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)

Thyroid hormone formation requires the coincident presence of peroxidase, H2O2, iodide, and acceptor protein at one anatomic locus in the cell. The peroxidase enzyme appears to be a protoporphyrin lX containing heme protein, with binding sites for both iodide and tyrosine. It is probable that both iodide and tyrosine are oxidized to free radical forms which unite to form iodotyrosine. The peroxidase is also involved through an uncertain mechanism in iodotyrosine coupling and probably in oxidation of sulfhydryl bonds in thyroglobulin. H2O2 may be supplied by microsomal NADPH-cytochrome c reductase or NADH-cytochrome b5 reductase. Other possible intracellular H2OI generating systems include monoamine oxidase and xanthine oxidase. The usual acceptor for iodide is thyroglobulin, which is currently believed to be iodinated within apical secretory vesicles at the cell border just prior to liberation into the colloid, or possibly after liberation into the colloid. Other soluble an insoluble proteins are also iodinated within the gland. The peroxidase is present in numerous cellular structures, but iodination activity occurs primarily, if not only, at the apical cell border. The controls of iodination are imperfectly known. Thyrotrophin modulation of iodide uptake, H2O2 generation, thyroglobulin synthesis, and peroxidase enzyme level obviously are the main regulations. Many of these actions are thought to involve mediation of adenyl cyclase and subsequent activation of intracellular phosphokinases. Antithyroid drugs of the thiocarbamide group are competitive inhibitors of iodination under some circumstances, but if much iodide is present, they react with the oxidized iodine intermediate and are irreversibly inactivated themselves. Clinical problems involving defective peroxidase function are among the most frequent hereditary defects of thyroid hormone formation. Recognized abnormalities include deficient peroxidase, abnormality in binding of the peroxidase apoprotein to its prosthetic group, and other less well-identified abnormalities in peroxidase structure and function. Peroxidase is typically elevated in thyroid tissue from patients with hyperthyroidism sometimes deficient in cold thyroid nodules, and frequently diminished in tissue from patients with Hashimoto's thyroiditis.
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PMID:Biosynthesis of thyroid hormone: basic and clinical aspects. 6 47

Myeloperoxidase (MPO), H2O2 and a halide form a powerful antimicrobial system effective against bacteria, fungi, viruses and mammalian cells. After phagocytosis, MPO is released into the phagosome from adjacent granules where it interacts with H2O2 generated either by leukocytic or microbial metabolism and a halide such as chloride or iodide to form agents toxic to the ingested organisms. Evidence for H2O2 and MPO participation in the microbicidal activity of polymorphonuclear leukocytes (PMNs) has been obtained from patients with neutrophil dysfunction. In chronic granulomatous disease, PMNs have a microbicidal defect associated with the absence of the respiratory burst. The importance of H2O2 deficiency in the PMN dysfunction is emphasized by its reversal by H2O2. PMNs which lack MPO also have a major fungicidal and bactericidal defect. Bactericidal activity is particularly low during the early postphagocytic period, after which the organisms are killed. Although emphasizing the importance of MPO-mediated antimicrobial systems particularly during the early postphagocytic period, these findings also indicate the presence of MPO-independent systems which develop slowly but are ultimately effective. The MPO-independent antimicrobial systems may be oxygen-dependent or oxygen-independent. The acetaldehyde-xanthine oxidase system has been used as a model of the MPO-independent, oxygen-dependent antimicrobial systems of the PMN. A microbicidal effect by this system was observed which was inhibited by superoxide dismutase, catalase and scavengers of hydroxyl radicals (OH') and singlet oxygen (1O2). The microbicidal activity of acetaldehyde and xanthine oxidase is increased considerably by MPO and chloride. The formation of ethylene from methional or 2-oxo-4-methylthiobutyric acid by PMNs has been regarded as evidence for OH' formation. We have found ethylene formation to be largely dependent on MPO and evidence for the initiation of ethylene formation by 1O2 has been obtained. Both the xanthine oxidase system and the MPO-H2O2-halide system convert diphenylfuran into cis-dibenzoylethylene, an effect which is compatible with, although not proof of, the formation of 1O2 by these systems.
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PMID:The role of myeloperoxidase in the microbicidal activity of polymorphonuclear leukocytes. 22 42

