Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.17.3.2 (xanthine oxidase)
 8,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Human interferon-alpha A/D (Bg/II) (IFN-alpha A/D) and mouse interferon-gamma (IFN-gamma) are shown to induce xanthine dehydrogenase (XD) mRNA in L929 fibroblastic cells. XD mRNA accumulation after IFN-alpha A/D treatment is relatively fast, being already evident after 4 h and reaching its maximum after 24 h. IFN-alpha A/D is active in inducing XD mRNA at 0.1 unit/ml and it is maximally active at 10(3) units/ml. The half-life of the XD message is unaffected by IFN-alpha A/D treatment, whereas the transcriptional activity of the XD gene and the concentrations of XD heterogeneous nuclear RNA are increased by 2- and 6-fold respectively. The effect of IFN-alpha A/D on XD mRNA is insensitive to cycloheximide, suggesting that protein synthesis de novo is not required. Experiments conducted with specific inhibitors suggest that protein kinase C, cyclic AMP and arachidonic acid metabolites derived from lipoxygenase or cyclooxygenase do not act as second-messenger molecules in the induction of XD mRNA by IFN-alpha A/D. XD mRNA is also induced in NIH3T3 fibroblastic cells, but not in F9 teratocarcinoma or B16 melanoma cells after treatment with IFN-alpha A/D. NIH3T3 are the only cells so far tested that have detectable XD and xanthine oxidase activities under basal conditions and after IFN-alpha A/D treatment, although their responsiveness to the cytokine is much less than that observed in L929 cells.
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PMID:Interferons induce xanthine dehydrogenase gene expression in L929 cells. 137 96

A vibration technique was used to dislocate the epithelium from the rat small intestine, in order to study the possible regulatory role of the epithelium on intestinal motility. Complete removal of the epithelium led to a slightly potentiated contraction of the longitudinal smooth muscle by the muscarinic agonist methacholine (pD2. 6.5 +/- 0.1 vs. 6.2 +/- 0.2). The maximal beta-adrenergic response expressed relative to the relaxation by 0.5 mM dibutyryl cyclic AMP increased from 55.9 +/- 9.0% to 72.6 +/- 9.1% by this treatment. Efforts were made to relate these observations to the endothelium-dependent relaxation in blood vessels, but no indication was found for a similar mechanism in the small intestine. Not only mechanical dislocation can be employed to affect the mucosal layer, but also intestinal ischemia has been reported to lead to mucosal damage. In this study we mimicked ischemia by applying in vitro anoxia and subsequent reoxygenation to isolated intestinal segments. When intestinal segments are isolated and kept in physiological buffer, xanthine dehydrogenase is converted slowly to xanthine oxidase, irrespective of whether the buffer is oxygenated or not. No evidence was found for oxygen radical damage after anoxia and reoxygenation. However, the intestinal mucosa was damaged both after normoxia, and after anoxia and reoxygenation. Anoxia and subsequent reoxygenation did not affect muscarinic contraction, but slightly increased the beta-adrenergic relaxation, which partly correlates with the effects of mechanical dislocation of the epithelium. The increased sensitivity of the smooth muscle after epithelial damage might be involved in motility changes during intestinal inflammatory diseases.
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PMID:Role of the epithelium in the control of intestinal motility: implications for intestinal damage after anoxia and reoxygenation. 141 84

The conversion of xanthine dehydrogenase to xanthine oxidase and lipid peroxidation were measured in brain from carbon monoxide- (CO) poisoned rats. Sulfhydryl-irreversible xanthine oxidase increased from a control level of 15% to a peak of 36% over the 90 min after CO poisoning, while the conjugated diene level doubled. Reversible xanthine oxidase was 3-6% of the total enzyme activity over this span of time but increased to 31% between 90 and 120 min after poisoning. Overall, reversible and irreversible xanthine oxidase represented 66% of total enzyme activity at 120 min after poisoning. Rats depleted of this enzyme by a tungsten diet and those treated with allopurinol before CO poisoning to inhibit enzyme activity exhibited no lipid peroxidation. Treatment immediately after poisoning with superoxide dismutase or deferoxamine inhibited lipid peroxidation but had no effect on irreversible oxidase formation. Biochemical changes only occurred after removal from CO, and changes could be delayed for hours by continuous exposure to 1,000 ppm CO. These results are consistent with the view that CO-mediated brain injury is a type of postischemic reperfusion phenomenon and indicate that xanthine oxidase-derived reactive oxygen species are responsible for lipid peroxidation.
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PMID:Dehydrogenase conversion to oxidase and lipid peroxidation in brain after carbon monoxide poisoning. 144 8

