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)

Isoelectric variants of Cu,Zn-superoxide dismutase (Cu,Zn-SOD) have been reported to exist in various organs including rat liver. To elucidate the biochemical characteristics of the variants, rat liver Cu,Zn-SOD was purified and isolated into eight variants, i.e., pI 5.15, 4.88, 4.80, 4.75, 4.70, 4.65, 4.60, and 4.50. The pI 4.88 variant had the highest specific activity (4245 U/mg protein) and the highest yield (45% of original activity). The descending order of specific activity for the other variants was pI 4.80, 4.75, 5.15, 4.70, 4.65, 4.60, and 4.50. The specific activity correlated well with metal content. The specific activity for most variants was 5-9 times greater when determined at pH 10.0 than at pH 7.8. However, three preparations of pI 4.80 and 4.70 variants had 13.9-16.3 times greater specific activity at pH 10.0 versus 7.8, while one of the pI 4.60 variants was only 3.5 times greater. The rate of Coomasie brilliant blue G-250 binding was lowest with pI 4.88 followed by pIs 4.80 and 4.75. To evaluate the mechanisms which might produce these variants, the pI 4.88 variant was incubated with xanthine-xanthine oxidase or a mixture of rat liver microsome, NADPH, and sodium azide, and a shift to variants pI 4.80 and pI 4.75 was found. The shift was greatly inhibited by the presence of mannitol or by the omitting of azide, respectively. The existence of these variants was also confirmed by other methods: (i) direct application of rat liver 105,000g supernatant to an isoelectric focusing, and (ii) extraction of SOD from acetone powder prepared from rat liver homogenate. Results indicate that several variants most likely arise in tissue as a result of activated oxygen radical modification of variant pI 4.88.
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PMID:Multiple isoelectric variants of copper, zinc-superoxide dismutase from rat liver. 214 34

Tissue injury has been linked to neutrophil associated hydroxyl radical (.OH) generation, a process that requires an exogenous transition metal catalyst such as iron. In vivo most iron is bound in a noncatalytic form. To obtain iron required for growth, many bacteria secrete iron chelators (siderophores). Since Pseudomonas aeruginosa infections are associated with considerable tissue destruction, we examined whether iron bound to the Pseudomonas siderophores pyochelin (PCH) and pyoverdin (PVD) could act as .OH catalysts. Purified PCH and PVD were iron loaded (Fe-PCH, Fe-PVD) and added to a hypoxanthine/xanthine oxidase superoxide- (.O2-) and hydrogen peroxide (H2O2)-generating system. Evidence for .OH generation was then sought using two different spin-trapping agents (5.5 dimethyl-pyrroline-1-oxide or N-t-butyl-alpha-phenylnitrone), as well as the deoxyribose oxidation assay. Regardless of methodology, .OH generation was detected in the presence of Fe-PCH but not Fe-PVD. Inhibition of the process by catalase and/or SOD suggested .OH formation with Fe-PCH occurred via the Haber-Weiss reaction. Similar results were obtained when stimulated neutrophils were used as the source of .O2- and H2O2. Addition of Fe-PCH but not Fe-PVD to stimulated neutrophils yielded .OH as detected by the above assay systems. Since PCH and PVD bind ferric (Fe3+) but not ferrous (Fe2+) iron, .OH catalysis with Fe-PCH would likely involve .O2(-)-mediated reduction of Fe3+ to Fe2+ with subsequent release of "free" Fe2+. This was confirmed by measuring formation of the Fe2(+)-ferrozine complex after exposure of Fe-PCH, but not Fe-PVD, to enzymatically generated .O2-. These data show that Fe-PCH, but not Fe-PVD, is capable of catalyzing generation of .OH. Such a process could represent as yet another mechanism of tissue injury at sites of infection with P. aeruginosa.
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PMID:Possible role of bacterial siderophores in inflammation. Iron bound to the Pseudomonas siderophore pyochelin can function as a hydroxyl radical catalyst. 217 Apr 42

