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)

Oxygen-derived free radicals have been implicated in damage to membrane phospholipids leading to alterations in membrane function. The purpose of this study was to investigate alterations in intracellular ionic calcium (Ca2+) levels and Ca2+ transients, cellular morphology, conjugated diene levels, arachidonate release, and lactate dehydrogenase release resulting from the exposure of cultured neonatal rat ventricular myocytes to a xanthine oxidase catalyzed free radical generating system capable of producing superoxide and hydroxyl radicals. The ability of alpha-tocopherol to prevent alterations due to free radical exposure was investigated. For measurements of Ca2+, myocytes grown on coverslips for 3-4 days were loaded with fura-2/AM and studied by microspectrofluorometry. Control myocytes superfused with a physiological buffer or buffer containing purine and iron-loaded transferrin exhibited Ca2+ transients associated with spontaneous contractions. For control, buffer perfused myocytes (n = 4), the fura-2 340/380 ratios were 0.5 +/- 0.1 (mean +/- S.E.) and 1.6 +/- 0.03 at the minimum and maximum, respectively, of the Ca2+ transient, after 1 h of perfusion. Exposure to the free radical generating solution (n = 14) altered intracellular Ca2+. The 340/380 minimum ratio was 639% of the control value after approximately 30-70 mins with cessation of normal Ca2+ transients. Bleb development was associated with increased Ca2+. Myocytes reperfused with control medium continued to exhibit an elevated minimum fura-2 ratio at 687% of control. Myocytes pretreated with 10 microM alpha-tocopherol (n = 13) for 18-24 h and exposed to free radicals did not exhibit increases in intracellular Ca2+, having a minimum 340/380 ratio of 0.5 +/- 0.1 after 60-90 mins, and although myocytes often ceased contracting, they resumed spontaneous Ca2+ transients with control medium reperfusion and also maintained normal structure. Exposure of myocyte cultures to free radical generating solutions resulted in increased levels of conjugated dienes and increased release of [3H]arachidonate and lactate dehydrogenase compared to control values after 1 h. alpha-Tocopherol treatment attenuated the increase in conjugated diene levels, and the release of [3H]arachidonate and lactate dehydrogenase. Thus, free radicals alter intracellular Ca2+, conjugated dienes and membrane structure indicating their ability to induce altered ionic homeostasis in association with myocardial membrane damage. alpha-Tocopherol decreased free radical mediated injury.
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PMID:Free radicals alter ionic calcium levels and membrane phospholipids in cultured rat ventricular myocytes. 212 94

The changes in short circuit current (electrogenic Cl- secretion) of rat colon brought about by xanthine/xanthine oxidase in the Ussing chamber were inhibited by catalase and diethyldithiocarbamate, but not by superoxide dismutase. These results, the reproduction of the response with glucose/glucose oxidase and with exogenous H2O2, and the lack of effect of preincubation with deferoxamine or thiourea implicate H2O2, and not O2- or OH., as the important reactive oxygen metabolite altering intestinal electrolyte transport. 1 mM H2O2 stimulated colonic PGE2 and PGI2 production 8- and 15-fold, respectively, inhibited neutral NaCl absorption, and stimulated biphasic electrogenic Cl secretion with little effect on enterocyte lactic dehydrogenase release, epithelial conductance, or histology. Cl- secretion was reduced by cyclooxygenase inhibition. Also, the Cl- secretion, but not the increase in prostaglandin production, was reduced by enteric nervous system blockade with tetrodotoxin, hexamethonium, or atropine. Thus, H2O2 appears to alter electrolyte transport by releasing prostaglandins that activate the enteric nervous system. The change in short circuit current in response to Iloprost, but not PGE2, was blocked by tetrodotoxin. Therefore, PGI2 may be the mediator of the H2O2 response. H2O2 produced in nontoxic concentrations in the inflamed gut could have significant physiologic effects on intestinal water and electrolyte transport.
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PMID:Hydrogen peroxide stimulates rat colonic prostaglandin production and alters electrolyte transport. 216 49

