxide, mannitol, and ethanol and the metal chelator diethylenetriaminepentaacetic acid did not inhibit peroxynitrite-induced LCL while desferrioxamine was an efficient inhibitor of light emission by reaction with an activated state of peroxynitrous acid which is responsible of performing the initial one-electron oxidation of luminol. Our results are consistent with a dual role of .NO in O2.(-)-induced LCL: (I) formation of peroxynitrite which in turn promotes the light-emitting route and (II) reaction with luminol radical intermediates directing the system toward a dark pathway. These considerations are of critical importance when analyzing cell- and tissue-derived LCL in .NO-, O2.(-)-, and peroxynitrite-producing systems.
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PMID:Modulatory role of nitric oxide on superoxide-dependent luminol chemiluminescence. 880 69

Reactive oxygen species (ROS) have been implicated in the pathogenesis of a wide variety of respiratory diseases. We investigated mechanisms of ROS-induced mucin secretion by guinea pig tracheal epithelial (GPTE) cells in primary culture, and ROS-induced activation of the second messenger-producing enzyme phospholipase C (PLC), in GPTE cells and in a virally transformed cell line (BEAS-2B) derived from human bronchial epithelium. Mucin secretion was measured by a monoclonal antibody-based enzyme-linked immunosorbent assay, and PLC activation was assessed by anion exchange chromatography. ROS generated enzymatically by xanthine oxidase (XO, 500 microM) in the presence of purine (500 microM) enhanced release of mucin by GPTE cells and activated PLC in GPTE and BEAS cells. Hypersecretion of mucin and activation of PLC in response to purine + XO appeared to occur via an intracellular pathway(s) dependent on endogenously produced nitric oxide and possibly intracellularly generated oxidants. Both responses could be blocked or attenuated by preincubation of the cells with NG-monomethyl-L-arginine, an inhibitor of the enzyme nitric oxide synthase, or with dimethylthiourea, a compound that can react with a variety of intracellular oxidant species. Reactive nitrogen species generated chemically also stimulated secretion of mucin and activated PLC via a mechanism dependent (at least in part) on intracellular oxidant-mediated process(es). The results suggest that intracellularly generated radical species of nitrogen and oxygen may be important modulators of the response of airway epithelial cells to external oxidant stress.
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PMID:Oxidant stress stimulates mucin secretion and PLC in airway epithelium via a nitric oxide-dependent mechanism. 894 30

The effects of reactive oxygen species (ROS) on myocardial antioxidants and on the activity of oxidative mitochondrial enzymes were investigated in the following groups of isolated, perfused rat hearts. I: After stabilization the hearts freeze clamped in liquid nitrogen (n = 7). II: Hearts frozen after stabilization and perfusion for 10 min with xanthine oxidase (XO) (25 U/l) and hypoxanthine (HX) (1 mM) as a ROS-producing system (n = 7). III: Like group II, but recovered for 30 min after perfusion with XO + HX (n = 9). IV: The hearts were perfused and freeze-clamped as in group III, but without XO + HX (n = 7). XO + HX reduced left ventricular developed pressure and coronary flow to approximately 50% of the baseline value. Myocardial content of hydrogen peroxide (H2O2) and malondialdehyde (MDA) increased at the end of XO + HX perfusion, indicating that generation of ROS and lipid peroxidation occurred. Levels of H2O2 and MDA normalized during recovery. Superoxide dismutase, reduced glutathione and alpha-tocopherol were all reduced after ROS-induced injury. ROS did not significantly influence the tissue content of coenzyme Q10 (neither total, oxidized, nor reduced), cytochrome c oxidase, and succinate cytochrome c reductase. The present findings indicate that the reduced contractile function was not correlated to reduced activity of the mitochondrial electron transport chain. ROS depleted the myocardium of antioxidants, leaving the heart more sensitive to the action of oxidative injury.
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PMID:Exogenous reactive oxygen species deplete the isolated rat heart of antioxidants. 895 32

