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)

Superoxide (O2-)-dependent lipid peroxidation on addition of xanthine oxidase (XO) and Fe(3+)-ADP was induced in egg phosphatidylcholine (PC) liposomes containing dicetylphosphate (DCP), which are negatively charged like biological membranes, but not in uncharged egg PC liposomes. Positively charged Fe(3+)-ADP interacted more with negatively charged egg PC-DCP liposomes than with uncharged egg PC liposomes. The activities of Fe(3+)-chelates for initiating O(2-)-dependent lipid peroxidation were in the order Fe(3+)-ADP > Fe(3+)-citrate > Fe(3+)-oxalate = Fe(3+)-malonate > Fe(3+)-EDTA = 0. This order was the same as that for the reduction rates of these Fe(3+)-chelates to Fe(2+)-chelates by O(2-)-generated by XO. Lineweaver-Burk plots showed that the chelators inhibited XO by different mechanisms: uncompetitively by ADP and adenosine and non-competitively by organic acid chelators (citrate and oxalate) and EDTA. These results suggest that ADP interacts with XO in a manner different from the other chelators. Lipid peroxidation by XO-xanthine and Fe(3+)-ADP was induced in egg PC liposomes containing a trace (0.31-0.35 mol%) of peroxidized egg PC (PC-OOH), but not in PC-OOH-free liposomes of egg PC obtained by their pretreatment with triphenylphosphine. PC-OOH incorporated into dimyristoyl phosphatidylcholine (DMPC) liposomes was degraded on addition of both XO-xanthine and Fe(3+)-chelate, but not of either one alone. alpha-Tocopherol in DMPC liposomes was oxidized on addition of XO-xanthine and Fe(3+)-chelates in the presence, but not in the absence of PC-OOH. Furthermore, PC-OOH was required for decrease of the ESR spectrum of the spin probe 12-(N-oxyl-4,4'-dimethyloxazolidin-2-yl)stearic acid, which labels the hydrophobic region of egg PC liposome membranes, on addition of XO-xanthine and Fe(3+)-chelates. These results indicate that the "induction message of lipid peroxidation," which is associated with reduction of Fe(3+)-ADP by O2- and concurrent degradation of PC-OOH, must be transferred from the membrane surface to the inner hydrophobic region of the membranes.
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PMID:Dynamics of xanthine oxidase- and Fe(3+)-ADP-dependent lipid peroxidation in negatively charged phospholipid vesicles. 784 Jun 82

Exposure of human nasal ciliated epithelium to reactive oxidants generated by the enzymatic xanthine-xanthine oxidase superoxide/hydrogen peroxide (H2O2) and glucose-glucose oxidase H2O2-generating systems, or to reagent H2O2 or hypochlorous acid (HOCl) resulted in significant alterations in ciliary beating. The earliest change noted was the presence of ciliary slowing, progressing eventually to complete ciliary stasis in some areas. Ciliary dyskinesia was seen within the first hour, often from as early as 15 min after exposure of the cells to reactive oxidants. Using peroxidases, various antioxidant enzymes, and oxidant scavengers, we confirmed that these detrimental effects on ciliary function were mediated primarily by H2O2 and HOCl. Moreover, 3-aminobenzamide (3-ABA), an inhibitor of the DNA repair enzyme poly ADP ribose polymerase, prevented H2O2-mediated inhibition of ciliary function, indicating that oxidant-mediated damage to DNA may well be the basis of the effects of H2O2 on ciliated epithelium. Acute and chronic inflammatory responses may therefore present the possible threat of H2O2- or HOCl-inflicted injury on bystander respiratory epithelium, leading to ciliary dyskinesia and slowing.
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PMID:Oxidant-mediated ciliary dysfunction in human respiratory epithelium. 795 61

