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)

The present studies were undertaken to determine the effects of reactive oxygen metabolites on erythropoietin (Ep) biosynthesis in Ep-producing renal carcinoma (RC) cells using a sensitive radioimmunoassay for Ep. Xanthine (10-5M) and increasing concentrations of xanthine oxidase (8 x 10(-7) to 5 x 10(-4) units/ml) produced a significant dose-related increase in Ep production at a concentration of greater than or equal to 4 x 10(-6) units/ml, whereas xanthine alone had no effect. Catalase, a scavenger of hydrogen peroxide (H2O2), in concentrations of 50 to 500 micrograms/ml produced a significant inhibition of the increase in Ep production induced by xanthine-xanthine oxidase; while no effect was seen on basal levels of Ep production and the growth of RC cells. Glucose oxidase (greater than or equal to 0.032 mU/ml), a direct H2O2 generator, and exogenous H2O2 (greater than or equal to 4 x 10(-6)M) added to the incubation mixture, caused a significant enhancement of Ep production in a dose-dependent manner. Xanthine-xanthine oxidase, glucose oxidase, and H2O2 in the above concentrations did not produce significant cytotoxicity (51Cr release or trypan blue dye exclusion). The present data suggests that H2O2, a reactive oxygen metabolite may play a significant role in Ep production.
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PMID:Effects of reactive oxygen metabolites on erythropoietin production in renal carcinoma cells. 340 Dec 35

A study has been made of the damage incurred by normal and Plasmodium falciparum-infected human erythrocytes following exposure to a variety of oxidant-generating systems. Hydrogen peroxide, produced by the glucose-glucose oxidase system, increased methaemoglobin formation within normal erythrocytes while normal levels of oxyhaemoglobin were maintained. Exposure to products of the xanthine-xanthine oxidase interaction did not have the same effect. Malondialdehyde measurements indicated that the host cell membranes of parasitized cells had undergone lipid peroxidation even before exposure to the oxidant-generating systems. Lipid peroxidation of normal and parasitized cell membranes was increased upon exposure to reagent-grade hydrogen peroxide and alloxan: this increase was not observed following exposure to the two enzyme-substrate systems that generated reactive oxygen intermediates. In addition, the effects of parasitism on intracellular levels of catalase and superoxide dismutase were assessed. Normal and parasitized erythrocytes were found to possess similar levels of these enzymes, which protect against oxidant-induced damage. It was therefore concluded that the increased susceptibility of infected cells to oxidant damage was probably not related to any decrease in the function of these enzymes.
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PMID:Damage to malaria-infected erythrocytes following exposure to oxidant-generating systems. 352 61

Exposure of red blood cells to oxygen radicals can induce hemoglobin damage and stimulate protein degradation, lipid peroxidation, and hemolysis. To determine if these events are linked, rabbit erythrocytes were incubated at 37 degrees C with various oxygen radical-generating systems and antioxidants. Protein degradation, measured by the production of free alanine, increased more than 11-fold in response to xanthine (X) + xanthine oxidase (XO). A similar increase in proteolysis occurred when the cells were incubated with acetaldehyde plus XO, with ascorbic acid plus iron (Asc + Fe), or with hydrogen peroxide (H2O2) alone. Upon addition of XO, increased proteolysis was evident within 5 min and was linear for up to 5 h. In contrast, lipid peroxidation, as shown by the production of malonyldialdehyde, conjugated dienes, or lipid hydroperoxides was observed only after 2 h of incubation with X + XO, acetaldehyde + XO, or H2O2. Ascorbate plus Fe2+ induced both protein degradation and lipid peroxidation; however, the addition of various antioxidants (urate, xanthine, glucose, or butylated hydroxytoluene) decreased lipid peroxidation without affecting proteolysis. Thus, these processes seem to occur by distinct mechanisms. Furthermore, at low concentrations of XO, protein degradation was clearly increased in the absence of detectable lipid peroxidation products. Hemolysis occurred only in a small number of cells (9%) and followed the appearance of lipid peroxidation products. Thus, an important response of red cells to oxygen radicals is rapid degradation of damaged cell proteins. Increased proteolysis seems to occur independently of membrane damage and to be a more sensitive indicator of cell exposure to oxygen radicals than is lipid peroxidation.
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PMID:Oxygen radicals stimulate intracellular proteolysis and lipid peroxidation by independent mechanisms in erythrocytes. 359 72

