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)

Endotoxin (lipopolysaccharide) stimulation of macrophages (M phi) induces the generation of toxic reactive oxygen intermediates (ROI); however, recent studies implicate intracellular redox changes in signal transduction pathways for cytokines. To test whether oxidant stress modulates M phi activation, rabbit alveolar M phi were exposed to the following: diamide (oxidizes intracellular glutathione); glucose oxidase (generates hydrogen peroxide); or xanthine oxidase (generates superoxide), before lipopolysaccharide. Supernatants were assayed for tumor necrosis factor (TNF) and cell lysates were assayed for procoagulant activity (PCA). TNF mRNA was analyzed by Northern blot. M phi exposure to diamide and glucose oxidase augmented TNF production, PCA expression, and TNF mRNA accumulation; however, xanthine oxidase exposure inhibited TNF production while augmenting PCA expression. M phi signal transduction can be enhanced by increasing cellular oxidant stress. The differential response of TNF versus PCA suggests the existence of distinct redox-sensitive signal transduction pathways. These data define a mechanism by which oxidants generated during inflammation may modulate M phi function.
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PMID:Oxidants augment endotoxin-induced activation of alveolar macrophages. 888 79

Generation of reactive oxygen species (ROS) is a common event in the pathogenesis of acute lung injury. Endothelial cells may be both a target and a source of the ROS. Exposure of bovine pulmonary endothelial cells (BPAEC) to lipopolysaccharide (LPS) has been shown to result in intracellular generation of both ROS and the antioxidant enzyme, mangano superoxide dismutase (MnSOD). The present study investigates whether alterations in intracellular oxidant state affect LPS-stimulated cytotoxicity and induction of MnSOD mRNA. BPAEC were pretreated with either the free radical scavenger, dimethylsulfoxide (DMSO), the xanthine oxidase inhibitor, allopurinol, or N-acetylcysteine (a cysteine derivate capable of increasing glutathione stores) prior to exposure to LPS (0.1 microgram/ml) for either 4, 8 or 18 hours. We found that pretreatment of BPAEC with DMSO blocked both LPS-induced cytotoxicity and induction of the MnSOD gene. Nuclear run-off experiments demonstrated that LPS-stimulated induction of the MnSOD mRNA occurred at the transcriptional level and that DMSO blocked this event. Pretreatment with allopurinol also prevented the cytotoxicity associated with LPS but, in contrast to DMSO, did not alter induction of MnSOD mRNA. N-acetylcysteine did not affect the LPS-stimulated cytotoxicity but resulted in an early and transient reduction in induction of the MnSOD gene. We conclude that LPS stimulates generation of intracellular ROS that regulate induction of the MnSOD gene at the transcriptional level further, we conclude that LPS-stimulated cytotoxicity involves both the xanthine oxidase pathway and perhaps intracellular generation of hydroxyl radicals. The difference in the protective effect between DMSO, NAC and allopurinol suggest that upregulation of the MnSOD gene does not contribute to LPS-induced cytotoxicity.
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PMID:Effect of antioxidants on lipopolysaccharide-stimulated induction of mangano superoxide dismutase mRNA in bovine pulmonary artery endothelial cells. 890

Cytosolic and mitochondrial alterations induced by exposure of rat astroglial primary cultures to reactive oxygen species (ROS) generated by a xanthine/xanthine oxidase (X/XO) mixture or by lipopolysaccharide (LPS) have been investigated biochemically and immunochemically. In the presence of ROS generated by X/XO, a significant decrease in Cu,Zn superoxide dismutase (Cu,Zn-SOD) and in glutamine synthetase (GS) activity was observed whereas mitochondrial Mn-SOD activity and enzyme protein levels were significantly enhanced. Similar effects on GS, Cu,Zn- and Mn-SOD activities were observed by glucose/glucose oxidase treatment of the cells. Addition of LPS to the cell growth medium also specifically induces Mn-SOD synthesis but was without effect on Cu,Zn-SOD. It is suggested that in all these tested situations, hydrogen peroxide could represent a specific inducer of the observed phenomenon and it may therefore be considered as an intracellular messenger involved in the regulation of some aspects of astroglial oxidative metabolism, particularly the defence against ROS.
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PMID:Modulation of oxygen-radical-scavenging enzymes by oxidative stress in primary cultures of rat astroglial cells. 894 Jun 11