This research investigated transport of bovine milk xanthine oxidase into mammary glands of the lactating rat. Transport capability suggested an exogenous, nonmammary, source for the enzyme. Five lactating rats were injected intracardially with 100 microgram of purified iodine-125 labeled xanthine oxidase and five were injected with 100 microgram of the enzyme unpurified. Four hours later the rodents were hand-milked, and radiation was confirmed in all samples by liquid scintillation counting. Counts were recorded per volume of milk and the percentage radiation was computed. Autoradiographs of the rats indicated radiation almost exclusively associated with the mammary glands. Greatest concentration of radioactivity was in the micellar casein fraction of milk, and a compound of high molecular weight, presumably [iodine-125]xanthine oxidase, was confirmed by gel filtration of the casein. Results suggest that the compound was transported into the mammary glands. The degree of transport was dependent upon the stage of lactation.
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PMID:Transport of bovine milk xanthine oxidase into mammary glands of the rat. 64 Dec 39

In this study it was shown that the rat blood serum xanthine oxidase (X.O.) is differently inhibited by -SH reagents and seems that the blood serum enzyme has two types of -SH groups, one reacting relatively rapidly and unrelated to the enzyme activity and the other reacting slowly to produce inactivation. The results presented suggest that there are only few fundamental relationship between the different -SH reagents used and the inhibition of the enzyme activity in the blood serum. With mercurials it was shown that the most reactive -SH groups of the rat blood serum are not related to the X.O. activity, but when sufficient number are reacted the enzyme is structurally altered so that inhibition appears. With oxidants such as iodine the inhibition of the X.O. activity of rat blood serum seems to be not related specifically with the oxidation of -SH groups.
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PMID:The chemistry of the inhibition of blood xanthine oxidase by -SH reagents. 103 94

Erythrocytes are hemolyzed by myeloperoxidase, an H2O2-generating system (glucose + glucose oxidase; hypoxanthine + xanthine oxidase) and an oxidizable cofactor (chloride, iodide, thyroxine, triiodothyronine). The combined effect of chloride and either iodide or the thyroid hormones is greater than additive. Myeloperoxidase can be replaced by lactoperoxidase in the iodide-, thyroxine and triiodothyronine-dependent, but not in the chloride-dependent, systems. Hemolysis is is inhibited by the peroxidase inhibitors, azide and cyanide, and by catalase and is stimulated by superoxide dismutase when the xanthine oxidase system is employed as the source of H2O2. Hemolysis by the iodide-dependent system is associated with the iodination of erythrocyte components.
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PMID:Hemolysis and iodination of erythrocyte components by a myeloperoxidase-mediated system. 117 52

Intralobular heterogeneity of oxidative stress and its topographic relationship with cell death during low-flow hypoxia were shown in perfused rat liver by digital microfluorography using dichlorofluorescin diacetate, a fluorochrome sensitive to intracellular hydroperoxide formation, and propidium iodide, which labels the nuclei of nonviable cells. The surface of the liver loaded with two precursors was microscopically visualized, and the fluorescence of dichlorofluorescein, a highly fluorescent molecule generated by hydroperoxide-mediated dichlorofluorescin oxidation, was digitally processed. Dichlorofluorescein fluorescence significantly increased in midzonal regions as early as 20 minutes after starting the 25% low-flow hypoxia. At 40 minutes the fluorograph showed multiple dotted patterns, and the intensity peaked at 60 minutes. The onset of cell death studied by propidium iodide was observed at 40 minutes, and its topographic distribution corresponded to the dichlorofluorescein-enhanced midzonal regions. Allopurinol diminished the early midzonal oxidative stress and retarded the onset of cell death. The current findings show that xanthine oxidase-dependent oxidative stress and the resultant cell death during low-flow hypoxia are spatially restricted in the intermediate zone between the periportal and pericentral regions.
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PMID:Early midzonal oxidative stress preceding cell death in hypoperfused rat liver. 149 48

We have previously shown that gut ischemia/reperfusion (I/R) causes simultaneous liver and lung dysfunction and that neutrophils play a critical role in this process. The purpose of this study was to ascertain whether xanthine oxidase (XO) was likewise operational. Normal and XO-inactivated rats (given a tungsten-enriched, molybdenum-depleted diet for 3 weeks) underwent 45 minutes of occlusion of the superior mesenteric artery, and control rats were subjected to a sham laparotomy. After zero and six hours of reperfusion, blood was sampled and livers and lungs harvested. Iodine-125-labeled albumin leak was used as a marker for pulmonary and liver capillary permeability barrier function, and serum acetoacetate/3-hydroxybutyrate (AcAc/3-OHB) levels as an index of hepatic mitochondrial redox state. Gut ischemia/six hours of reperfusion (I/R) increased the 125I albumin lung/blood ratio and the 125I albumin liver/blood ratio; AcAc/3-OHB levels decreased significantly. Xanthine oxidase activation eliminated the observed lung and liver capillary leak as well as the hepatic metabolic derangement induced by gut I/R. In conclusion, the simultaneous lung and liver dysfunction produced by gut I/R is mediated by XO.
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PMID:Simultaneous liver and lung injury following gut ischemia is mediated by xanthine oxidase. 161 31