Nitric oxide (NO) is a widespread signaling molecule involved in the regulation of an impressive spectrum of diverse cellular functions. Superoxide anions (O-2) not only contribute to the localization of NO action by rapid inactivation, but also give rise to the formation of the potentially toxic species peroxynitrite (ONOO-) and other reactive nitrogen oxide species. The chemistry and biological effect of ONOO- depend on the relative rates of formation of NO and O-2. However, the simultaneous quantification of NO and O-2 has not been achieved yet due to their high rate of interaction, which is almost diffusion-controlled. A sensitive spectrophotometric assay was developed for the simultaneous quantification of NO and O-2 in aqueous solution that is based on the NO-induced oxidation of oxyhemoglobin (oxyHb) to methemoglobin and the O-2-mediated reduction of ferricytochrome c. Using a photodiode array photometer, spectral changes of either reaction were analyzed, and appropriate wavelengths were identified for the simultaneous monitoring of absorbance changes of the individual reactions. oxyHb oxidation was followed at 541.2 nm (isosbestic wavelength for the conversion of ferri- to ferrocytochrome c), and ferricytochrome c reduction was followed at 465 nm (wavelength at which absorbance changes during oxyHb to methemoglobin conversion were negligible), using 525 nm as the isosbestic point for both reactions. At final concentrations of 20 microM ferricytochrome c and 5 microM oxyHb, the molar extinction coefficients were determined to be epsilon465-525 = 7.3 mM-1 cm-1 and epsilon541.2-525 = 6.6 mM-1 cm-1, respectively. The rates of formation of either NO or O-2 determined with the combined assay were virtually identical to those measured with the classical oxyhemoglobin and cytochrome c assays, respectively. The assay was successfully adapted to either kinetic or end point determination in a cuvette or continuous on-line measurement of both radicals in a flow-through system. Maximal assay sensitivity was approximately 25 nM for NO and O-2. Cross-reactivity with ONOO- was controlled for by the presence of L-methionine. Generation of NO from the NO donor spermine diazeniumdiolate could be reliably quantified in the presence and absence of low, equimolar, and high flux rates of O-2. Likewise, O-2 enzymatically generated from hypoxanthine/xanthine oxidase could be specifically quantified with no difference in absolute rates in the presence or absence of concomitant NO generation at different flux rates. Nonenzymatic decomposition of 3-morpholinosydnonimine hydrochloride (100 microM) in phosphate buffer, pH 7.4 (37 degrees C), was found to be associated with almost stoichiometric production of NO and O-2 (1.24 microM NO/min and 1.12 microM O-2/min). Assay selectivity and applicability to biological systems were demonstrated in cultured endothelial cells and isolated aortic tissue using calcium ionophore and NADH for stimulation of NO and O-2 formation, respectively. Based on these data, a computer model was elaborated that successfully predicts the reaction of NO and O-2 with hemoprotein and may thus help to further elucidate these reactions. In conclusion, the nitric oxide/superoxide assay allows the specific, sensitive, and simultaneous detection of NO and O-2. The simulation model developed also allows the reliable prediction of the reaction between NO and O-2 as well as their kinetic interaction with other biomolecules. These new analytical tools will help to gain further insight into the physiological and pathophysiological significance of the formation of these radicals in cell homeostasis.
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PMID:The nitric oxide/superoxide assay. Insights into the biological chemistry of the NO/O-2. interaction. 909 31

Nitric oxide (NO.) and superoxide (O2-) are inflammatory mediators. Their formation seems to be associated with apoptotic and/or necrotic cell death in diseases such as mesangioproliferative glomerulonephritis in which the early phase of mesangiolysis is linked to significant NO. production. Notably, mesangial cells (MC) not only generate NO. but also O2- after cytokine stimulation. Here we investigated the interrelation between NO. and O2- in MC death by generating both radicals with the use of NO donors (S-nitrosoglutathione, spermine-NO) and O2(-)-generating systems (2,3-dimethoxy-1,4-naphtoquinone, hypoxanthine/xanthine oxidase). Exogenously supplied NO. or O2- in a concentration-dependent manner induced apoptosis and/or necrosis. Apoptosis is characterized by chromatin condensation and DNA fragmentation in contrast to necrotic cytoplasmatic membrane rupture. Noteworthy, coincubation of NO. and O2- was cross-protective. Maximum protection required the existence of a balanced NO./O2- ratio. Analysis in cytokine-stimulated MC suggests endogenous radical formation, which may participate in modulating apoptosis. Manipulation of the endogenous NO./O2- ratio by exogenous, sublethal S-nitrosoglutathione in addition to cytokines produced death, which was antagonized by inducible nitric oxide synthase (iNOS) inhibition. Moreover, pyrrolidine dithiocarbamate supplementation, which down-regulates iNOS expression and blocks superoxide dismutase activity, initiates apoptosis. Our results imply the participation of reactive nitrogen and oxygen species in determining life and death of MC.
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PMID:The balance between nitric oxide and superoxide determines apoptotic and necrotic death of rat mesangial cells. 914 12

