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)

Milk xanthine oxidase (XO) has been prepared in a dehydrogenase form (XDH) by purifying the enzyme in the presence of 2.5 mM dithiothreitol. Unlike XO, which reacts rapidly only with oxygen and not with NAD, the XDH form of the enzyme reacts rapidly with NAD. XDH has a turnover number for the NAD-dependent conversion of xanthine to urate of 380 mol/min/mol at pH 7.5, 25 degrees C, with a Km = < or = 1 microM for xanthine and a Km = 7 microM for NAD, but has very little O2-dependent activity. There is evidence that the two forms of the enzyme have different flavin environments: XDH stabilizes the neutral form of the flavin semiquinone and XO does not. Further, XDH binds the artificial flavin 8-mercapto-FAD in its neutral form, shifting the pK of this flavin by 5 pH units, while XO binds 8-mercapto-FAD in its benzoquinoid anionic form. XDH can be converted back to the XO form by the addition of three to four equivalents of the disulfide-forming reagent 4,4'-dithiodipyridine, suggesting that, in the XDH form of the enzyme, disulfide bonds are broken; this may cause a conformational change which creates a binding site for NAD and changes the protein structure near the flavin.
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PMID:Purification and properties of milk xanthine dehydrogenase. 132 33

Xanthine oxidase/dehydrogenase (XO/XDH) increases at mid gestation in mammary gland but not in liver of the mouse and remains elevated until the pups are weaned at 20 d post partum. The increase in enzyme activity is due neither to alteration in activators or inhibitors nor to a production of a variant enzyme with altered catalytic properties. The increase is preceded in vivo by a surge of prolactin-like activity (placental lactogen) in plasma, and prolactin is required for induction of XO/XDH in explant culture in vitro. Induction of XO/XDH in vivo and in vitro precedes the full histological differentiation of the gland. In addition, induction of XO/XDH in vitro occurs more rapidly and at lower concentrations of prolactin than does histological differentiation. Thus although XO/XDH is present in milk, increased XO/XDH activity is an early event in mammogenesis in vivo and in vitro rather than a terminal component of differentiation.
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PMID:Xanthine oxidase/dehydrogenase in mammary gland of mouse: relationship to mammogenesis and lactogenesis in vivo and in vitro. 176 90

Clinical evidence has suggested that mitomycin C (MMC) potentiates doxorubicin (DOX) induced cardiotoxicity. In this study a mouse model was used to examine the effect of DOX on the ability of cardiac tissue to bioactivate MMC to generate oxygen radicals. Cardiac damage was assessed by measuring serum CPK-MB isoenzyme levels and thiobarbituric acid reactive substances (TBARS) in the cardiac tissue. The exposure of animals to DOX or DOX and MMC over a three week period led to an increase in serum CPK-MB isoenzyme levels as well as TBARS. Treatment with DOX led to an increase in MMC-dependent, NADH-dependent, cyanide insensitive oxygen consumption, compared to control animals, thereby suggesting increased MMC-dependent oxygen radical generation. Levels of xanthine oxidase (XO; EC 1.1.3.22) and NADPH:cytochrome C reductase, two enzymes known to bioactivate MMC with subsequent oxygen radical generation, were measured in cardiac tissue with a 4.5 x increase in XO activity seen in DOX treated animals vs controls and no change in NADPH:cytochrome C reductase activity. Cardiac levels of xanthine dehydrogenase (XDH; EC 1.1.1.204) activity in DOX treated animals decreased while the XO/XDH ratio increased, suggesting a conversion of XDH to XO following DOX treatment.
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PMID:Role of xanthine oxidase in the potentiation of doxorubicin-induced cardiotoxicity by mitomycin C. 191 Oct 46

The present study tested the hypothesis that calpain is responsible for the limited proteolytic conversion of xanthine dehydrogenase (XD) to xanthine oxidase (XO). We compared the effects of various proteases on the activity and molecular weight of a purified preparation of xanthine dehydrogenase from rat liver. In agreement with previous reports, trypsin treatment produced a complete conversion of XD to XO accompanied by a limited proteolysis of XDH from an Mr of 140 kD to an Mr of 90 kD. Treatment with calpain I or calpain II did not produce a conversion from XD to XO nor did it result in partial proteolysis of the enzyme. Similarly, trypsin treatment partially degraded a reversibly oxidized form of xanthine dehydrogenase while calpain I or calpain II were ineffective. The possibility that an endogenous inhibitor prevented the proteolysis of XDH by calpain I or II was excluded by verifying that brain spectrin, a known calpain substrate, was degraded under the same incubation conditions. The results indicate that calpain is not likely to be responsible for the in vivo conversion of XD to XO under pathological conditions.
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PMID:Proteolytic conversion of xanthine dehydrogenase to xanthine oxidase: evidence against a role for calcium-activated protease (calpain). 255 23