The purpose of the present study was to determine the effects of chronic portal diversion on antioxidant levels in the rat liver. Male Sprague-Dawley rats (n = 32) were used for these studies. An end-to-side portacaval anastomosis was constructed in 17 of the rats. Sham-operated rats (n = 15) served as controls. Two weeks later, hepatic blood flow was measured by the radioactive microsphere technique and the liver was harvested for biochemical measurement of catalase, manganese superoxide dismutase, copper-zinc superoxide dismutase, selenium glutathione peroxidase, xanthine oxidase, xanthine dehydrogenase and reduced glutathione (acid soluble sulfhydryls). Total hepatic blood flow was approx. 40% lower in portacaval-shunted rats when compared to sham-operated control rats. Total superoxide dismutase (SOD) and xanthine dehydrogenase (XD) levels were significantly reduced in the liver of shunted rats when compared to controls. Xanthine oxidase activity was unaltered. The decreased superoxide dismutase levels were exclusively due to reductions in the cytosolic Ca/Zn SOD; Mn SOD levels were unaltered. These data are consistent with oxidant stress and suggest that the liver of subjects with conditions characterized by decreased portal blood flow may be more susceptible to oxidant-induced liver injury.
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PMID:Hepatic oxidant and antioxidant systems in portacaval-shunted rats. 150 Jun 90

Isolated working rat hearts were subjected to aerobic perfusion (25 min), cardioplegic infusion (3 min), global ischemia (30 min at 37 degrees C) and reperfusion (35 min). Measurements of myocardial xanthine oxidase and dehydrogenase activity, together with various adenine nucleotides and metabolites, were made at defined stages of the protocol (n = 6/group). Allopurinol pretreatment (20 mg/kg body wt/day for 3 days) improved the postischemic recovery of cardiac function; thus, aortic flow (a representative index) recovered to 68.8 +/- 4.2% compared with 53.2 +/- 2.3% in untreated controls (p less than 0.05). In fresh tissue, allopurinol pretreatment inhibited xanthine dehydrogenase activity by 73.1% (from 11.9 +/- 0.5 to 3.2 +/- 0.8 mIU/g wet wt: p less than 0.05) and xanthine oxidase activity by 95.2% (from 8.3 +/- 1.2 to 0.4 +/- 0.2 mIU/g wet wt: p less than 0.05); however, this inhibition was not maintained during perfusion. During reperfusion, myocardial xanthine dehydrogenase and oxidase activity was reduced by 40-60% (p less than 0.05) in both allopurinol pretreated and control hearts. Tissue content of creatine phosphate, adenosine triphosphate and catabolites, NAD and inorganic phosphate were not different in allopurinol pretreated or control hearts during either ischemia or reperfusion. This study does not support the concept that allopurinol protects the rat heart during ischemia and reperfusion by inhibition of xanthine oxidase activity or by conservation of purines. It appears that allopurinol achieves its protective effects by some, as yet undefined, mechanism.
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PMID:Allopurinol-enhanced myocardial protection does not involve xanthine oxidase inhibition or purine salvage. 152 Feb 48

Activated neutrophils cause conversion of xanthine dehydrogenase to its oxidase form (xanthine oxidase) in endothelial cells, the mechanism of which may be related to the cytotoxic effect of activated neutrophils. The elastase inhibitors, elastatinal, alpha 1-antitrypsin, and MeO-Suc-(Ala)2-Pro-Val-CH2Cl, significantly inhibited xanthine dehydrogenase to oxidase conversion by phorbol myristate acetate-stimulated neutrophils without inhibition of neutrophil adherence to the endothelial cell monolayer. The role of elastase in this enzyme conversion process was confirmed by the ability of purified elastase to cause conversion of xanthine dehydrogenase to xanthine oxidase in intact endothelial cells (or cell extracts) without causing cytotoxicity. In contrast, cathepsin G failed to cause conversion. The kinetics of conversion induced by elastase was relatively rapid, being essentially completed by 30 min. Upon removal of elastase, the effect was slowly (greater than 12 h) reversible and could be inhibited by cycloheximide treatment. Exposure of endothelial cells to hypoxia failed to enhance the elastase-induced conversion. Treatment of endothelial cells with Ca2+ ionophores failed to cause conversion of xanthine dehydrogenase to oxidase, suggesting that intracellular Ca(2+)-activated proteases are not sufficient to induce this process. Neutrophil-induced xanthine dehydrogenase to oxidase conversion was inhibited by concomitant treatment with antibodies to CD11b. The results suggest that activated neutrophils induce conversion of xanthine dehydrogenase to oxidase by secretion of elastase in close proximity to the endothelial cells and that this intimate contact between the two cell types enables high local concentrations of elastase to be attained, which are sufficient to cause xanthine dehydrogenase to xanthine oxidase conversion.
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PMID:Mechanism of neutrophil-induced xanthine dehydrogenase to xanthine oxidase conversion in endothelial cells: evidence of a role for elastase. 154 Mar 91

