UNIPROT:P47989 - FACTA Search

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Query: UNIPROT:P47989 (xanthine oxidase)
8,633 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Many reports concerning the involvement of active oxygen free radicals in the pathogenesis and progression of acute pancreatitis have been published. In this study, the direct toxic effect of active oxygen free radicals on the rat pancreas was evaluated in vivo. Superoxide anions, generated via the xanthine/xanthine oxidase (X/XO) system, and hydrogen peroxide (H2O2) were used. After continuous arterial injection of X/XO into the celiac artery hemorrhage and extensive edema developed. However, additional continuous injection of superoxide dismutase (SOD) into the external jugular vein completely suppressed the hemorrhage and relieved the edema. When hydrogen peroxide (100 microM/Kg/hour) was injected continuously through the celiac artery made hemorrhage and edema were recognized in the pancreas, both of which were suppressed by continuous injection of catalase (10 mg/Kg/hour) or gabexate mesilate (10 mg/Kg/hour) into the external jugular vein. The amylase and lipase levels in the intraperitoneal fluid rose to more than 10 times the preoperative values 5 hours after drug administration. These levels were lowered to 2 times the preoperative values by the continuous venous injection of SOD or catalase (which are specific scavengers of superoxide anions or hydrogen peroxide, respectively) or by gabexate mesilate. On the other hand, serum amylase and lipase levels remained almost constant throughout the entire experiment. Thus, the administration of active oxygen free radicals caused acute pancreatitis, which was suppressed by the systemic administration of specific scavengers for each free radical. Active oxygen free radicals were shown to have a direct, toxic effect on the pancreas.
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PMID:[Effect of oxygen free radicals on the rat pancreas in vivo]. 182 4

Effects of reactive oxygen intermediates generated by hypoxanthine plus xanthine oxidase on the Ca(2+)-adenosinetriphosphatase (ATPase) of sarcoplasmic reticulum from bovine aortic smooth muscle were studied. Exogenous hypoxanthine (0.1-100 microM) plus xanthine oxidase (10 mU/ml) produced an hypoxanthine concentration-dependent inhibition of the Ca(2+)-ATPase. The inhibition could be completely blocked by superoxide dismutase (100 U/ml) but not by either mannitol (20 mM) or deferoxamine (100 microM). Direct addition of hydrogen peroxide in the micromolar range did not cause significant inhibition. These results suggest that superoxide is the primary damaging species. Cysteine blocked this inhibition, suggesting possible involvement of sulfhydryl groups in the inhibition mechanism. Additionally, 1.16 +/- 0.17 mU/g wet wt of xanthine oxidase activity was detected in the postnuclear supernatant of bovine aortic smooth muscle, suggesting the existence of a possible intracellular source of superoxide. This value was calculated to be approximately 5 mU/ml by using a usual value of vascular smooth muscle cellular volume. Thus the level of endogenous xanthine oxidase in vascular smooth muscle is comparable with the level of exogenous xanthine oxidase used in the present study. These findings suggest a potential role of xanthine oxidase-generated superoxide in oxidative damage to vascular smooth muscle during a number of pathophysiological conditions.
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PMID:Inhibition of Ca(2+)-ATPase of vascular smooth muscle sarcoplasmic reticulum by reactive oxygen intermediates. 183 1