Two dermatophyte strains, Trichophyton quinckeanum and Trichophyton rubrum, were highly susceptible to in vitro killing by components of the H2O2-peroxidase-halide system. Both strains were, however, resistant to relatively high concentrations of reagent H2O2 or H2O2 enzymatically generated by glucose and glucose oxidase, KI, or lactoperoxidase (LPO) alone. Resistance to hydrogen peroxidase killing was found to be in part due to the presence of endogenous catalase in the fungi; susceptibility was increased by pretreatment of the fungi with a catalase inhibitor. Kinetic studies using small quantities of reagent or enzymatically generated H2O2 and LPO-KI showed that the system was lethal for both fungal strains within 1 min. Furthermore, using the glucose-glucose oxidase-LPO-KI system, it was shown that catalase, superoxide dismutase and histidine scavengers of H2O2, superoxide anion and singlet oxygen, respectively, prevented the killing of fungus, whereas scavengers of hydroxyl radicals such as benzoate and mannitol had no effect. T. quinckeanum was found to contain large quantities of superoxide anion, as judged by the nitroblue-tetrazolium test. Consequently, the xanthine (or hypoxanthine) and xanthine oxidase system in which the main product is superoxide anion had no toxic effect on the fungus. The high sensitivity of dermatophytes to killing by the H2O2-peroxidase-halide system active in polymorphonuclear neutrophils and macrophages may account in part for fungal toxicity in vivo.
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PMID:Susceptibility of Trichophyton quinckeanum and Trichophyton rubrum to products of oxidative metabolism. 361 Feb 10

Evidence is presented that, as in cardiomyocytes, vascular endothelial cells use fatty acids, in addition to glucose, as a respiratory fuel. Attention is focused on the cardiac interstitium, lined by vascular cells and cardiomyocytes, which may be enriched with metabolic products from these cells. Also, certain proteins are present in the interstitial fluid (Qi) such as plasma proteins and fatty acid binding protein (FABP). However, the concentration of FABP is so low in Qi that albumin is more important to shuttle long chain fatty acids in the interstitial fluid between cardiomyocytes and the vascular compartment. Under hypoxic conditions (hypo)xanthine, lactate and fatty acids may be expected to accumulate in the interstitium, as well as proteins from adjacent cells, such as xanthine oxidase from endothelial cells. This enzyme, acting upon the elevated level of (hypo)xanthine, giving rise to O2-., may be involved in the damage of the ischaemic heart. The significance of the interstitium in ischaemia and in fibrosis following long standing cardiac lipidosis is briefly discussed, as well as the possible mechanisms involved in fatty acid transport in the heart.
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PMID:Substrates for energy metabolism in the heart: the role of the interstitial compartment. 366 8

The stimulation of hepatic glycogenolysis by platelet activating factor (AGEPC) or increased perfusate potassium concentration ([K+]o), but not phenylephrine, causes a transient increase in uric acid release into the effluent perfusate of perfused rat livers. Uric acid was identified in chromatograms of perfusate samples using reversed-phase h.p.l.c., which show a peak which co-elutes with authentic uric acid, and by the fact that the A293 of perfusate samples decreases in the presence of uricase. Uric acid release is dose-dependent with respect to both AGEPC and [K+]o, and is blocked completely by prior exposure of the perfused liver to 5 mM-allopurinol, a specific inhibitor of xanthine oxidase (XOD). Allopurinol inhibits the increase in portal vein pressure induced by AGEPC, increased [K+]o or phenylephrine; the inhibitory effect increases with increasing concentrations of the agents. Also, allopurinol inhibits the second phase of O2 uptake and glucose release characteristic of concentrations of AGEPC or increased [K+]o equal to or greater than their reported half-maximal concentration for glucose release. The ratio of xanthine dehydrogenase (XDH) to XOD activity in extracts of freeze-clamped perfused livers is not affected by treatment of the livers with AGEPC or increased [K+]o. The results suggest that uric acid production may be an indicator of ischaemia within localized hepatic sinusoids, and that allopurinol partially protects the hepatocyte from the effects of AGEPC or increased [K+]o by inhibiting XOD-dependent superoxide production. We propose that the second phase of the glycogenolytic response to these agents results from ischaemia and subsequent reperfusion. Activation of XOD in vivo and hence O2-derived free radical production may be involved in the response of the liver to vasoactive agonists under a variety of pathophysiological conditions.
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PMID:Stimulation of uric acid release from the perfused rat liver by platelet activating factor or potassium. 368 45

The parameters of enzyme electrodes based on organic metals are presented. Cytochrome b2 (E.C. 1.1.2.3), glucose oxidase (E.C. 1.1.3.4), xanthine oxidase (E.C. 1.2.3.2) and peroxidase (E.C. 1.11.1.7) were used in electrodes sensitive to L-lactate, glucose, hypoxanthine and hydrogen peroxide. Electrocatalytic oxidation of NADH on organic metals and ethanol and acetaldehyde sensitive electrodes containing alcohol dehydrogenase (E.C. 1.1.1.1) were studied. Biocatalytic charge accumulation, the mechanism of electron exchange between the enzyme active centres and organic metals, and the future application of organic metals are discussed.
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PMID:Enzyme electrodes based on organic metals. 379 Jan 76