In this study, we attempted to elucidate the metabolic pathway and enzymes actually involved in oxalate formation from glycolate in rat and human liver. In rat liver, the formation of oxalate from glycolate appeared to take place predominantly via glyoxylate. The oxalate formation from glycolate observed with crude enzyme preparations was almost entirely accounted for by the sequential actions of glycolate oxidase and xanthine oxidase (XOD) or lactate dehydrogenase (LDH). Under the conditions used, no significant activity was attributable to glycolate dehydrogenase, an enzyme reported to catalyze the direct oxidation of glycolate to oxalate. Among the three enzymes known to catalyze the oxidation of glyoxylate to oxalate, glycolate oxidase and XOD showed much lower activities (a higher Km and lower Vmax) toward glyoxylate than those with the respective primary substrates. As to LDH, none of the LDH subunit-deficient patients examined showed profoundly lowered urinary oxalate excretion. Based on the results obtained, the presumed efficacies in vivo of individual enzymes, as catalysts of glyoxylate oxidation, and the in vivo conditions assumed to allow their catalysis of oxalate production are discussed.
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PMID:The formation of oxalate from glycolate in rat and human liver. 222 23

Toxic oxygen metabolites can damage endothelial cells and may play an important role in the initiation and progression of atherosclerotic lesions. Since the antithrombotic drug heparin, interacts with endothelium, we wished to determine if heparin would protect endothelial cells from free radical injury. Endothelial cell injury was produced by the addition of xanthine and xanthine oxidase to cultured cells and assessed by changes in cell viability and release of lactate dehydrogenase (LDH) to the media. Pretreatment with heparin 24 h prior to addition of xanthine and xanthine oxidase significantly decreased cell damage. We suggest that heparin (and related compounds) can protect endothelium from free radical damage, and is therefore prophylactic for ischemic and inflammatory injury, and the development and progression of atheroma.
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PMID:Heparin protects cultured arterial endothelial cells from damage by toxic oxygen metabolites. 239 Jan 35

Isolated Langendorff-perfused rat hearts after 10 minutes preperfusion, were subjected to a substrate-free anoxic perfusion (20 minutes) followed by 20 minutes reperfusion with a glucose-containing oxygen-balanced medium. Under the same perfusion conditions, the effect of exogenous 5mM fructose-1,6-bisphosphate has been investigated. The xanthine dehydrogenase to xanthine oxidase ratio, concentrations of high-energy phosphates and of TBA-reactive material (TBARS) were determined at the end of each perfusion period in both control and fructose-1,6-bisphosphate-treated hearts. Results indicate that anoxia induces the irreversible transformation of xanthine dehydrogenase into oxidase as a consequence of the sharp decrease of the myocardial energy metabolism. This finding is supported by the protective effect exerted by exogenous fructose-1,6-bisphosphate which is able to maintain the correct xanthine dehydrogenase/oxidase ratio by preventing the depletion of phosphorylated compounds during anoxia. Moreover, in control hearts, the release of lactate dehydrogenase during reperfusion, is paralleled by a 50% increase in the concentration of tissue TBARS. On the contrary, in fructose-1,6-bisphosphate-treated hearts this concentration does not significantly change after reoxygenation, while a slight but significant increase of lactate dehydrogenase activity in the perfusates is observed. On the whole these data indicate a direct contribution of oxygen-derived free radicals to the worsening of post-anoxic hearts. A hypothesis on the mechanism of action of fructose-1,6-bisphosphate in anoxic and reperfused rat heart and its possible application in the clinical therapy of myocardial infarction are presented.
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PMID:Oxygen radical injury and loss of high-energy compounds in anoxic and reperfused rat heart: prevention by exogenous fructose-1,6-bisphosphate. 239 20