The effect of the plant alkaloid ryanodine on the cardiac sarcoplasmic reticulum (SR) function, which plays a major role in the regulation of intracellular calcium and thereby in the generation of force, was studied by determining oxalate-supported calcium uptake, steady-state calcium load, calcium permeability, intravesicular-free calcium and Ca,Mg-adenosine triphosphatase (ATPase) activity of "heavy" vesicles in the presence or absence of the oxygen-free radical-generating system. In vitro generation of oxygen-free radicals by xanthine oxidase (0.09 u/ml), acting on xanthine (25 microM) as a substrate, increased the permeability of the vesicles to calcium, determined by measuring net efflux of calcium after stopping pump-mediated fluxes, and decreased oxalate-supported calcium uptake and steady-state calcium load with no effect on Ca,Mg-ATPase activity. This effect of oxygen-free radicals was inhibited completely by superoxide dismutase, which eliminated completely superoxide anion radical production and caused an anticipated increase in hydrogen peroxide from the xanthine-xanthine oxidase reaction in our system. The xanthine-xanthine oxidase reaction decreased intravesicular-free calcium. The diminished level of intravesicular-free calcium, which was reflected by the decreased steady-state calcium load induced by oxygen-free radicals, was prevented by specific closure of the SR calcium release channel by ryanodine under established optimal conditions; under the same conditions, ryanodine also prevented superoxide dismutase-inhibitable reduction of calcium uptake induced by oxygen-free radicals in the presence or absence of oxalate. Ryanodine was without effect on Ca,Mg-ATPase activity by itself and had no effect on any of the changes in calcium permeability mediated by the generation of oxygen-free radicals under the experimental conditions used.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of ryanodine on oxygen free radical-induced dysfunction of cardiac sarcoplasmic reticulum. 184 30

This study was directed to the ability of oxygen free radicals to cause reversible vascular endothelial cell dysfunction. A well-characterized system for the production of the superoxide anion radical (O2(-).) and hydrogen peroxide (H2O2), employing xanthine and xanthine oxidase, was used to sublethally injure human umbilical vein endothelial (HUVE) cells in vitro. We examined the effects of a 15-minute incubation of HUVE cells with xanthine (50 microM) and xanthine oxidase (2.5-100 munits) on platelet adherence and prostacyclin (PGI2) release. All experiments were conducted in a serum-free N-(2-hydroxyethyl)piperazine-N'-(2-ethanesulfonic acid)-Tyrode buffer (pH 7.4) incubation system. Exposure of HUVE cells to sublethal concentrations of oxygen free radicals caused significant enhancement of platelet adherence (65 +/- 6.3%) to injured endothelium. A 12-fold increase in PGI2 release resulted after a 15-minute treatment with xanthine and xanthine oxidase. The addition of exogenous PGI2 (150 mM) to platelet-endothelial systems did not completely prevent the enhanced platelet adherence, suggesting that a lack of PGI2 was not completely responsible for the adherence of platelets to O2(-).-injured cells. When superoxide dismutase (SOD) and catalase, scavengers of O2(-). and H2O2, were added in combination to treated cells, platelet adherence decreased by 42-77% and PGI2 release approached that of control cultures. No decrease in either platelet adherence or PGI2 release occurred when chemically inactivated forms of SOD and catalase or bovine serum albumin were added to oxidant-treated cultures.
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PMID:Alterations in human vascular endothelial cell function by oxygen free radicals. Platelet adherence and prostacyclin release. 185 31

Oxidative damage to proteins is known to occur via conversion of side chain amino groups to corresponding carbonyl derivatives. Such damage to enzymes and purified proteins has been quantified previously by reduction with sodium boro[3H]hydride and subsequent measurement of the incorporation of 3H into amino acid fractions. In this study, the NaB3H4 reduction assay was modified to permit the quantitation of free radical-mediated oxidative damage to proteins obtained from animals. Modifications included additional extractions of protein isolates with organic solvents to remove lipids and with nitric acid to remove metal ions. The modified assay has first been validated in vitro by measuring changes in levels of oxidative damage to bovine serum albumin exposed to xanthine plus xanthine oxidase (2-fold increase), to hydrogen peroxide and iron(II) sulfate (5-fold increase), or to gamma radiation (30-fold increase over controls, respectively). gamma radiation of isolated hamster kidney protein also raised the carbonyl content in a dose-dependent manner. The modified assay has then been validated in vivo by measuring the changes in oxidative damage to lung tissue in animals exposed to approximately 85% oxygen (2-fold increase) or to different doses of paraquat (5-fold increase with the high dose over controls, respectively). The assay was then used to examine free radical-mediated oxidation introduced by acute or chronic treatment of hamsters with estrogens, since both synthetic and natural estrogens induce kidney tumors in this species. Priming of hamsters for 3 days with 20 mg/kg/day diethylstilbestrol and treatment with 100 mg/kg of this drug on the 4th day resulted in a 160% increase in free radical modification of renal proteins. Oxidative damage to kidney proteins was also assayed in hamsters treated with estradiol implants for up to 7 months, a regimen known to induce kidney tumors. Significant increases in covalent oxidative modification to renal proteins over values in age-matched controls were detected after 1, 2, and 7 months of continuous estradiol exposure. It is concluded that the modification of the NaB3H4 reduction assay is a useful postlabeling method for monitoring free radical action in vivo. Furthermore, it is postulated that free radical damage in estrogen-treated hamster kidney plays a role in estrogen-induced carcinogenesis.
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PMID:Free radical-induced carbonyl content in protein of estrogen-treated hamsters assayed by sodium boro[3H]hydride reduction. 186 Aug 52