The biliary GSSG efflux rate of normoxic perfused rat liver was 1.5 +/- 0.2 nmol/min/g liver wet weight. The GSSG efflux rate as indicator for the flux through the glutathione peroxidase reaction and, therefore, for an oxidative loading increased with the extent of hypoxia. 2.6 +/- 0.5 nmol/min/g were released from the severely hypoxic liver. The hydroxyl radical scavenger formate as well as the xanthine oxidase inhibitor allopurinol reduced the efflux rate of GSSG. GSH was released from the perfused liver at a rate of 15.5 nmol/min/g which was nearly unchanged in severe hypoxia. The high rate of glucose liberation from the hypoxic liver declined to almost that of the normoxic organ in the presence of formate. There is an 'oxidative stress' during hypoxic liver perfusion which probably originates from increased generation of activated oxygen species in the degradation of purine nucleotides.
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PMID:Formation of activated oxygen in the hypoxic rat liver. 383 24

To develop a sensitive in vitro assay for detecting endothelial cell damage, we radiolabeled endothelial cell monolayers with tracer amounts of 2-deoxy-D-[1-3H]-glucose (3HDOG). We damaged identical cohorts of endothelial cells radiolabeled with 3HDOG or chromium 51 by exposing monolayers to toxic oxygen radicals generated by xanthine-xanthine oxidase or phorbol myristate acetate (PMA)-activated polymorphonuclear leukocytes (PMNs), a surface active agent (Triton X-100), and anti-HLA antibodies and complement. With each mechanism of injury, the 3HDOG assay detected significant (P less than 0.01) endothelial cell damage at lower concentrations of the injurious agent than the 51Cr assay. When endothelial monolayers were damaged by xanthine-xanthine oxidase or PMA-activated PMNs, efflux of 3HDOG was reduced (range 71% to 94% reduction) by superoxide dismutase and catalase, indicating that efflux of 3HDOG was mediated by toxic oxygen radicals. When monolayers were damaged with xanthine oxidase in the absence of glucose, a much lower concentration of xanthine oxidase was required to initiate efflux of 3HDOG as compared with xanthine oxidase injury in the presence of glucose. Additional studies compared the 3HDOG assay with 3H-adenine, 3H-leucine, and lactate dehydrogenase (LDH) release when endothelial cells were exposed to toxic oxygen radicals generated by PMA-activated PMNs and xanthine-xanthine oxidase. Again, the 3HDOG assay was more sensitive in detecting in vitro endothelial cell damage. We conclude that the 3HDOG assay is more sensitive than the 51Cr, 3H-adenine, 3H-leucine, or LDH release assays in detecting endothelial cell damage in vitro.
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PMID:In vitro detection of endothelial cell damage using 2-deoxy-D-3H-glucose: comparison with chromium 51, 3H-leucine, 3H-adenine, and lactate dehydrogenase. 383 30

Primary cultures of porcine aortic endothelial cells were used to assess the effects of O2 intermediates produced by 10-40 mU/ml xanthine oxidase (XO; +2 mM hypoxanthine) or 25-100 mU/ml glucose oxidase (GO; +5 mM glucose). A 60-min incubation in the presence of the enzyme systems resulted in a dose-dependent toxic effect with evidence of cytolysis (increased LDH release) and cell loss (decrease in DNA and protein content), when these indexes were measured 24 hr after completion of the enzyme reaction. Decreased [3H]thymidine incorporation into DNA was the most sensitive index of cell dysfunction for both enzyme systems. The effects of various scavengers and enzymes indicated that H2O2 was the main O2 intermediate involved in the cytotoxicity resulting from the XO-hypoxanthine reaction. Increased glutathione peroxidase activity associated with the addition of 2 X 10(-7) M selenomethionine to culture medium had a partial protective effect which could be related to an increased rate of H2O2 degradation. Evidence for increased DNA synthesis after injury was found in cells previously exposed to XO-hypoxanthine, the degree of increase in [3H]thymidine incorporation being dependent on the intensity of the initial cytotoxicity. Cultured endothelial cells provide a useful tool to evaluate the role of O2 intermediates in endothelial cell injury, to test the effects of protective agents, and to study the repair process.
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PMID:Effect of variable glutathione peroxidase activity on H2O2-related cytotoxicity in cultured aortic endothelial cells. 383 24


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