Red blood cells (RBC) are thought to be well protected against oxidative stress by the antioxidant, cu-pro-zinc enzyme superoxide dismutase (CuZn SOD) which dismutates O2- to H2O2. CuZn SOD, however, is irreversibly inactivated by its product H2O2. Exposure of intact RBC to H2O2 resulted in the inactivation (up to 50%) of endogenous SOD in a concentration-dependent manner. When RBC were exposed to O2- and H2O2, generated by xanthine + xanthine oxidase, an even greater loss of SOD activity (approximately 75%) was observed. Intracellular proteolysis was markedly increased by exposure to these same oxidants; up to a 12-fold increase with H2O2 and a 50-fold increase with xanthine oxidase plus xanthine. When purified SOD was treated with H2O2, inactivation of the enzyme also occurred in a concentration-dependent manner. Accompanying the loss of SOD activity, the binding of the copper ligand to the active site of the enzyme diminished with H2O2 exposure, as evidenced by an increase in accessible copper. Significant direct fragmentation of SOD was evident only under conditions of prolonged exposure (20 h) to relatively high concentrations of H2O2. Gel electrophoresis studies indicated that under most experimental conditions (i.e. 1-h incubation) H2O2, O2-, and H2O2 + O2- treated SOD experienced charge changes and partial denaturation, rather than fragmentation. The proteolytic susceptibility of H2O2-modified SOD, during subsequent incubation with (rabbit, bovine or human) red cell extracts also increased as a function of pretreatment with H2O2. Both enzyme inactivation and altered copper binding appeared to precede the increase in proteolytic susceptibility (whether measured as an effect of H2O2 concentration or as a function of the duration of H2O2 exposure). These results suggest that SOD inactivation and modification of copper binding are prerequisites for increased protein degradation. Proteolytic susceptibility was further enhanced by H2O2 exposure under alkaline conditions, suggesting that the hydroperoxide anion is the damaging species rather than H2O2 itself. In RBC extracts, the proteolysis of H2O2-modified SOD was inhibited by sulfhydryl reagents, serine reagents, transition metal chelators, and ATP; suggesting the existence of an ATP-independent proteolytic pathway of sulfhydryl, serine, and metalloproteases, and peptidases. The proteolytic activity was conserved in a "Fraction II" of both human and rabbit RBC, and was purified from rabbit reticulocytes and erythrocytes to a 670-kDa proteinase complex, for which we have suggested the trivial name macroxyproteinase. In erythrocytes macroxyproteinase may prevent the accumulation of H2O2-modified SOD.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Superoxide dismutase undergoes proteolysis and fragmentation following oxidative modification and inactivation. 219 28

Intestinal ischemia, however, caused, is still a serious and growing clinical problem with an unacceptable mortality rate of over 60%. This high mortality rate is mainly due to the fact that the patients are not admitted to the hospital or not treated early enough. Even if the patients are operated on within 24 h, their mortality rate is still over 50%, and those surviving the initial treatment suffer from postischemic complications. These damages have been accounted until now to tissue ischemia. It has been proven experimentally that also reperfusion or revascularization after time-limited ischemia add to the tissue damages observed, due to the formation of O2-radicals. Thereby the prerequisites for the production of these radicals (the conversion of xanthine dehydrogenase to xanthine oxidase and the increase of hypoxanthine concentrations in the tissue and plasma) are generated during tissue ischemia. These radicals damage directly or initiate several vicious circles leading to mucosal lesions, impaired intestinal function and an enhanced absorption of bacteria and endotoxin. Various substances (SOD, catalase, DMSO, allopurinol, deferoxamine etc.) detoxify oxygen radicals or inhibit the pathomechanisms leading to the enhanced radical generation. Hopefully, the combination of early revascularization with these already available scavengers will improve the high mortality and morbidity of patients suffering from intestinal ischemia.
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PMID:Oxygen radicals in intestinal ischemia and reperfusion. 222 27

