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)

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

The effect of organ flushing with the calcium entry blocker verapamil on the conversion of innocent enzyme xanthine dehydrogenase (XDH) to superoxide generating enzyme xanthine oxidase (XOD) in ischemic rat livers was studied. This enzyme conversion progressed over time in warm or cold ischemia. In non-flushed livers, the activities of XOD as percentages of XDH plus XOD after 6 h at 37 degrees C and 6 days at 4 degrees C were 80.3 +/- 5.2 and 31.6 +/- 2.1, respectively. In the livers flushed with Euro-Collins solution, the conversion was inhibited to 37.0 +/- 3.9% (P less than 0.001) after 6 h of warm ischemia, while this inhibitory effect was not found in cold ischemia. Verapamil given through the portal vein on flushing further suppressed the conversion in both warm and cold ischemia (with 5.0 microM of verapamil, 21.2 +/- 5.8% (P less than 0.001) after 6 h of warm ischemia and 25.2 +/- 3.3% (P less than 0.01) after 6 days of cold ischemia). A similar effect was also obtained with the addition of 10 or 30 mM of EGTA instead of verapamil. In contrast, no inhibitory effect on conversion was obtained in livers flushed and homogenized with 10.0 microM of verapamil followed by incubation for 6 h at 37 degrees C. In the livers that were flushed and stored at a warm temperature for 6 h, verapamil reduced the increase of tissue lipid peroxidation product (P less than 0.02) after 15 min of reperfusion. Although the precise mechanisms of these inhibitory effects of verapamil on the enzyme conversion are still uncertain, it is thought that organ flushing with verapamil might reduce the XOD-mediated postischemic reperfusion injury in livers subjected to prolonged ischemia.
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PMID:Effect of verapamil on conversion of xanthine dehydrogenase to oxidase in ischemic rat liver. 208 35

The role of allopurinol in the prevention of ischemia-reperfusion injury was assessed in a model of heart-lung transplantation. Fourteen swine were divided into two groups (seven donors and seven recipients). All heart and lung blocks were placed in hypothermic storage after perfusion with cold iso-osmolar cardioplegic solution and modified Collins solution, respectively (t = 8-10 degrees C for heart and t = 16-18 degrees C for lungs). The total ischemic time including the orthotopic transplantation was 6 h. Animals (donors and recipients) were pretreated with allopurinol given orally at a dosage of 50 mg/kg for 4 days. Animals were assessed by monitoring heart and lung function, including extravascular lung water at three time intervals, which included pretransplantation (donor), and 30 min and 2 h posttransplantation (recipient). Erythrocyte peroxidation susceptibility was assessed for 3 days, and surgery was performed on day 4. The malondialdehyde levels determined from erythrocyte exposure to in vitro peroxidative challenge classified three paired donor and recipient animals as responders and four paired donor and recipient animals as nonresponders to the allopurinol pretreatment. A persistent deterioration of lung function was observed over time in nonresponders (p less than .05) (increase of lung water, decrease of partial pressure of oxygen, increase in alveolar-arterial gradient, and decrease in arterial-alveolar tension ratio). Responders showed no significant alterations in lung function. This study in swine, a species devoid of myocardial xanthine oxidase activity, indicates that allopurinol may have a mechanism of action other than xanthine oxidase inhibition in the prevention of ischemia-reperfusion injury. The parallelism between protection of lung function and of red blood cells suggests the involvement of a generalized increase in tissue antioxidant capacity.
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PMID:Response to allopurinol pretreatment in a swine model of heart-lung transplantation. 229 90

In order to investigate pancreatitis caused by cold ischemic damage to pancreatic grafts, an isolated, normothermic, ex vivo perfusion model was employed. Canine pancreases were subjected to 24 and 48 h of cold ischemia and then reperfused. The results showed that cold ischemia results in pancreatitis as measured by weight gain (tissue edema) and elevated leakage of amylase into the perfusate. The addition of allopurinol to the perfusion system did not prevent the signs of pancreatitis. From the results it can be concluded that the isolated, perfused pancreas model in the dog is useful for studying preservation-induced pancreatitis. The absence of any effect of allopurinol treatment suggests that oxygen-free radicals mediated by the xanthine oxidase system is of minor importance for the pathogenesis of postischemic pancreatitis.
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PMID:Preservation-induced pancreatitis in an isolated perfused pancreas model in the dog. 247 41