This study was designed to probe the hypothesis that oxygen-derived free radicals are involved in initiation of the no-reflow phenomenon. We developed a reproducible model of no reflow in the rat hind limb. Laser Doppler studies confirmed that the hind limbs perfused well after 2 or 4 hours of ischemia, but perfusion ceased in the first 10 minutes after 6 hours of ischemia. Venous blood samples and biopsy specimens of skin and muscle were taken after 2 and 4 hours of ischemia to study tissue injury. Blood samples were evaluated for xanthine oxidase (XO), xanthine dehydrogenase, and creatine phosphokinase (CPK) activities. Conjugated dienes and iodine 125-labeled albumin extravasation were quantified in tissue samples. Groups of animals were treated with inhibitors of XO (allopurinol), antioxidant enzymes (superoxide dismutase plus catalase), and free radical scavengers (dimethyl sulfoxide and dimethyl thiourea) to assess the roles of free radicals in ischemia-reperfusion injury in the hind limbs. After 4 hours of ischemia followed by reperfusion, plasma XO activity rose threefold over preischemia levels (p less than 0.05). Xanthine dehydrogenase activity did not change; conjugated diene levels in muscle rose twofold; CPK levels rose sixfold, and 125I albumin extravasation rose twofold (p less than 0.05). Pretreatment with the XO inhibitor allopurinol reduced XO activity to negligible levels and significantly attenuated conjugated diene levels, CPK levels, and albumin extravasation. Albumin extravasation was also significantly attenuated by pretreating animals with superoxide dismutase together with catalase, dimethyl thiourea, and dimethyl sulfoxide. In all animals pretreated with allopurinol or superoxide dismutase and catalase, reperfusion persisted after 6 hours of ischemia. These data suggest that, in ischemia followed by reperfusion, tissue injury is related to oxygen products derived from XO activity.
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PMID:Xanthine oxidase: its role in the no-reflow phenomenon. 173 87

Oxygen free radicals (OFR) are thought to mediate ischemia-reperfusion injury to endothelium of heart, lung, brain, liver, and kidney and contribute to development of atherosclerosis, pulmonary O2 toxicity, and adult respiratory distress syndrome. Increased cytosolic free Ca2+ (Cai2+) has been proposed as a mechanism of injury from oxidative stress, yet the pathways by which an increase in Cai2+ may cause OFR-mediated endothelial cell injury remain unknown. Using multiparameter digitized video microscopy and the fluorescent probes, fura-2 acetoxymethyl ester and propidium iodide, we measured Cai2+ and cell viability in human umbilical endothelial cells during oxidative stress with xanthine (50 microM) plus xanthine oxidase (40 mU/ml). Oxidative stress caused a sustained increase in Cai2+ from a resting level of 90-100 nM to near 500 nM, which was preceded by formation of plasma membrane blebs. The increase in Cai2+ was prevented by removal of extracellular Ca2+ (Cao2+). Prevention of the increase in Cai2+ was associated with prolonged cell viability. Readdition of Cao2+ resulted in an immediate large increase in Cai2+ and rapid onset of cell death. The protease inhibitors, leupeptin and pepstatin, delayed the increase in Cai2+ and prolonged cell viability. The results are consistent with the hypothesis that endothelial cell injury due to oxidative stress may be the result of Cai2+ influx and resultant activation of Ca(2+)-dependent proteases.
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PMID:Cytosolic free Ca2+ and proteolysis in lethal oxidative injury in endothelial cells. 195 73

The mechanism underlying demyelination in inflammatory canine distemper encephalitis is uncertain. Macrophages and their secretory products are thought to play an important effector role in this lesion. Recently, we have shown that anti-canine distemper virus antibodies, known to occur in chronic inflammatory lesions, stimulate macrophages leading to the secretion of reactive oxygen species (ROS). To investigate whether ROS could be involved in demyelination, dog glial cell cultures were exposed to xanthine/xanthine oxidase (X/XO), a system capable of generating O2-. This treatment resulted in a specific time-dependent degeneration and loss of oligodendrocytes, the myelin producing cells of the central nervous system. Initial degeneration was not associated with a decrease in viability of oligodendrocytes as judged by trypan blue and propidium iodide exclusion. Astrocytes and brain macrophages were not affected morphologically by this treatment. Further, an evaluation of the effect of several ROS scavengers, transition metal chelators and inhibitors of poly (ADP-ribose) polymerase suggests that a metal dependent formation of .OH or a similar highly oxidizing species could be responsible for the observed selective damage to oligodendrocytes.
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PMID:Selective degeneration of oligodendrocytes mediated by reactive oxygen species. 196 21


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