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 effect of the prostacyclin-mimetic, iloprost, on the reversibly damaged ("stunned") myocardium was studied in barbital-anesthetized, open-chest dogs subjected to 15 minutes of coronary artery occlusion and 3 hours of reperfusion. Regional myocardial segment shortening (%SS) was measured in the subendocardium of nonischemic and ischemic-reperfused areas by sonomicrometry. Iloprost was infused for 30 minutes beginning 15 minutes prior to occlusion (0.05 microgram/kg/min, ILO-LOW, or 0.1 microgram/kg/min, ILO-HIGH) or immediately prior to reperfusion (0.1 microgram/kg/min, ILO-REP). %SS in the ischemic-reperfused region recovered to 3% of pretreatment values in the control (saline-treated) group by 3 hours of reperfusion. In contrast, %SS in the iloprost-treated groups was significantly enhanced versus the control group at all times of reperfusion. At 3 hours of reperfusion, %SS recovered to 43% (ILO-LOW), 58% (ILO-HIGH), and 35% (ILO-REP) of pretreatment values. The beneficial effect on functional recovery was significantly greater when iloprost was administered before occlusion versus immediately prior to reperfusion. Thus, part of the salutory effects of iloprost appear to occur prior to and/or during ischemia. Iloprost did not improve collateral blood flow to the ischemic region or myocardial high energy phosphate content at 3 hours of reperfusion. While iloprost significantly decreased mean arterial pressure during ischemia and early reperfusion, the hypotensive action did not appear to play a role in the amelioration of postischemic dysfunction, as preocclusion treatment with an equihypotensive dose of sodium nitroprusside produced no significant effect on postischemic recovery beyond 5 minutes of reperfusion. Results of in vitro experiments indicated that iloprost had no effect on the xanthine oxidase free-radical generating system including lipid peroxidation. However, iloprost decreased the neutrophil-derived superoxide burst after chemotactic stimulation. This beneficial action may, in part, explain the efficacy of iloprost in enhancing postischemic function of the stunned myocardium.
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PMID:Beneficial effects of iloprost in the stunned canine myocardium. 244 57

The isolated perfused working rat heart model of cardiopulmonary bypass was used to assess whether (a) allopurinol pretreatment enhances resistance to normothermic (30 min) or hypothermic (4 h) ischemia; (b) addition of antioxidant enzymes superoxide dismutase (SOD) and catalase (CAT) to cardioplegic and/or reperfusion solutions are protective; (c) any protective effects are additive. With normothermic ischemia, allopurinol pretreatment improved recovery of aortic flow from its control value of 25 +/- 3% to 48 +/- 6% (P less than 0.05). Similarly, SOD plus CAT used during both ischemia and reperfusion improved recovery of aortic flow from a control value of 28 +/- 4% to 48 +/- 6% (P less than 0.05). However, various combinations of the two types of intervention afforded no additive protection. Under hypothermic (21 degrees C) conditions, allopurinol pretreatment was not effective, whereas SOD and CAT added during ischemia and reperfusion improved recovery of aortic flow from its control value of 53 +/- 4% to 69 +/- 5% (P less than 0.05). This value was similar to allopurinol pretreatment and SOD plus CAT added during ischemia and reperfusion (69 +/- 6%: P less than 0.05). These results provide further evidence that reperfusion-induced free radical formation may adversely affect postischemic recovery of function. The absence of an additive effect suggests a common mechanism of action, which is likely to involve the free radical-generating enzyme xanthine oxidase; however, other mechanisms may exist. Our results further support the use of antifree radical intervention in conjunction with cardioplegia to protect the heart during ischemia and reperfusion.
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PMID:Free radicals and cardioplegia: the absence of an additive effect with allopurinol pretreatment and the use of antioxidant enzymes in the rat. 285 11

In an isolated, normothermic rat heart model (Langendorff, 37 degrees C), dimethylthiourea (DMTU) infusion only during reperfusion reduced both injury and measurable hydrogen peroxide (H2O2) concentrations after global ischemia. Cardiac function was assessed by measurement of ventricular developed pressure (DP). H2O2 was assessed using H2O2 dependent aminotriazole inactivation of myocardial catalase. Depletion of xanthine oxidase by two methods (tungsten or allopurinol inhibition) also improved recovery of function and H2O2 production. The results indicate that XO derived H2O2 contributes to myocardial reperfusion injury.
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PMID:Hydrogen peroxide mediates reperfusion injury in the isolated rat heart. 314 10