In the feline intestine studies have implicated superoxide (O.-) and other oxygen derived free radicals as initiators of injury as measured by increased capillary permeability during the reperfusion period. Biochemical mechanisms of this free radical generation include: xanthine oxidase dependent O.- production, hydrogen peroxide (H2O2) formation by superoxide dismutase (SOD), hydroxyl radical (OH-) production via the Haber-Weiss reaction, and lipid radical formation from membrane peroxidation. Pathological consequences of these events include inflammatory neutrophil infiltration, damage to the collagen and mucosal basement membrane, increased capillary permeability, edema, cell degeneration and necrosis. Animal models of neonatal necrotizing enterocolitis (NNEC) indicate that intestinal injury occurs after the etiologic factors (hypothermia, hypoxia) are removed. In order to determine the role of active oxygen species in the pathogenesis of NNEC, weanling hamsters and neonatal piglets were cold stressed and activities of pro/antioxidant enzymes were determined, and histopathologic and ultrastructural studies were performed. Cold stressed weanling hamsters showed a 55.7% (P less than 0.05) decrease in xanthine dehydrogenase/xanthine oxidase activity ratio. Light microscopy revealed scattered colonic mucosal erosions and submucosal edema in 50% of cold stressed animals. Transmission electron microscopy demonstrated degeneration of colonic mucosal epithelial cells, enlarged intracellular spaces, cytoplasmic vacuolization, and nuclear membrane swelling. The colonic serosa was also edematous and infiltrated with bacteria. Large intestinal tissue from cold stressed neonatal piglets showed a significant increase (P less than 0.05) in Mn and Cu, Zn, SOD, CAT, GSH-Red, total GSH, and Glc6-PD at 0 and 12 hrs. post stress.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Intestinal post-ischemic reperfusion injury: studies with neonatal necrotizing enterocolitis. 259 24

Since only little xanthine oxidase (XO) activity in mammalian brain was detected in earlier reports, the major end product of AMP degradation in the brain has been believed to be hypoxanthine. Our recent experimental study however, has indicated the presence of uric acid in the rat brain subjected to focal ischemia or cold injury. Allopurinol, a xanthine oxidoreductase inhibitor, has been found to markedly suppress the uric acid production in the same experimental settings. These results suggested that uric acid is generated from hypoxanthine by enzymatic reaction in injured brain tissue. The aim of this experiment is to prove the existence of xanthine oxidoreductase activity in brain tissue. Xanthine oxidoreductase activity in rat cerebral tissue was measured immediately or at 24-hour after decapitation. Under pentobarbital anesthesia, twenty Sprague-Dawley rats were killed by decapitation following washout of the blood by trans-cardiac perfusion with cold physiological saline. Immediately or after 24 hours of decapitation ischemia, the forebrain was removed and homogenized in 6 ml ice cold 0.05 M potassium phosphate buffer (pH 7.8) containing 1 mM phenylmethylsulfonyl fluoride, 0.3 mM EGTA, and 10 mM dithiothreitol. The homogenate was centrifuged at 100,000 g for 60 min and then the supernatant was dialyzed overnight against 0.05 M potassium phosphate buffer (pH 7.8). Aliquot of each dialyzed supernatant (sample) and standard xanthine solution with NAD was reacted at 37 degrees C for 15 min to measure the combined activity of xanthine dehydrogenase (XDH) and XO. For the measurement of XO, standard xanthine solution without NAD was used.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Xanthine oxidoreductase activity in rat brain tissue: the changes after decapitation]. 280 24

Postischemic renal failure is a severe problem following cadaveric renal transplantation, especially if the kidney has been harvested from a non-heartbeating donor, and thereby subjected to periods of both warm and cold ischemia. It is well established that a substantial component of postischemic injury is produced by oxygen-derived free radicals generated from xanthine oxidase at reperfusion. However, the clinical potential of free radical ablative therapy is dependent upon the proportion of the total injury caused by this reperfusion mechanism, compared with the proportion resulting from ischemic injury per se. Therefore, we quantitatively evaluated these proportions in porcine kidneys subjected to various periods of warm (renal artery occlusion in situ), cold (harvest, cold preservation, and allotransplantation), and combined warm and cold ischemia. Experiments were paired, one kidney treated with either superoxide dismutase (SOD) or allopurinol for free radical ablation, the contralateral kidney serving as a control. Creatinine clearance (Ccr) was measured separately for each kidney 48 hr after reperfusion. After 1 and 2 hr of warm ischemia, Ccr dropped to 50% and 36% of normal, respectively. This was improved to 110% and 55% when SOD was given into the renal artery at reperfusion. Similarly, after 24 and 48 hr of cold ischemia, kidney function was significantly improved from 30% and 18% to 72% and 47% of normal, respectively, when allopurinol was added to the preservation solution. SOD used at harvest and again at reperfusion was particularly effective following combined warm and cold ischemia, in a situation mimicking the harvest of cadaver kidneys from a non-heartbeating donor. These findings suggest that the ablation of free radical-mediated reperfusion injury may improve posttransplant renal function sufficiently to allow expansion of the cadaveric donor pool to include non-heartbeating donors.
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PMID:Ablation of free radical-mediated reperfusion injury for the salvage of kidneys taken from non-heartbeating donors. A quantitative evaluation of the proportion of injury caused by reperfusion following periods of warm, cold, and combined warm and cold ischemia. 327 16