Progressive tissue necrosis is a unique reaction to spinal cord trauma in which the site of injury is gradually transformed into a large, cavity-filled lesion. The earliest histopathological changes after injury include a widely disseminated extravasation of erythrocytes and neutrophils. To test whether such an inflammatory reaction might initiate progressive necrosis, we examined the effects of the following anti-inflammatory treatments: allopurinol (Ap) to inhibit injury-induced xanthine oxidase, indomethacin (I) or naproxen to inhibit constitutive and inducible cyclooxygenase, aminoguanidine (Ag) to inhibit inducible nitric oxide synthase, pregnenolone (P) as a precursor steroid, and a bacterial lipopolysaccharide (L) to stimulate secretory activities of glial cells and macrophages. The spinal cord of adult rats was crushed at T8 with jeweler's forceps and, after 3 or 21 days of treatment, the cords were studied quantitatively by light microscopical image analysis. Ag, Ag+I, or Ap significantly reduced the size of the primary lesion at 3 days postoperatively, while P+L+I did so only after 21 days of treatment. A secondary lesion developed in the dorsal column and gradually extended for many millimeters rostral and caudal from the primary lesion. The size of the dorsal column lesion was diminished by 3-day treatment with Ap and by 21-day treatment with Ap or P+L+I, but Ag or Ag+I had no effect. We conclude that (a) progressive necrosis is initiated and maintained by inflammatory mechanisms and (b) for this reason, treatment with specific anti-inflammatory agents selectively attenuates various components of the necrotizing process.
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PMID:Experimental analysis of progressive necrosis after spinal cord trauma in the rat: etiological role of the inflammatory response. 900 Apr 53

Experimental evidence indicates that the lipid peroxidation of biological membranes is often associated with the development of liver fibrosis. We have studied the effect of neutrophil-derived reactive oxygen species (ROS) on collagen synthesis by human hepatic stellate cells (HSC), the major source of collagen in the liver, in a coculture system. Lipid peroxidation in the cocultures was evaluated in terms of either malondialdehyde (MDA) production or the formation of MDA/4-hydroxynonenal protein adducts. The expression of cellular messenger RNAs (mRNAs) was evaluated by either Northern blotting or RNAse protection assay. Nitric oxide (NO) synthase activity in cells was measured by [3H]citrulline formation from [3H]arginine. In vitro exposure of HSC to ROS resulted in the early induction of lipid peroxidation and was associated with a marked increase (threefold) of procollagen I mRNA expression and synthesis. The addition of antioxidants, such as vitamin E or superoxide dismutase (SOD), impaired this stimulation. The inhibition of neutrophil NO formation by N(G)-monomethyl-L-arginine made the ROS-induced stimulation of procollagen I more evident. The addition of xanthine/xanthine oxidase X/XO, a superoxide anion donor, to HSC cultures strongly increased procollagen I synthesis. This stimulation was hampered by the addition of both SOD and sodium nitroprusside (an NO donor). The contribution of HSC to the production of NO in our coculture system was negligible, because inducible NO synthase (iNOS) mRNA was almost undetectable in these cells, and also because the amount of NO produced by HSC stimulated with tumor necrosis factor alpha (TNF-alpha) and lipopolysaccharide (LPS) was 500 times less than that synthesized by neutrophils. In conclusion, these results indicate that neutrophil-derived ROS may contribute to the development of hepatic fibrosis associated with alcoholic hepatitis. NO produced by neutrophils may exert a "protective" antioxidant effect by operating as a scavenger of superoxide anion.
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PMID:Neutrophil-derived superoxide anion induces lipid peroxidation and stimulates collagen synthesis in human hepatic stellate cells: role of nitric oxide. 902 48