Xanthine dehydrogenase (XDH; EC 1.2.1.37) activity in the clawed frog, Xenopus laevis, was detected in kidney tissue homogenates, but not in skin, liver, ovaries or gut tissues. The enzyme migrated as a single band of activity on both polyacrylamide and starch gel electropherograms, exhibited substrate inhibition, and did not appear developmentally until feeding larval stages. The tissue specificity, post-fertilization stage of appearance and single isozymic form make this a useful enzyme marker for further study concerning its developmental appearance and maintenance as a kidney-specific protein.
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PMID:Xanthine dehydrogenase activity in the clawed frog, Xenopus laevis. 658 98

Reactive oxygen species play an important role in pathogenesis of a variety of pathological processes, e.g., ischemia-reperfusion, acute viral infections, thermal injury, hepatic diseases, and acute lung injury. Xanthine oxidase (XO) may be a significant source of these cytotoxic oxygen species. We tested the hypothesis that hepatic ischemia-reperfusion releases xanthine dehydrogenase + XO (XDH + XO) into the circulation and that circulating XO damages isolated perfused lung. Isolated liver + lung preparation was perfused with Krebs-Henseleit buffer to minimize confounding effects of circulating neutrophils. In one group, livers were rendered globally ischemic for 2 h and then reperfused (I/R). In another group, livers were pretreated with allopurinol and perfused with buffer containing additional allopurinol (I/R + Allo). After 2 h of ischemia, an isolated lung was connected to liver, and liver + lung preparation was reperfused in series for 15 min. Liver reperfusion was terminated, and lung was recirculated with liver effluent for 45 min. Capillary filtration coefficient (ml.min-1.cmH2O-1.100 g lung dry wt-1) was 2.0 +/- 0.3 and 1.9 +/- 0.4 in control and I/R + Allo lungs, respectively, and 9.0 +/- 1.2 in I/R lungs (P < 0.001). Lung wet-to-dry weight ratio in control and I/R + Allo lungs was 8.6 +/- 0.3 and 9.1 +/- 0.5, respectively, and 14.9 +/- 1.1 in I/R lungs (P < 0.01). Control and I/R + Allo bronchoalveolar lavage protein content was < 1.0 mg/ml compared with 32.6 +/- 8.4 mg/ml in I/R group.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Liver ischemia-reperfusion increases pulmonary permeability in rat: role of circulating xanthine oxidase. 761 20

Endothelial cells are critical targets in both hypoxia- and reoxygenation-mediated lung injury. Reactive O2 species (ROS) have been implicated in the pathogenesis of hypoxic and reoxygenation lung injury, and xanthine dehydrogenase/oxidase (XDH/XO) is a major generator of the ROS. Porcine pulmonary artery endothelial cells (PAEC) have no detectable XDH/XO. This study was undertaken to examine 1) ROS production by hypoxic porcine PAEC and their mitochondria and 2) ROS production and injury in reoxygenated PAEC lacking XDH/XO activity. Intracellular H2O2 generation and extracellular H2O2 and O2 divided release were measured after exposure to normoxia (room air-5% CO2), hypoxia (0% O2-95% N-5% CO2), or hypoxia followed by normoxia or hyperoxia (95% O2-5% CO2). Exposure to hypoxia results in significant reductions in intracellular H2O2 formation and extracellular release of H2O2 and O2 by PAEC and mitochondria. The reductions occur with as little as a 2 h exposure and progress with continued exposure. During reoxygenation, cytotoxicity was not observed, and the production of ROS by PAEC and their mitochondria never exceeded levels observed in normoxic cells. The absence of XDH/XO may prevent porcine PAEC from developing injury and increased ROS production during reoxygenation.
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PMID:Effect of hypoxia and reoxygenation on the formation and release of reactive oxygen species by porcine pulmonary artery endothelial cells. 762 87