The generation of oxidants in reperfused ischemic tissues by xanthine oxidase (XO) may contribute to tissue damage. We exposed bovine pulmonary microvascular endothelial (BPMVE) cells to hypoxia and subsequent reoxygenation and examined alterations in intracellular and extracellular XO activities. BPMVE cells incubated 24 h under hypoxic conditions (less than 1% O2) showed a twofold increase in intracellular xanthine dehydrogenase activity and a smaller increase in intracellular XO activity compared to normoxic BPMVE. Both normoxic and hypoxic BPMVE cells constitutively released XO activity into their culture media. Incubation of hypoxic or normoxic BPMVE cells with oxygenated medium (95% O2) stimulated the release of XO activity into the extracellular medium within 5 min. The XO activity could not be detected in the oxygenated medium after 60 min incubation with 95% O2. These results indicate that endothelial cells in culture constitutively release XO and that oxygenation rapidly enhances XO release. The released XO activity may play an important role in generation of oxidants in the extracellular milieu during reperfusion.
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PMID:Pulmonary microvascular endothelial cells constitutively release xanthine oxidase. 155 Mar 45

Xanthine oxidase has been recognized as an important source of oxygen free radicals in ischemia-reperfusion injury. In order to study this enzyme in biological tissues, the conversion of pterin (2-amino-4-hydroxypteridine) to isoxanthopterin provides the basis for a very sensitive fluorometric assay. Xanthine oxidase is typically assayed in the presence of pterin only, while an electron acceptor which replaces NAD+ is used to determine the combined xanthine dehydrogenase plus xanthine oxidase activity. 2,6-Dichlorophenol-indophenol has been used as an electron acceptor in this assay. However, it was found in this study that it acts as an effective competitive inhibitor for xanthine oxidase. We concluded that methylene blue is the electron acceptor of choice in the fluorometric assays for xanthine oxidase.
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PMID:2,6-Dichlorophenolindophenol is a competitive inhibitor for xanthine oxidase and is therefore not usable as an electron acceptor in the fluorometric assay. 156 44

The conversion of xanthine dehydrogenase (XDH) to xanthine oxidase (XO) and the reaction of XO-derived partially reduced oxygen species (PROS) have been suggested to be important in diverse mechanisms of tissue pathophysiology, including oxygen toxicity. Bovine aortic endothelial cells expressed variable amounts of XDH and XO activity in culture. Xanthine dehydrogenase plus xanthine oxidase specific activity increased in dividing cells, peaked after achieving confluency, and decreased in postconfluent cells. Exposure of BAEC to hyperoxia (95% O2; 5% CO2) for 0-48 h caused no change in cell protein or DNA when compared to normoxic controls. Cell XDH+XO activity decreased 98% after 48 h of 95% O2 exposure and decreased 68% after 48 h normoxia. During hyperoxia, the percentage of cell XDH+XO in the XO form increased to 100%, but was unchanged in air controls. Cell catalase activity was unaffected by hyperoxia and lactate dehydrogenase activity was minimally elevated. Hyperoxia resulted in enhanced cell detachment from monolayers, which increased 112% compared to controls. Release of DNA and preincorporated [8-14C]adenine was also used to assess hyperoxic cell injury and did not significantly change in exposed cells. Pretreatment of cells with allopurinol for 1 h inhibited XDH+XO activity 100%, which could be reversed after oxidation of cell lysates with potassium ferricyanide (K3Fe(CN)6). After 48 h of culture in air with allopurinol, cell XDH+XO activity was enhanced when assayed after reversal of inhibition with K3Fe(CN)6, and cell detachment was decreased. In contrast, allopurinol treatment of cells 1 h prior to and during 48 h of hyperoxic exposure did not reduce cell damage. After K3Fe(CN)6 oxidation, XDH+XO activity was undetectable in hyperoxic cell lysates. Thus, XO-derived PROS did not contribute to cell injury or inactivation of XDH+XO during hyperoxia. It is concluded that endogenous cell XO was not a significant source of reactive oxygen species during hyperoxia and contributes only minimally to net cell production of O2- and H2O2 during normoxia.
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PMID:The contribution of vascular endothelial xanthine dehydrogenase/oxidase to oxygen-mediated cell injury. 156 25

Chronic inflammation of the colon and the rectum was induced by intracolonic administration of 25 mg trinitrobenzoic sulfonic acid (TNB) in 0.25 ml 30% ethanol. Three weeks after TNB administration the colon and the rectum showed transmural, granulomatous inflammation which had many similarities to Crohn's disease and furthermore to the morphological and functional changes which occur in early phases of postischemic intestinal damage. In the colon of TNB-treated animals the ATP and GTP levels were markedly decreased. The accumulation of thiobarbituric acid-reactive substances (TBA-RS) demonstrated a free radical-mediated component of the tissue damage. Treatment with oxypurinol radical scavenger and xanthine oxidoreductase inhibitor diminished the morphological changes, the loss of energy-rich nucleotides and the TBA-RS accumulation.
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PMID:Protective influence of oxypurinol on the trinitrobenzene sulfonic acid(TNB) model of inflammatory bowel disease in rats. 157 48


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