The purpose of this study is to determine if the polymorphonuclear leukocyte (PMN) is a major causative agent for lipopolysaccharide (LPS)-induced lung injury and responsible for the excess production of superoxide anion in the lung. We measured superoxide anion production from the lung and pulmonary capillary permeability in rats with and without PMN depletion. The superoxide anion production from the lung was measured using a purpose-built ex vivo chemiluminescence apparatus. Pulmonary capillary permeability was evaluated by the Evans blue dye extravasation method. PMN sequestration was determined by counting PMNs in histologic tissue specimens using microscopy. All rats received 3 mg/kg LPS intravenously. Examinations were undertaken at 2, 6, and 12 h after the LPS injection. The PMN-depleted group received cyclophosphamide 4 days before the LPS injection, which resulted in a PMN count of less than 200 cells/microliter. In rats without PMN depletion, Evans blue dye extravasation increased significantly at 12 h after the LPS injection; PMN sequestration increased at 2, 6, and 12 h after the LPS injection; and superoxide anion production increased at 6 h and remained elevated at 12 h after the LPS injection. The increased permeability, PMN sequestration, and superoxide anion production were not seen in the PMN-depleted group. The contribution of the xanthine/xanthine oxidase system and alveolar macrophages to the observed superoxide anion production was negligible. We conclude that, in rats, the PMN is a major causative agent in LPS-induced lung injury and is responsible for the excess production of superoxide anion in the lung.
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PMID:The importance of polymorphonuclear leukocytes in lipopolysaccharide-induced superoxide anion production and lung injury: ex vivo observation in rat lungs. 943 73

1. The mechanisms involved in mediating bacterial endotoxin lipopolysaccharide (LPS)-induced injury in the colon of neonatal rat pups aged 10-12 days was examined. 2. Administration of LPS (3 mg kg(-1), i.p.) caused a time-related increase in the plasma concentration of rat mast cell protease-II (RMCP-II) which was attenuated dose-dependently, by the non-selective mast cell stabilizer doxantrazole (0.05-5 mg kg(-1), i.p.). The selective connective tissue mast cell stabilizer ketotifen (5-25 mg kg(-1), i.p.) was without effect at the lower dose and had only a limited inhibitory effect at the higher dose. 3. In addition, doxantrazole (5 mg kg(-1), i.p.) inhibited mast cell degranulation in response to LPS in sections of neonatal rat colon, but ketotifen (5 mg kg(-1), i.p.) was without effect. 4. The increase in plasma RMCP-II concentration in response to LPS treatment preceded increases in tissue myeloperoxidase (MPO) activity, inducible nitric oxide synthase (iNOS) activity and tissue lipid peroxidation. These events were all attenuated by pretreatment with doxantrazole (5 mg kg(-1), i.p.), antineutrophil serum (100 microl kg(-1), i.p.), dexamethasone (2 mg kg(-1), i.p.) and the selective iNOS inhibitor, aminoguanidine (25 mg kg(-1), i.p.). 5. In addition, lipid peroxidation was inhibited by pre-administration of the antioxidant enzymes superoxide dismutase (2000 u kg(-1), i.p.) and catalase (2000 u kg(-1), i.p.), the xanthine oxidase inhibitor allopurinol (100 mg kg(-1), i.p.) and the peroxyl scavenger deferoxamine (10 mg kg(-1), i.p.), suggesting the involvement of reactive oxygen metabolites in the colonic injury. 6. These findings suggest that the sequence of events resulting in colonic damage in the neonatal rat following administration of LPS include mast cell degranulation, neutrophil infiltration, elevation in iNOS activity and subsequent lipid peroxidation.
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PMID:Role of mast cells, neutrophils and nitric oxide in endotoxin-induced damage to the neonatal rat colon. 948 51