Oxidative stress is regarded a major factor in the pathogenesis of both acute and chronic pancreatitis. The mechanisms by which free radicals damage the acinar cells are not yet clear. Standard models of oxidative stress were applied to investigate the susceptibility of isolated rat pancreatic acinar cells and zymogen granules to oxidant attack and to explore the potential of several antioxidants and radical scavengers to prevent such injury. Short-term peak production of free radicals by xanthine oxidase was more injurious to the acinar cells than continual radical generation at a lower level by iron/adenosine diphosphate. Isolated zymogen granules were much more susceptible to oxidative damage that isolated acinar cells. In both models, a combination of catalase and superoxide dismutase effectively prevented cell damage. In contrast, the classical hydroxyl radical scavengers mannitol, dimethyl sulphoxide and dimethyl thiourea, as well as the iron chelator deferoxamine were ineffective and at a higher concentration were even toxic. The novel low molecular weight 21-aminosteroid substances called "lazaroids" showed a highly protective potential when applied at a concentration of 1-50 mumol/l and are therefore considered to be the substances most likely to protect the pancreas cells against oxidative injury. Higher concentrations of the lazaroids, however, also caused additional damage to the cells. The results indicate that multiple radical species and several mechanisms are involved in oxidative injury to the pancreatic acinar cell. From present in vitro data, no single substance can be recommended for use in animal experiments or human studies.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oxidative stress-induced changes in pancreatic acinar cells: insights from in vitro studies. 795 63

Human erythrocytes were oxidized with xanthine/xanthine oxidase/ferric ion or ADP/ferric ion at 37 degrees C for several hours. Band 3 protein and spectrin of the oxidized cells were found to be significantly modified as analyzed by radiolabeling with tritiated borohydride. Sodium dodecylsulfate-polyacrylamide gel electrophoresis of the xanthine/xanthine oxidase/ferric iron-oxidized cells and subsequent immunoblotting with anti band 3 protein showed that band 3 protein was fragmented into smaller molecular-weight fragments. When the cell membrane obtained from the oxidized cells were incubated at pH 7.4 and 37 degrees C for several hours in the presence of alpha-tocopherol, extensive degradation of band 3 protein and spectrin was observed. Band 3 protein was found to be most susceptible to the degradation. Degradation of band 3 protein was also observed after similar incubation of the membrane from the ADP/ferric ion-oxidized cells. Membrane-bound serine- and metalloproteinases were responsible for the degradation of band 3 protein, because the degradation was remarkably inhibited by diisopropyl fluorophosphate and phenylmethylsulfonyl fluoride, and partially by ethylenediaminetetraacetic acid. Hence, the membrane proteins became susceptible to membrane-bound proteinases by oxidative stress. This observation suggests that these membrane-bound proteinases exist to remove oxidatively damaged proteins from the cell membrane.
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PMID:Presence of membrane-bound proteinases that preferentially degrade oxidatively damaged erythrocyte membrane proteins as secondary antioxidant defense. 798 14

Platelet-induced relaxation of endothelium-intact vascular tissues, mediated via release of endothelium-derived relaxing factor (EDRF), is diminished or lost after ischemia and reperfusion. Release of oxygen free radicals during ischemia-reperfusion may degrade EDRF and influence response of vascular tissues to platelets. To determine platelet modulation of tone of blood vessels treated with oxygen free radicals, rat aortic rings with intact endothelium were exposed to xanthine (X) plus xanthine oxidase (XO) 5 min before contraction with norepinephrine followed by exposure of rings to platelets. Treatment of aortic rings with X+XO caused a modest contraction, potentiated norepinephrine-mediated contraction, and inhibited platelet-mediated vasorelaxation. Exposure of aortic rings to X+XO also decreased ADP- as well as acetylcholine-mediated relaxation. Pretreatment of rings with superoxide dismutase or catalase did not change X+XO-induced inhibition of platelet-mediated relaxation, but it abolished the X+XO-induced contraction of rings as well as subsequent potentiation of norepinephrine-mediated contraction. Pretreatment of rings with hydroxyl radical scavengers dimethyl-2-thiourea, dimethyl sulfoxide, mannitol, or histidine attenuated the X+XO-induced inhibition of platelet-mediated relaxation, although these agents did not affect X+XO-induced contraction of rings. This study indicates that the vasoconstriction on exposure of aortic rings to X+XO is due to generation of superoxide anions, whereas inhibition of platelet-mediated relaxation after exposure of vessels to X+XO is due, at least in part, to release of hydroxyl radicals. Release of superoxide anions and hydroxyl radicals after temporary arterial occlusion may be the basis of subsequent modulation of vascular tone.
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PMID:Blockade of platelet-mediated relaxation in rat aortic rings exposed to xanthine-xanthine oxidase. 802 84

