Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

When Trolox (a polar analog of vitamin E) is conjugated to p-aminophenyl-beta-D-lactopyranoside, the resulting lactosylphenyl Trolox becomes a markedly more stable and effective hepatoprotector than Trolox. In primary rat hepatocytes exposed to xanthine oxidase-hypoxanthine, lactosylphenyl Trolox prolonged cell survival better than did Trolox, mannitol or ascorbate. In rats that underwent 80-min partial hepatic ischemia, infusion of lactosylphenyl Trolox at 2.9 to 5.7 mumol/kg body wt just before reoxygenation salvaged the organ more extensively than did Trolox. Mechanistically, we showed (a) that lactosylphenyl Trolox does not inhibit xanthine oxidase; (b) that lactosylphenyl Trolox effectively scavenges oxyradicals generated with xanthine oxidase and the peroxyl radicals produced with 2,2'-azo-bis(2-amidinopropane) HCl; (c) that both in hepatocytes and in vivo, lactosylphenyl Trolox is distinctly more cytoprotective than either or both of its precursors; and (d) that lactosylphenyl Trolox is amphipathic (i.e., it has both hydrophilic and hydrophobic properties), which enable it to better access and protect the lipid and aqueous milieus of the cell than the lipophile vitamin E and the moderately polar Trolox. Thus there are strong fundamental reasons for lactosylphenyl Trolox being an effective antioxidant-based hepatoprotector.
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PMID:Enhancement in antioxidant-based hepatoprotective activity of Trolox by its conjugation to lactosylphenylpyranoside. 154 27

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

Copper(II)2(3,5-diisopropylsalicylate)4 [Cu(II)2(3,5-DIPS)4] has been found to have antiinflammatory, antiulcer, anticancer, anticonvulsant, antimutagenic, antidiabetic, analgesic, and radiation protection and recovery activities. It has also been found to reduce ischemia-reperfusion injury. Because of these activities it was of interest to understand how this compound is transported in the body to affected tissues. Evidence supporting the suggested formation of ternary human serum albumin (HSA)-Cu(II)(3,5-DIPS)2 or Cu(II)2(3,5-DIPS)4 complexes was obtained using ultraviolet spectrophotometry, dialysis, and atomic absorption spectrophotometry or atomic emission spectroscopy. Superoxide dismutase (SOD)-mimetic activity was also determined using the xanthine/xanthine oxidase/cytochrome c system. Ultraviolet spectra of aqueous solution mixtures of Cu(II)2(3,5-DIPS)4 in equilibrium with 2Cu(II)(3,5-DIPS)2 and HSA as well as aqueous solutions of solid Cu(II)2(3,5-DIPS)4 obtained by stirring the solid with an aqueous solution of HSA showed no obvious change in absorbance to indicate ternary complex formation. However, comparison of ultraviolet spectra taken before and after dialysis supports the suggested bonding of Cu(II)(3,5-DIPS)2 or Cu(II)2(3,5-DIPS)4 to HSA. Comparison of copper concentrations before and after dialysis also supports the suggested bonding of Cu(II)(3,5-DIPS)2 or Cu(II)2(3,5-DIPS)4 to HSA. Based upon these data it is plausible that Cu(II)(3,5-DIPS)2 or Cu(II)2(3,5-DIPS)4 form stable ternary complexes with HSA. These stable ternary complexes were also found to have SOD-mimetic activity.
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PMID:Stable superoxide dismutase (SOD)-mimetic ternary human serum albumin-Cu(II)(3,5-diisopropylsalicylate)2/Cu(II)2(3,5-diisopropylsalicylate)4 complexes in tissue distribution of the binary complex. 156 81

Transient mucosal ischemia may cause oxygen-derived free radical production by xanthine oxidase, precipitating pouchitis after ileal pouch-anal anastomosis. Our aim, therefore, was to determine the effect of allopurinol, a xanthine oxidase inhibitor, in patients with acute and chronic pouchitis. Acute pouchitis was characterized clinically by sporadic episodes of increased frequency and decreased viscosity of stools, hematochezia, fever, malaise, and pelvic pain, which resolved promptly with treatment. Chronic pouchitis patients required continuous treatment to remain asymptomatic and invariably developed the signs and symptoms of pouchitis within one week following cessation of therapy. Eight patients with acute pouchitis were treated with allopurinol (300 mg p.o. b.i.d.) during the episode. Fourteen patients with chronic pouchitis had their standard antibiotic therapy discontinued while still asymptomatic; they were then given allopurinol (300 mg p.o. b.i.d.) for 28 days. Acute pouchitis resolved promptly in four of eight patients. Seven of the 14 patients with chronic pouchitis responded completely with no recurrence of symptoms during treatment. Allopurinol either terminated an episode of acute pouchitis or prevented pouchitis from recurring in 50 percent of patients. These data support a role for mucosal ischemia and oxygen free radical production in the etiology of pouchitis.
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PMID:Role of oxygen free radicals in the etiology of pouchitis. 156 95