It has been shown that plasma histamine significantly increases during myocardial infarction in the dog. Histamine is also released when the isolated guinea-pig heart is reperfused after 30 minutes of low flow perfusion. The release of histamine and lactate dehydrogenase (LDH) after left anterior descending coronary artery ligation and release were investigated in the present study and related to the changes in electrocardiographic parameters and to a computer-aided analysis of left ventricular mast cell metachromasia. Spontaneous release of histamine was unchanged during ischemia and increased after the release of the ligature, while we observed a steady increase of LDH overflow. In parallel, a significant diminution of mast cell granule metachromasia was observed in left ventricular samples. The perfusion of the heart with FeCl3/ADP (10 microM/100 microM), a free radical-generating system, significantly enhanced both the basal and ischemic-reperfusion release of histamine, while perfusion with N-t-butyl-phenyl-nitrone (BPN/100 microM) a "spin-trapper" molecule, significantly decreased histamine and LDH release and the loss in metachromasia of left ventricular mast cells induced by reperfusion. Inhibitors of xanthine oxidase (allopurinol, 10 microM) and of calcium-activated proteases (leupeptin, 10 microM) modified the kinetics of histamine and LDH release.
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PMID:Histamine release in acute coronary occlusion-reperfusion in isolated guinea-pig heart. 245 99

The purpose of this study was to evaluate the possible involvement of xanthine and xanthine oxidase in reperfusion injury in a low-flow, reflow model of liver perfusion. Livers were perfused at flow rates around 25% of normal for 90 min and then at normal flow rates (4 ml/g/min) for 30 min. When flow was restored to normal, malondialdehyde and lactic dehydrogenase (LDH) were released into the effluent perfusate. Malondialdehyde production rapidly reached values of 300 nmol/g/hr whereas LDH increased from basal levels of 100 to 600 U/l upon reperfusion. Trypan blue was taken up exclusively in cells in pericentral regions of the liver lobule under these conditions. Xanthine and hypoxanthine in the effluent perfusate increased steadily during the low-flow period reaching values around 5 and 10 microM, respectively, and decreased rapidly after the flow was restored to normal. Perfusion with nitrogen-saturated buffer for 3 min before restoration of normal flow rates or infusion of the radical scavenger catechin (400 microM) reduced cell damage by about 50%. Infusion of allopurinol (2-6 mM), an inhibitor of xanthine oxidase, prevented reperfusion injury in a dose-dependent manner. Taken together, these data indicate that a reperfusion injury occurs in liver upon reintroduction of oxygen which is initiated by oxidation of xanthine and hypoxanthine via xanthine oxidase and ultimately leads to production of lipid peroxides. Surprisingly, infusion of xanthine (4 mM), substrate for xanthine oxidase, reduced hepatocellular injury on reperfusion. LDH release was decreased from values around 700 to less than 200 U/l and trypan blue uptake in pericentral region was prevented totally by xanthine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of purines and xanthine oxidase in reperfusion injury in perfused rat liver. 254 32

The hepatotoxic effects of hyperthermic liver perfusion were investigated in male Fischer 344 rat livers. Perfusions were carried out at 37, 41, 42, 42.5, and 43 degrees C for 2 hr. During the 2 hr, the perfusate was analyzed for activity of aspartate aminotransferase (AST), lactate dehydrogenase (LDH), N-acetyl-beta-glucosaminidase (NAG), and glutathione (GSH), oxidized glutathione (GSSG), allantoin, and potassium. After perfusion, each liver was homogenized and analyzed for total xanthine oxidase (XO) activity, percentage type-D and type-O XO, and total GSH content. Perfusate AST, LDH, NAG, and potassium levels were increased significantly with time and were significantly different in all hyperthermic perfusions from the 37 degrees C perfusion values by the end of the perfusion. Perfusate GSH + GSSG levels were increased significantly in all hyperthermic perfusions after 60 min. Liver GSH levels were significantly lowered following perfusion at hyperthermic temperatures. There was a temperature-dependent increase in the percentage of XO in the type-O form following perfusion at hyperthermic temperatures, which was strongly and positively correlated with the loss of hepatic GSH. These data support the hypothesis that hyperthermic toxicity to the liver is the result of oxidative stress brought about by conversion of XO to the type-O form.
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PMID:Effects of hyperthermia on xanthine oxidase activity and glutathione levels in the perfused rat liver. 259 31