In the present work, the role of lipid peroxidation in cellular lethal injury induced by various types of oxidative stress has been studied in both normal and tumor thymocytes. The prooxidants included either a xanthine/xanthine oxidase system, which is an exogenous source of oxyradicals, or tert-butyl hydroperoxide (t-BOOH), which enters the cell and endogenously produces free radicals. Our data demonstrate that: (A) Using xanthine/xanthine oxidase system as a prooxidant, normal thymocytes are more sensitive than thymoma cells to oxidative damage, as their lactate dehydrogenase (LDH) and malondialdehyde (MDA) release is higher than that of tumor cells. By varying Fe3+/ADP ratios, a positive correlation can be established between LDH and MDA release only in normal thymocytes. While thymoma cells still show a very high level of vitamin E (80%) after 15 min of incubation with this prooxidant, normal thymocytes lose it after the same incubation time. (B) Using t-BOOH as a prooxidant, normal thymocytes release a higher amount of MDA but a lower amount of LDH than thymoma cells. In agreement with the results obtained with the xanthine/xanthine oxidase system, by varying the concentrations of the prooxidant, a correlation between LDH and MDA release can be established only in normal thymocytes. Although high levels of the antioxidant are still present in both kinds of cells after 15 min of incubation with t-BOOH, normal thymocytes consume vitamin E faster than thymoma cells. These data suggest that the role of lipid peroxidation in cell lethal injury is influenced by the source and the site of radical production as well as by the cell type. With t-BOOH as a prooxidant in normal thymocytes, lipid peroxidation is only partially involved in the induction of irreversible cell injury, but it plays a crucial role when the xanthine/xanthine oxidase system is used as a prooxidant. Moreover, whatever the prooxidant used in tumor thymocytes, membranes are more resistant to lipid peroxidation, suggesting that this mechanism is not causally related to cell death.
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PMID:Different role of lipid peroxidation in oxidative stress-induced lethal injury in normal and tumor thymocytes. 803 Nov 51

Reactive oxygen metabolites have been reported to affect platelet aggregation. However, this phenomenon is still poorly understood. In the present study we investigated the effects of superoxide radical and hydrogen peroxide (H2O2) on platelet function in vitro and correlated those effects to possible changes of platelet concentrations of cyclic nucleotides and thromboxane, since these systems play a key role in the response of platelets to activating stimuli. Human platelets were exposed to xanthine-xanthine oxidase (X-XO), a system that generates both superoxide radicals and H2O2. Sixty seconds of incubation with X-XO impaired aggregation in response to ADP (by 48%), collagen (by 71%), or the thromboxane mimetic U-46619 (by 50%). This effect was reversible and occurred in the absence of cell damage. Impairment of aggregation in platelets exposed to X-XO was due to H2O2 formation, since it was prevented by catalase but not by superoxide dismutase. Similarly, incubation with the pure H2O2 generator glucose-glucose oxidase also markedly inhibited ADP-induced platelet aggregation in a dose-dependent fashion. Impaired aggregation by H2O2 was accompanied by a > 10-fold increase in platelet concentrations of guanosine 3',5'-cyclic monophosphate (cGMP), whereas adenosine 3',5'-cyclic monophosphate levels remained unchanged. The inhibitory role of increased cGMP formation was confirmed by the finding that H2O2-induced impairment of platelet aggregation was largely abolished when guanylate cyclase activation was prevented by incubating platelets with the guanylate cyclase inhibitor, LY-83583. Different effects were observed when arachidonic acid was used to stimulate platelets. Exposure to a source of H2O2 did not affect aggregation to arachidonate. Furthermore, in the absence of exogenous H2O2, incubation with catalase, which had no effects on platelet response to ADP, collagen, or U-46619, virtually abolished platelet aggregation and markedly reduced thromboxane B2 production (to 44% of control) when arachidonic acid was used as a stimulus. In conclusion, our data demonstrate that H2O2 may exert complex effects on platelet function in vitro. Low levels of endogenous H2O2 seem to be required to promote thromboxane synthesis and aggregation in response to arachidonic acid. In contrast, exposure to larger (but not toxic) concentrations of exogenous H2O2 may inhibit aggregation to several agonists via stimulation of guanylate cyclase and increased cGMP formation.
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PMID:Modulation of platelet function by reactive oxygen metabolites. 804 96