Factors that potentially affect the generation of excess low molecular weight DNA (LMW-DNA) in cultured phytohemagglutinin (PHA)-stimulated lymphocytes of patients with systemic lupus erythematosus (SLE) were studied because this species of DNA is consistently found and this DNA may play a role in the pathogenesis of the disease. Superoxide dismutase (SOD; 0.05 mg/mL), a scavenger of free radical oxygen, decrease LMW-DNA formation in lymphocytes by 22%. Co-cultivation with cysteamine, a second scavenger of free radical oxygen and a sulfhydryl radioprotective agent, resulted in a 32% decrease in the generation of excess LMW-DNA at a concentration of 0.5 x 10(-3) mol/L and largely prevented its formation at 1.0 x 10(-3) mol/L. Other free radical scavengers (catalase, mannitol, vitamins C and E), cyclooxygenase inhibitors (ibuprofen and aspirin), a xanthine oxidase inhibitor (allopurinol), and an iron chelator (desferoxamine) did not affect excess LMW-DNA formation. Glutathione (1 x 10(-3) mol/L) had no effect and cysteine was toxic. Because scavengers of free radicals might be useful in the therapy of lupus, a trial of cysteamine (30 to 60 mg/kg/d) was administered to six acutely ill patients with SLE. A therapeutic benefit was not demonstrated, and some patients had exacerbation of disease. Lymphocyte cell growth from control and lupus subjects was stimulated when cysteamine, 1 x 10(-5) to 1 x 10(-4) mol/L was added to the media, but inhibited at concentrations of 2 x 10(-4) mol/L or greater. These studies suggest that the autooxidation and toxicity of high-dose cysteamine preclude its therapeutic use as a free radical scavenger.
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PMID:Scavengers of free radical oxygen affect the generation of low molecular weight DNA in stimulated lymphocytes from patients with systemic lupus erythematosus. 224 68

Oxygen free radicals (OFRs) generated during reperfusion are putative mediators of postischemic renal dysfunction. To address this issue, the renal response to ischemia and reperfusion was compared to the response to OFR generation without ischemia. Isolated rat kidneys were perfused at 37 degrees C and 90-100 mm Hg with an asanguinous modified Krebs' buffer. Kidneys were subjected to 30 min of ischemia followed by reperfusion or to OFRs generated by combining 25 mumole hypoxanthine with 1 unit xanthine oxidase. Both insults caused a 50% increase in vascular resistance. This was accompanied by a 30% reduction in perfusate flow rate and an 80% reduction in glomerular filtration and urine flow rates. The OFR scavengers, superoxide dismutase (SOD, 250 units/ml) and catalase (CAT, 500 units/ml), prevented these alterations after OFR generation but not after 30 min of ischemia and reperfusion. SOD and CAT also afforded no protection against the less severe dysfunction observed after 10 or 20 min of ischemia and reperfusion. OFRs do not appear to be prominent mediators of postischemic renal dysfunction; other factors, probably associated with ischemia must be primarily responsible.
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PMID:Postischemic renal dysfunction: the limited role of xanthine oxidase-generated oxygen free radicals. 226 85

Blood granulocyte-mediated reactions involving generation of oxygen-derived free radicals have recently been shown to be capable of causing injury to the lungs. These findings suggest a similar mechanism also to be involved in the development of pulmonary ischemia/reperfusion injury. In the present study, therefore, the effects of three oxygen-derived free radical scavengers, superoxide dismutase (SOD; 1 mg/kg), catalase (20,000 IU/kg) and allopurinol (45 mg/kg), were evaluated during reperfusion in a rabbit model after 2 h normothermic ischemia of the lung. During reperfusion, ischemic lungs were found to have an elevated pulmonary vascular resistance, increased total and extravascular lung water content, and decreased arterial oxygen tension (PaO2) compared to control animals. SOD and catalase, but not allopurinol, were able to reduce pulmonary injury by lowering the pulmonary vascular resistance, but could not prevent pulmonary damage as shown by total lung water (TLW) or PaO2. It is concluded that oxygen-derived free radicals such as hydrogen peroxide and the superoxide anion may play an important role in precipitating pulmonary injury after ischemia. The failure of xanthine oxidase inhibition (allopurinol) to exert protective effects may suggest that oxygen-derived free radical generation following pulmonary ischemia occurs predominantly via leukocyte-mediated reactions.
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PMID:Pulmonary reperfusion injury: evidence for oxygen-derived free radical mediated damage and effects of different free radical scavengers. 228 47