In the present study, we have explored further the organization of the TATA-less rat xanthine dehydrogenase/oxidase gene (XDH/XO). A DNase I hypersensitive site has been identified which it colocalizes with the basal promoter reported previously [Chow et al. (1994) Nucleic Acids Res., 22, 1846-1854]. Gel mobility shift assays indicate the presence of multiple binding factors located in the promoter. At least six footprints were detected of which two have been shown to be C/EBP binding sites. Members of the C/EBP-alpha and C/EBP-beta, but not C/EBP-delta, family are able to bind to these two sites. Deletional and mutational studies revealed that C/EBP binding is not essential for the basal level of transcription initiation of this promoter. Much of the transcriptional activity resides in the -102 to -7 DNA fragment, which contains all initiator activity which acts unidirectionally. Within this fragment, four putative initiator elements could be identified; interestingly, the linear integrity of these initiators is important for efficient transcription of the XDH/XO gene. Separation of the initiators leads to a complete loss of transcription activity; however, this loss could be partially restored by the introduction of an Sp1 binding site upstream of the separated initiators. Despite a difference in usage/frequency of initiation at the various initiators, primer extension analyses reveal similar positions for transcription initiations in both XDH/XO reporter constructs and in the endogenous XDH/XO gene. The differential usage of initiators may imply a possible post-transcriptional regulation for the XDH/XO gene.
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PMID:Multiple initiators and C/EBP binding sites are involved in transcription from the TATA-less rat XDH/XO basal promoter. 766 89

Xanthine dehydrogenase (XDH, EC 1.1.1.204) oxidizes a variety of purines, pterins, and other heterogenic nitrogen compounds, serving as a rate-limiting enzyme in nucleic acid degradation. The genetic defect of XDH results in hereditary xanthinuria and other disorders in purine metabolism. Based on the cloning and sequencing results of human XDH cDNA in our laboratory, we studied the localization and sublocalization of the XDH gene. A Version 3.0 human-hamster somatic cell hybrid PCRable DNA panel and specific PCR primers derived from human XDH cDNA for amplification were used to assign the XDH gene to human chromosome 2. The fidelity of the PCR product was confirmed by nucleotide sequencing the PCR product. The assignment of the XDH gene to chromosome 2 at band p22 was established by fluorescence in situ hybridization on human metaphase chromosomes using a clone from a pWE 15 cosmid library containing the XDH gene. The results should be useful for further studies of the molecular basis for hereditary xanthinuria and other genetic disorders related to abnormal XDH activity.
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PMID:Assignment of human xanthine dehydrogenase gene to chromosome 2p22. 782 92

An investigation was made into the possible involvement of the enzyme xanthine oxidase (XO) (EC 1.1.3.22), both reversible (XOrev) and irreversible (XOirr), in damage observed after short-term in vivo hepatic ischaemia/reperfusion (60 or 120 min I and 15 min R) in fasted rats with: (i) a physiological content of XO (25%); and (ii) higher XO percentage (45%). In the latter the hepatic XO physiological percentage was increased by diethylmaleate treatment (300 mg kg-1) that depleted the cytosolic glutathione (GSH) to 14% of the controls. It was shown that, in animals with physiological content of XO, 60 and 120 min of hepatic ischaemia followed by 15 min reperfusion results in decreased GSH levels, and significantly increased alanine aminotransferase (ALT) and aspartate aminotransferase (AST) serum levels, without any modification of either the percentages of XO (XOirr and XOrev) or the hepatic thiobarbituric acid reactive substances (TBARS). Sixty minutes of ischaemia/reperfusion in rats with the higher XO level and lower hepatic GSH content led to further conversion of XDH to XOrev, with no increase in XOirr. In addition, the ALT and AST serum levels in these animals rose to the same extent as in normal rats after 120 min ischaemia and 15 min reperfusion, this extent being observed to be associated with a moderate increase in thiobarbituric acid reactive substances (TBARS). However, the administration of allopurinol, at a dose of 50 mg kg-1, which almost completely inhibits XO activity, did not lead to any decrease in liver damage or TBARS.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:No documentable role for xanthine oxidase in the pathogenesis of hepatic in vivo ischaemia/reperfusion injury. 786 19

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