Reactive oxygen metabolites appear to modulate pulmonary vascular changes. To study the effects of free radical formation in vivo, we investigated five groups of young pigs by recording hemodynamic changes after xanthine oxidase infusion alone and after pretreatment with hypoxanthine or possible blocking agents. The pulmonary vascular pressure increased rapidly in the groups without inhibition reaching maximum levels 25 min after the start of the experiment. The pulmonary artery blood flow declined toward minimum values at the same time. Compared to baseline levels, the calculated vascular lung resistance increased by 300% when the pigs were pretreated with hypoxanthine, and by 150% when xanthine oxidase was given alone. These findings suggest enhanced pulmonary vasoconstriction as a result of high initial hypoxanthine levels probably capable of forming larger quantities of oxygen radicals. The vascular reaction was attenuated when the pigs were pretreated with indomethacin (cyclo-oxygenase inhibitor) or allopurinol (xanthine oxidase inhibitor). Furthermore, the presence of catalase (hydrogen peroxide scavenger) reduced the pulmonary vasoconstriction significantly. We observed less decline in arterial oxygen tension and oxygen saturation when the animals had been pretreated with inhibitory agents, compared to the blood gas changes found in the xanthine oxidase group. The systemic pressure recordings in the carotid artery remained at baseline levels in all groups. We conclude that oxygen radicals formed by the hypoxanthine-xanthine oxidase system produce severe pulmonary vascular constriction in young pigs.
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PMID:Reactive oxygen metabolites produce pulmonary vasoconstriction in young pigs. 186 9

It is demonstrated that the perhydroxyl radical (HOO., the conjugate acid of superoxide (O2-], initiates fatty acid peroxidation (a model for biological lipid peroxidation) by two parallel pathways: fatty acid hydroperoxide (LOOH)-independent and LOOH-dependent. Previous workers (Gebicki, J. M., and Bielski, B. H. J. (1981) J. Am. Chem. Soc. 103, 7020-7025) demonstrated that HOO., generated by pulse radiolysis, initiates peroxidation in ethanol/water fatty acid dispersions by abstraction of the bis-allylic hydrogen atom from a polyunsaturated fatty acid. Addition of O2 to the fatty acid radicals forms peroxyl radicals (LOO.s), the chain-propagating species of lipid peroxidation. In this work it is demonstrated that HOO., generated either chemically (KO2) or enzymatically (xanthine oxidase), is a good initiator of fatty acid peroxidation in linoleic acid ethanol/water dispersions; O2- serves only as the source of HOO., and HOO. initiation can be observed at physiologically relevant pH values. In contrast to the previous results, the initiating effectiveness of HOO. is related directly to the initial concentrations of LOOHs in the lipids to be peroxidized. This defines a LOOH-dependent mechanism for fatty acid peroxidation initiation by HOO., which parallels the previously established LOOH-independent pathway. Since the LOOH-dependent pathway is much more facile than the LOOH-independent pathway, LOOH is the kinetically preferred site of HOO. attack in these systems. Experiments comparing HOO./LOOH-dependent fatty acid peroxidation with transition metal- and peroxyl radical-initiated peroxidation rule out the participation of the latter two species as initiators, which defines the HOO./LOOH initiation system as mechanistically unique. LOOH product studies are consistent with either a direct or indirect hydrogen atom transfer between LOOH and HOO. to yield LOO.s, which propagate peroxidation. The LOOH-dependent pathway of HOO.-initiated fatty acid peroxidation may be relevant to mechanisms of lipid peroxidation initiation in vivo.
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PMID:Perhydroxyl radical (HOO.) initiated lipid peroxidation. The role of fatty acid hydroperoxides. 186 44