Rat livers were perfused at 37 degrees C, 41 degrees C, 42 degrees C, 42.5 degrees C, and 43 degrees C for 2 hr. Among perfusate constituents analyzed were urea, total amino acids, N-acetyl-beta-glucosaminidase (NAG), aspartate aminotransferase (AST), lactate dehydrogenase (LDH), malonaldehyde (MDA), glutathione (GSH), oxidized glutathione (GSSG), allantoin, potassium, phosphate, and glucose. After perfusion, livers were homogenized and analyzed for xanthine oxidase (XO) activity, GSH content, and lysosomal lability. Perfusate AST, LDH, NAG, potassium, glucose, and phosphate increased significantly with time, and there were significant differences in the final values between 37 degrees C and 42 degrees C, 42.5 degrees C and 43 degrees C (P less than .05). GSH levels increased significantly at all temperatures after 90 and 120 min, whereas GSSG levels differed significantly at 60, 90, and 120 min for 37 degrees C vs. 42 degrees C, 42.5 degrees C, and 43 degrees C (P less than .05). Mean MDA levels at 37 degrees C differed from those at 41 degrees C and 43 degrees C (P less than .05) at each temperature. Allantoin levels increased significantly with time of perfusion; mean levels at 37 degrees C were significantly different from mean levels at each temperature at 60, 90, and 120 min. GSH liver tissue levels decreased with perfusion at hyperthermic temperatures; mean values at 41 degrees C, 42 degrees C, and 42.5 degrees C, and 43 degrees C differed from 37 degrees C mean values (P less than .01). Type O XO increased after 120 min perfusion from 6.4% +/- 2.0% at 37 degrees C to 55% +/- 30%, 43% +/- 27%, and 63% +/- 29% at 42 degrees C, 42.5 degrees C, and 43 degrees C, respectively. Lysosomal lability increased after perfusion at 42.5 degrees C. There was a significant increase in nonsedimentable NAG activity at 42.5 degrees C (P less than .05). These data support the premise that hyperthermic toxicity to the liver may be a consequence of oxidative stress brought about by enhanced adenosine triphosphate (ATP) consumption and conversion of XO to type O. Such conversion results in superoxide formation and subsequent depletion of cellular GSH, labilization of the lysosomes, and plasma membrane damage.
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PMID:Hyperthermic liver toxicity: a role for oxidative stress. 279 43

To determine whether the effects of endotoxin on cultured lung endothelium involve proteolytic mechanisms, we incubated bovine pulmonary arterial endothelial cells with endotoxin in medium 199 + 10% fetal bovine serum (FBS) in the presence and absence of several proteinase inhibitors. Three chloromethyl ketone (CK) derivatives [N-tosyl-L-lysine (CK)-(TLCK), N-tosyl-L-phenylalanine CK(TPCK), methoxysuccinyl-Ala-Ala-Pro-Val CK(SPCK)] and a single synthetic proteinase substrate [N-alpha-p-tosyl-L-arginine methyl ester hydrochloride (TAME)] attenuated endotoxin-induced cytotoxicity (lactate dehydrogenase release) and prostacyclin production in a dose-related fashion. The most effective inhibitors of endotoxin-induced cytotoxicity were TLCK and TPCK. TLCK and TAME most effectively attenuated endotoxin-stimulated prostacyclin production. Two chemically unrelated substances, soybean trypsin inhibitor and alpha 1 proteinase inhibitor also attenuated the endotoxin response. In the absence of FBS or in the presence of 10% heat-inactivated FBS, antiproteases attenuated endotoxin-induced prostacyclin production but had less effect on cytotoxicity than with 10% FBS. We also measured the capacity of the CK inhibitors to scavenge superoxide radicals generated in a cell-free xanthine/xanthine oxidase system by measuring inhibition of cytochrome c reduction. Percent scavenging of superoxide by these inhibitors was as follows: TLCK, 62.7 +/- 5.8 (SE); TPCK, 83.9 +/- 7.7; TAME, 24.5 +/- 6.4; SPCK, 0. We conclude that certain proteinase inhibitors attenuate endotoxin-induced endothelial cytotoxicity and prostacyclin production and that direct scavenging of superoxide radicals fails to explain the protective effects of proteinase inhibition. We speculate that the effects of endotoxin on lung endothelium may involve proteolytic mechanisms even in the absence of neutrophils.
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PMID:Antiproteinases protect cultured lung endothelial cells from endotoxin injury. 284 19


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