Allopurinol has been reported to improve cell survival in a variety of conditions, including the ischemia-reperfusion injury occurring in skin flaps. It has been suggested that the beneficial effect of allopurinol on rat skin flaps is through blockage of xanthine oxidase-generated oxygen-derived free radicals. We have previously reported on the lack of xanthine oxidase activity in the skin of humans and pigs as compared with that of rats. This current study attempts to improve skin and myocutaneous flap survival in pigs in two separate experiments using allopurinol. In the first experiment, a suspension of 50 mg/kg (N = 12) allopurinol resulted in no significant difference in the survival of control and treated flaps. Because of the negative results in the first experiment, a second experiment was designed making several changes. The length of the global ischemic insult was reduced from 8 to 6 hours, and allopurinol was administered as a solution of 300 mg/kg (N = 14). This higher dose is expected to produce complete inhibition of xanthine oxidase in this animal model. These changes resulted in three operative deaths, no improvement in skin-flap survival, and a decrease in myocutaneous flap survival. Allopurinol's therapeutic effectiveness and its mechanism of action in an ischemia-reperfusion injury model lacking xanthine oxidase activity are discussed.
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PMID:Effect of allopurinol on the survival of experimental pig flaps. 158 70

Free radicals have been implicated in the injury that occurs to brain tissue in response to ischemia and reperfusion insults. Confirmatory in vivo studies have been limited by the difficulty in measuring free radicals in brain tissue. This review discusses potential mechanisms for free radical production in brain tissue and the evidence supporting the therapeutic efficacy of free radical scavengers. Free radicals may be produced during ischemia/reperfusion as a result of multiple mechanisms involving normal regulatory systems of intra-/extracellular metabolism. For example, metabolism of free fatty acids by the cyclo-oxygenase pathway and adenine nucleotides by xanthine oxidase has been proposed to produce free radical adducts during reperfusion. Therapeutic strategies aimed at decreasing brain injury from free radical production include administration of free radical scavengers at the time of reperfusion. Pharmacologic interventions for protection from free radical injury in brain are hindered because of limited access to the site of free production.
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PMID:Evidence for free radical mechanisms of brain injury resulting from ischemia/reperfusion-induced events. 158 6

It is well known that reactive oxygen metabolites are generated during several pathologies, and that they are able to disturb many cellular processes and eventually lead to cellular injury. After intestinal ischemia, reactive oxygen species are produced when the ischemic tissue is reperfused. The enzyme xanthine oxidase is thought to play a key role in this process. As a result of this oxygen radical production, the permeability of the endothelium and the mucosa increases, allowing infiltration of inflammatory leukocytes into the ischemic area. Moreover, reactive oxygen species are also indirectly involved in leukocyte activation. In turn, these inflammatory cells respond with the production of oxygen radicals, which play an important role in the development of tissue injury. Thus, intestinal ischemia and reperfusion evokes an inflammatory response. Also during chronic intestinal inflammatory diseases, reactive oxygen metabolites are proposed to play an important role in the pathology. Scavenging of reactive oxygen species will thus be beneficial in these disorders.
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PMID:Role of reactive oxygen species in intestinal diseases. 160 25

We have previously demonstrated that oxypurinol (40 mg/kg i.p.), a xanthine oxidase inhibitor, can reduce focal ischemic brain injury in the rat when applied pre-ischemically. By using a model of occlusion of the middle cerebral artery (MCA) in tandem with occlusion of the ipsilateral carotid artery, the present study further demonstrates that delayed (60 min) administration of oxypurinol also exhibits a protective action on ischemic damage in the stroked rat brain. Oxypurinol significantly reduced the ischemic cerebral infarct zone by preventing the development of brain damage primarily in areas distant to the central lesion core. A corresponding amelioration of brain swelling and attenuation of neurological deficits were evident. Similar protection against focal ischemic brain damage was evident when the adenosine deaminase inhibitor, deoxycoformycin (500 micrograms/kg), was administered prior to the onset of ischemia. However, with delayed (60 min) administration deoxycoformycin had no protective effect. These findings support the hypothesis that manipulation of adenosine catabolism can be an effective therapeutic approach to the prevention or treatment of brain injuries, such as those occurring during ischemic stroke or cardiac arrest.
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PMID:Deoxycoformycin and oxypurinol: protection against focal ischemic brain injury in the rat. 161 98

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

The following species; superoxide (O2-.), hydrogen peroxide (H2O2), hydroxyl radical (.OH) and singlet oxygen (1O2), are generally called as reactive oxygen species (ROS). These species have been suggested to play important roles in various diseases caused by oxygen toxicity such as ischemia, carcinogenesis, inflammation, diabetes and aging. During the past two decades, considerable interests have been focused on chemical and biological research of ROS. We have also reported about the research results on ROS, which can be classified as following below; 1) chemical reactivities of O2-., 2) formation and toxicity of 1O2, 3) chemical reactivities of .OH, 4) enzyme mechanism of xanthine oxidase, 5) development of the compounds which induce the formation of O2-. and H2O2 in living cells and 6) development of superoxide dismutase mimics. These studies are reviewed from the standpoint of both chemical and biological interests.
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PMID:[Chemical and biochemical studies on reactivities, formations and toxicities of reactive oxygen species]. 164 54


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