The cytotoxic effects of oxygen radicals have been studied in enriched population of mature bovine oligodendrocytes in culture. Oxygen radicals were generated enzymatically by glucose and glucose oxidase, and hypoxanthine and xanthine oxidase combinations. Cytotoxicity was assessed by trypan blue exclusion and percentage lactate dehydrogenase release into the culture media. Incubation of bovine oligodendrocytes with these oxygen radical-generating systems for 4 hr resulted in significant cell death, especially in the glucose oxidase system. The oligodendrocytes were completely protected by catalase from the cytotoxic effects of both oxygen radical generating systems. However, superoxide dismutase, dimethylsulfoxide and antioxidants such as vitamin E and glutathione did not protect oligodendrocytes from the oxidant-mediated cytotoxicity. It appears that hydrogen peroxide produced in these oxygen radical-generating systems gives rise to toxic radicals that induce the cell death of bovine oligodendrocytes in culture.
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PMID:Oligodendroglial cell death induced by oxygen radicals and its protection by catalase. 188 63

Endothelial cells may be damaged by oxygen reactive species produced by granulocytes, by transition metal ions or by xanthine oxidase, an enzyme present in great quantity in these cells. Since it has been observed that propionyl carnitine protects the heart from peroxidation, we have investigated the effect of this compound on the formation of thiobarbituric acid reactive oxidation products (TBAR) in endothelial membranes. The peroxidation systems used were a mixture of Fe3+ and Fe2+, hydrogen peroxide and Fe2+, or xanthine oxidase-- xanthine. Propionyl carnitine at millimolar concentrations decreases TBAR formation. The protection is concentration-dependent and is almost absent in the presence of propionate and carnitine. From these results it appears that propionyl carnitine may protect not only myocardium but also vessels from peroxidative damage that occurs during ischaemia and reperfusion.
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PMID:Protective effect of propionyl carnitine against peroxidative damage to arterial endothelium membranes. 188 62

Airway inflammation is often accompanied by accumulation of polymorphonuclear leukocytes (PMN) as well as epithelial sloughing. To determine whether PMN contribute to epithelial damage in inflammatory states, we examined the interaction of PMN and tracheal epithelial cells in culture. Ferret tracheal epithelial (FTE) cells were grown in primary culture on collagen-coated multiwell dishes. Confluent monolayers were loaded with [51Cr]O4 and exposed to resting and activated neutrophils. There was no significant increase in cell death as assessed by [51Cr]O4 release over 8 h of exposure, at effector (PMN)-to-target cell (epithelial cell) ratios up to 90:1, whether PMN were activated by maximal activating concentrations of phorbol myristate acetate or formylmethionylleucylphenylalanine with or without cytochalasin B. This result was confirmed by using a [3H]leucine release assay as well as by uptake of a supravital dye. However, exposure of FTE cells to activated PMN for 4 h resulted in separation of adjacent cells and formation of gaps in the monolayer, without significant detachment of epithelial cells from the dish. Gap formation was prevented by alpha 1-antitrypsin, N-methoxysuccinyl-Ala-Ala-Pro-Val-chloromethylketone, or 10% serum, was mimicked by PMN elastase (24 micrograms/ml), but not by hydrogen peroxide in concentrations up to 10 mM, or superoxide generated by xanthine/xanthine oxidase, and was reversible within 24 h of removal of elastase and exposure to fresh medium. We conclude that activated PMN do not kill FTE cells in culture. However, disruption of the epithelial cell monolayer probably by a proteolytic mechanism can result from exposure to activated PMN and may allow alteration of the epithelial barrier during airway inflammation.
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PMID:Ferret tracheal epithelial cells grown in vitro are resistant to lethal injury by activated neutrophils. 189 42

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