Respiratory activity of isolated rat liver mitochondria was assayed following in vitro exposure to oxygen radicals. Our results show that mitochondrial respiration is more sensitive to O2.(-) than to H2O2. However, ferrous ions drastically enhance the toxicity of the enzymatic system generating H2O2 because of the production of the hydroxyl radicals. A protection against those oxygen species could be given by SOD in the xanthine/xanthine oxidase system and by catalase with the glucose/glucose oxidase system. The most damaging system was the combination of Fe2+ with H2O2. In this case, OH. is formed in a Fenton-like reaction. The fact that the OH. is the most damaging molecule accounts for the finding that catalase and desferrioxamine were efficient protectors in this system. Threshold levels of O2.(-) and H2O2 able to inhibit the mitochondrial respiration have been estimated. It is concluded that under normal respiration such thresholds are not reached in vivo and that the impairment of the mitochondrial respiratory activity does not seem to originate only from the natural free radical production in those organelles. However, if the production of free radicals is such to exceed the defense capability, like under oxidative stress, then the critical threshold can be surpassed and the respiration impaired leading to irreversible damages.
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PMID:Respiratory activity of isolated rat liver mitochondria following in vitro exposure to oxygen species: a threshold study. 230 96

We have developed a model of reperfusion injury in Krebs buffer-perfused rabbit lungs, characterized by pulmonary vasoconstriction, microvascular injury, and marked lung edema formation. During reperfusion there was a threefold increase in lung superoxide anion (O2-) production, as measured by in vivo reduction of nitroblue tetrazolium, and a twofold increase in the release of O2- into lung perfusate, as measured by reduction of succinylated ferricytochrome c. Injury could be prevented by the xanthine oxidase inhibitor allopurinol, the O2- scavenger SOD, the hydrogen peroxide scavenger catalase, the iron chelator deferoxamine, or the thiols dimethylthiourea or N-acetylcysteine. The protective effect of SOD could be abolished by the anion channel blocker 4,4'-diisothiocyano-2,2'-stilbene disulfonic acid, indicating that SOD consumes O2- in the extracellular medium, thereby creating a concentration gradient favorable for rapid diffusion of O2- out of cells. Our results extend information about the mechanisms of reperfusion lung injury that have been assembled by studies in other organs, and offer potential strategies for improved organ preservation, for treatment of reperfusion injury after pulmonary thromboembolectomy, and for explanation and therapy of many complications of pulmonary embolism.
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PMID:Role of reactive oxygen species in reperfusion injury of the rabbit lung. 246 23

Polymorphonuclear leukocytes (PMN) are predominant cells in the gingival crevice and saliva, and may play an important role in oral bacteria. Murine peritoneal PMN was used and stimulated with 9 genera, 17 species of oral bacteria, including cariogenic and periodontal pathogens. The PMN response to the bacteria was measured by the luminol mediated chemiluminescence (CL) response and phagocytic activities, and the activities of lysozyme in the reaction medium after the CL response were also measured. The bacteria which could induce a high level of CL response of PMN were Fusobacterium nucleatum, Treponema denticola and Bacteroides gingivalis; middle grade were Staphylococcus subsp. and Actinomyces subsp.; low levels were Lactobacillus subsp., all 5 species of Streptococci and Enterococcus faecalis. Phagocytic indexes of PMN to various kind of bacteria were distributed from 8 to 40% and the bacterial numbers in 100 PMN were 27 to 301. There was no correlation between CL values and phagocytic indexes or between CL values and the bacterial number in 100 PMN by limiting the data on Staphylococcus, Streptococcus subsp. and Lactobacillus subsp., the correlation efficiency which was obtained between their values was r = 0.91 or 0.86. There was only a little in the lysozyme activities released from PMN by stimulation of various kind of bacteria, and the maximum difference corresponded to only 2.8% of the whole lysozyme activity of PMN. Either catalase activities or SOD activities were measured by H2O2 decomposition or the inhibition of xanthine oxidase activity using the intact bacteria. Neither of the enzyme activities of bacteria were closely related to the level of CL response.
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PMID:[Chemiluminescence response and phagocytic activity of murine polymorphonuclear leukocytes to various species of oral bacteria]. 248 36


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