The effect of Adriamycin (ADM) administration on heart mitochondria was investigated in rats at rest and after an acute bout of maximal exercise. ADM was given intravenously at a dosage of 8 mg/kg body weight 24 and 1 hr before rats were decapitated. Respiratory functions of the isolated heart mitochondria were measured polarographically with both site 1 (pyruvate-malate and 2-oxoglutarate) and site 2 (succinate) substrates. State 4 (basal) respiration was increased using all substrates in ADM-treated rat hearts compared with non-drug control hearts. The mitochondrial respiratory control index was decreased with ADM, but the reduction was due to an increase in state 4 rather than a decrease of state 3 (ADP-stimulated) respiration. ADM administration abolished an exercise-induced elevation of state 3 respiration using all substrates. There was no significant myocardial oxidative damage of dysfunction as evaluated by lipid peroxidation and antioxidant enzyme activity. Addition of exogenous free radicals to the respiratory medium using hypoxanthine and xanthine oxidase resulted in significant deterioration of mitochondrial function in all parameters measured, but no drug- or exercise-specific patterns of damage were revealed. It is concluded that the current dose of ADM (20% of the established cumulative toxic dose) administered within 24 hr can interfere with normal heart mitochondrial function both at rest and during heavy exercise, but does not elicit overwhelming oxidative damage to the myocardium.
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PMID:Effects of Adriamycin on heart mitochondrial function in rested and exercised rats. 813 63

Using a lysosome-enriched "light mitochondrial" fraction of a rat liver homogenate, the effects of the reactive oxygen species hydrogen peroxide, superoxide- and hydroxyl radicals were determined. Alterations in the intralysosomal pH and the release of a lysosomal marker enzyme, N-acetyl-glucosaminidase, were used as indicators of changes in the lysosomal membrane integrity. Lipid peroxidation of the fraction was assayed by TBARS measurement. Neither superoxide radicals, generated by hypoxanthine/xanthine oxidase, nor a bolus dose of hydrogen peroxide (0.5-1.5 mM) induced any lysosomal damage. If, however, Fe(III)ADP was included in the superoxide radical-generating system, lysosomal membrane damage was detected, both as an increase in lysosomal pH and as a release of N-acetyl-glucosaminidase, but only after a lag phase of about 7 min. Lipid peroxidation, on the other hand, proceeded gradually. Lysosomes treated with hydrogen peroxide displayed similar dose-dependent alterations, albeit only if both Fe(III)ADP and the reducing amino acid cysteine were added. In the latter system, however, alterations of the lysosomal membrane stability occurred more rapidly, showing a lag phase of only 2 min. Lipid peroxidation, which proceeded faster and displayed no lag phase, levelled out within 10 min. The results indicate that neither superoxide radicals nor hydrogen peroxide are by themselves damaging to lysosomes. Available catalytically active iron in Fe(II) form, however, allows reactions yielding powerful oxidative species--probably hydroxyl radicals formed via Fenton reactions--to take place inducing peroxidation of the lysosomal membranes resulting in dissipation of the proton-gradient and leakage of their enzyme contents.
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PMID:Effect of reactive oxygen species on lysosomal membrane integrity. A study on a lysosomal fraction. 814 62

These experiments are a continuation of our work describing the effect of H2O2 and O2- on DNA strand breaks, NAD pools and poly(ADP-ribose) synthesis in C3H10T1/2 cells (Lautier et al. (1990) Biochem. Cell Biol. 68, 602-608). The current experiments were carried out firstly to evaluate the polymer synthesis in C3H10T1/2 cells exposed to benzamide, oxygen radicals and hyperthermia. Secondly, using four different protocols for the time of addition and removal of benzamide, the lowest benzamide levels shown to inhibit polymer synthesis were used to study the effect on plating efficiency and colony-forming ability of cells exposed to H2O2 and O2(-). Plating efficiency and colony-forming ability were affected by the active oxygen-species-generating system xanthine-xanthine oxidase and 100 microM benzamide. With higher levels of benzamide, this effect disappeared, and 0.5 to 1 mM benzamide were actually protective against the effects of xanthine-xanthine oxidase, suggesting the involvement of other processes in addition to poly(ADP-ribosyl)ation in response to oxygen radical damage.
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PMID:The role of poly(ADP-ribose) metabolism in response to active oxygen cytotoxicity. 816 42


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