Chorioamnionitis has been shown to be one of the most important factors in inducing preterm delivery. The present study was undertaken to examine the effects of chorioamnionitis on placental endocrine functions. Preterm placentas with histologic chorioamnionitis produced smaller amounts of human chorionic gonadotropin (hCG) and human placental lactogen (hPL) than those without chorioamnionitis (P < 0.001). To examine the mechanism involved in the suppression of placental endocrine functions induced by chorioamnionitis, we initially confirmed the expression of lipopolysaccharide (LPS) receptor, i.e. the CD14 molecule, on trophoblasts by Northern blot analysis and immunohistochemistry. We then stimulated purified trophoblasts with LPS, which is the major agent which induces inflammatory responses in the host via the LPS receptor. The trophoblasts stimulated with LPS produced reduced amounts of hCG, hPL, and progesterone in a time- and dose-dependent fashion in spite of the induced manganese-superoxide dismutase (SOD) synthesis. Stimulation of trophoblasts with hypoxanthine and xanthine oxidase resulted in suppressed hCG production, while the simultaneous addition of SOD into the culture medium reversed the suppression of hCG production. LPS in the placenta with chorioamnionitis might directly stimulate trophoblasts through the LPS receptor (CD14), thus reducing placental endocrine functions. Superoxide anions which exogenously act on trophoblasts might be generated by simultaneous stimulation of neutrophils and monocytes at the feto-maternal interface by LPS, and additively reduce placental endocrine functions.
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PMID:Chorioamnionitis reduces placental endocrine functions: the role of bacterial lipopolysaccharide and superoxide anion. 948 85

DNA polymerase beta is required in mammalian cells for the predominant pathway of base excision repair involving single nucleotide gap filling DNA synthesis. Here we examine the relationship between oxidative stress, cellular levels of DNA polymerase beta and base excision repair capacity in vitro , using mouse monocytes and either wild-type mouse fibroblasts or those deleted of the DNA polymerase beta gene. Treatment with an oxidative stress-inducing agent such as hydrogen peroxide, 3-morpholinosydnonimine, xanthine/xanthine oxidase or lipopolysaccharide was found to increase the level of DNA polymerase beta in both monocytes and fibroblasts. Base excision repair capacity in vitro , as measured in crude cell extracts, was also increased by lipopolysaccharide treatment in both cell types. In monocytes lipopolysaccharide-mediated up-regulation of the base excision repair system correlated with increased resistance to the monofunctional DNA alkylating agent methyl methanesulfonate. By making use of a quantitative PCR assay to detect lesions in genomic DNA we show that lipopolysaccharide treatment of fibroblast cells reduces the incidence of spontaneous DNA lesions. This effect may be due to the enhanced DNA polymerase beta-dependent base excision repair capacity of the cells, because a similar decrease in DNA lesions was not observed in cells deficient in base excision repair by virtue of DNA polymerase beta gene deletion. Similarly, fibroblasts treated with lipopolysaccharide were more resistant to methyl methanesulfonate than untreated cells. This effect was not observed in cells deleted of the DNA polymerase beta gene. These results suggest that the DNA polymerase beta-dependent base excision repair pathway can be up-regulated by oxidative stress-inducing agents in mouse cell lines.
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PMID:Up-regulation of base excision repair correlates with enhanced protection against a DNA damaging agent in mouse cell lines. 951 96

The purpose of this study was to investigate the occurrence of reactive oxygen species and peroxynitrite in the vestibular organ of the guinea pig following inoculation with bacterial lipopolysaccharide (LPS). The animals were injected transtympanically with 1 mg of LPS 24 h after the intraperitoneal injection of 0.1 mg LPS. Forty-eight hours after the inoculation, varying degrees of degeneration of the vestibular end organs were observed. Immunohistochemical study revealed immunoreactivity to xanthine oxidase (which generates O-2) in the vestibular organ after inoculation with LPS. Immunohistochemical investigation with a specific antinitrotyrosine antibody also showed intense staining of sensory epithelium, fluid transporting cells and the endolymphatic sac, suggesting formation of peroxynitrite in the vestibular organ through the reaction of NO with O-2. On the basis of these data, it can be concluded that NO together with O-2, which form more reactive peroxynitrite, may be the most important pathogenic agents in LPS-induced labyrinthitis in the guinea pig.
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PMID:Lipopolysaccharide-induced expression of reactive oxygen species and peroxynitrite in the guinea pig vestibular organ. 969 1

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