Reactive oxygen and nitrogen metabolites play a complex role in many diseases and in metabolic regulation. Because viruses replicate in living cells, such metabolites influence the growth of viruses in addition to serving as a host defense mechanism. Low levels of reactive oxygen species (ROS) play a role in mitogenic activation, and the early phase of lytic and nonlytic virus infection indeed resembles that of mitogenic cell activation. In addition to these subtle cell-activating effects shared by many viruses, influenza and paramyxoviruses activate a respiratory burst in phagocytic cells. These viruses are toxic when injected in animals. Cells lavaged from the lungs of mice infected with influenza virus are primed for enhanced superoxide generation. Moreover, xanthine oxidase is enhanced and the buffering capacity of small molecular antioxidants is decreased in the lungs, suggesting that infection leads to oxidative stress. The wide array of cytokines produced in the lungs during influenza could contribute to the systemic effects of influenza. Oxidative stress has also been shown in human immunodeficiency virus (HIV) infection in humans. Via activation of NF kappa B, ROS may activate viral replication, but oxidants are believed to contribute also to the loss of CD4 T cells by apoptosis. Antioxidants, together with agents interfering with the harmful effects of cytokines and lipid mediators, may have a role in the treatment of viral diseases. Such agents could not only alleviate disease symptoms but also decrease the long-term effects of chronic oxidative stress, which have been linked to the development of cancer in some viral infections.
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PMID:Oxidants and antioxidants in viral diseases: disease mechanisms and metabolic regulation. 916 74

Apoptosis is a major mechanism of T cell elimination during ontogeny and tolerance induction as well as in autoimmunity. To assess the possible involvement of reactive oxygen and nitrogen intermediates (ROI and NO.) in T-cell apoptosis during autoimmune demyelination we investigated the effects of H2O2 and NO. in vitro on activated autoreactive CD4+ T cell lines capable of transferring experimental autoimmune encephalomyelitis (EAE) and experimental autoimmune neuritis (EAN). For detection and quantitation of apoptotic cells, DNA fragmentation was assessed by in situ tailing with fluorescein-ddUTP and subsequent flow cytometric analysis. H2O2 applied directly to the cell cultures for 6 to 18 hr at concentrations of 10 to 300 microM and ROI released by combination of hypoxanthine and xanthine oxidase (HX/XO) caused apoptosis in a dose-dependent manner in 13-33% of T cells of neuritogenic and encephalitogenic T cell lines. Apoptosis induction could be suppressed by the H2O2-neutralizing enzyme catalase. NO. released by the penicillamine derivative SNAP induced apoptosis to a similar extent as ROI. Maximum values were 38% in an encephalitogenic V beta 8.2-T cell receptor-bearing T cell line and 26% in a neuritogenic T cell line. T cell lines with specificity to ovalbumin revealed slightly lower susceptibility to apoptosis induction by all three kinds of trigger, which is, however, most probably not due to the different antigen specificity, but rather a result of fewer in vitro restimulation cycles of these cells. In neuritogenic cells high-dose (100 units/ml) exogenous interleukin-2 (IL-2) prevents H2O2-induced apoptosis. In conclusion, macrophage-derived reactive oxygen and nitrogen intermediates have the potency to limit inflammatory demyelination by elimination of autoreactive and bystander T cells via apoptotic cell death, and IL-2 is a rescue factor.
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PMID:Apoptosis of myelin-reactive T cells induced by reactive oxygen and nitrogen intermediates in vitro. 918 92

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