We evaluated the hypothesis that postischemic renal failure is caused primarily at reperfusion by oxygen-derived free radicals in a swine model designed to realistically mimick human cadaveric renal transplantation. Both kidneys were removed, flushed with Euro-Collins solution, stored 24 hr at 4 degrees C, and then transplanted to a second pig. Experiments were paired, each pig receiving one treated and one control kidney. All pigs received the optimal conventional regimen of hydration, phenoxybenzamine, furosemide, and mannitol to allow assessment of free radical treatment superimposed thereupon. Two days later creatinine clearance (CCR) was measured from each kidney via separate ureterostomies. Untreated kidneys developed severe functional impairment, CCR falling from a normal level of 25.5 +/- 6.3 ml/min (n = 8) to 7.7 +/- 0.9 ml/min (n = 14, P less than .05 vs. control). The infusion of 20 mg of the free radical scavenger superoxide dismutase (SOD) into the renal artery at reperfusion substantially ameliorated this injury (CCR = 15.9 +/- 1.7 ml/min, n = 18, P less than 0.05 vs. control). A dose-response curve to SOD showed no effect of doses of 0.2 mg (CCR = 8.0 +/- 1.1 ml/min, n = 4) or 2 mg (CCR = 7.7 +/- 0.9, n = 5), and no greater benefit from 100 mg (CCR = 16.1 +/- 2.1 ml/min, n = 3, P less than 0.05 vs. control). Blocking the generation of superoxide radicals from xanthine oxidase with allopurinol (50 mg/kg) afforded similar protection (CCR = 18.2 +/- 1.8; n = 11, P less than 0.01 vs. control). On the other hand, following an 18-hr period of cold ischemia, little damage was sustained by the untreated (control) kidneys (CCR = 22.1 +/- 0.6 ml/min). Consequently, under these conditions the ablation of free radical generation with allopurinol provided no significant benefit. These findings suggest that after a critical period of cold ischemic preservation, metabolic changes take place within the kidney that lead to free radical generation and consequent tissue injury upon reperfusion, despite optimal preservation by conventional methods. This damage can be prevented by simple nontoxic measures--which, therefore, show great promise for use in the prevention of early renal failure following cadaveric renal transplantation.
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PMID:The role of oxygen free radicals in mediating the reperfusion injury of cold-preserved ischemic kidneys. 390 28

The effect of cold storage (5 C, 24 h) and heat treatment (60 C, 5 min) of milk on activities of free and membrane-bound xanthine oxidase has been studied. Both treatments enhanced total xanthine oxidase activity in milk. Activity of membrane-bound xanthine oxidase increased and free xanthine oxidase decreased in buttermilk while it increased in skim milk on cold storage. Heat of milk increased free and membrane-bound xanthine oxidase activities in both buttermilk and skim milk. The state of xanthine oxidase activity in skim milk from reconstituted milk, which was prepared by mixing xanthine oxidase inactivated skim milk and fresh cream, showed that only the free enzyme migrated from the cream phase to skim milk on cold storage. Very little xanthine oxidase activity was detectable in skim milk on heat treatment of the reconstituted milk sample. The overall increased activity of xanthine oxidase in milk during cold storage or heat treatment may not be due to the release of fat globule membrane enzyme to skim milk.
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PMID:Free and membrane-bound xanthine oxidase in bovine milk during cooling and heating. 689 20

Cold injury is a tissue trauma produced by exposure to freezing temperatures and even brief exposure to a severely cold and windy environment. Rewarming of frozen tissue is associated with blood reperfusion and the simultaneous generation of free oxygen radicals. In this review is discussed the current understanding of the mechanism of action of free oxygen radicals as related to cold injury during rewarming. Decreased energy stores during ischaemia lead to the accumulation of adenine nucleotides and liberation of free fatty acids due to the breakdown of lipid membranes. On rewarming, free fatty acids are metabolized via cyclo-oxygenase and adenine nucleotides are metabolized via the xanthine oxidase pathway. These may be the source of free oxygen radicals. Leukocytes may also play a major role in the pathogenesis of cold injury. Oxygen radical scavengers, such as superoxide dismutase and catalase, may help to reduce the cold induced injury but their action is limited due to the inability readily to cross the plasma membrane. Lipid soluble antioxidants are likely to be more effective scavengers because of their presence in membranes where peroxidative reactions can be arrested.
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PMID:The role of free radicals in cold injuries. 760 50


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