Allopurinol, a competitive inhibitor of xanthine oxidase, has been shown to have a protective effect on ischemic myocardium, but its mechanism of action remains controversial. We used an isolated rat heart preparation to test the hypothesis that allopurinol could restore adenosine triphosphate (ATP) levels and improve the recovery of left ventricular function after global myocardial ischemia. Hearts were equilibrated for 30 min, subjected to 10 min of global, normothermic (37 degrees C) ischemia, and reperfused for 15, 30, and 60 min. Hearts treated with allopurinol (100 microM) exhibited greater ATP levels and improved function during reperfusion than did untreated control hearts. Hearts treated with hypoxanthine (100 microM), the substrate for xanthine oxidase, also showed increased ATP and functional recovery compared with controls. These results suggest that allopurinol may protect the globally ischemic myocardium by enhancing the salvage of hypoxanthine for reincorporation into adenine nucleotides.
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PMID:Allopurinol enhanced adenine nucleotide repletion after myocardial ischemia in the isolated rat heart. 333 32

Oxygen-derived free radicals generated by xanthine oxidase may represent a major cause of myocardial injury during ischemia and reperfusion. We have used the isolated working rat heart model of cardiopulmonary bypass and ischemic arrest to assess whether allopurinol or oxypurinol, which should prevent free radical formation through their ability to inhibit xanthine oxidase, can improve postischemic myocardial recovery when the drugs are administered either chronically (pretreatment) or acutely (as an addition to the cardioplegic or reperfusion solution). With normothermic ischemic arrest, both drugs, when given either chronically or acutely, significantly improved postischemic recovery of function. However, under hypothermic conditions, allopurinol conferred no protection when given either as pretreatment or during reperfusion, but it was effective when added to the cardioplegic solution. When administered under the appropriate conditions, both allopurinol and oxypurinol enhanced the protective effect afforded by the St. Thomas' Hospital cardioplegic solution, possibly by inhibiting xanthine oxidase activity and preventing the formation of oxygen-derived free radicals.
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PMID:Free radicals and cardioplegia: allopurinol and oxypurinol reduce myocardial injury following ischemic arrest. 363 15

The release of xanthine oxidase/dehydrogenase XO/XDH (4.99 +/- 1.08 x 10(-12) moles/min/g wet wt in aerobic hearts) was not significantly increased following 30 min of ischemia, but almost doubled following 45 min of ischemia, indicating some endothelial cell damage. This release, however, was small compared to the release induced by digitonin perfusion (26 fold increase in an equivalent volume of effluent) and was nearly 1000 fold less than the enzyme activity measured in the tissue homogenate. There was a significant decrease in cardiac function (heart rate and systolic pressure) following 30 min of ischemia and no recovery of function following 45 min of ischemia and reperfusion. Endothelial cell damage determined by XO/XDH release is negligible during times of ischemia that cause severe damage to myocardial contractility. Coronary endothelial cells should not contribute significantly to circulating XO/XDH levels following ischemia.
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PMID:Xanthine oxidase/dehydrogenase release following ischemia in isolated rat hearts. 830 95

The effect of 5'-nucleotidase inhibitor (AMP-C) and xanthine oxidase inhibitor (Allopurinol: ALLO) on myocardial functional recovery and the restoration of myocardial high energy phosphates after 15 min of normothermic global ischemic insult, was studied in the isolated isovolemic Langendorff rat heart model. Fifty nine rats were divided into 4 groups: Group I; saline, Group II; AMP-C plus ALLO, Group III; AMP-C, Group IV; ALLO. Intermittent infusion of drugs was delivered in 3 ml of solution at 5 min intervals during ischemia. Percent recovery of left ventricular systolic function was as follows: Group I; 74.2 +/- 3.6%, Group II; 87.7 +/- 1.7%, Group III; 83.5 +/- 3.1%, Group IV; 86.4 +/- 2.6%. Improved recovery was statistically significant only in Group II (p < 0.05 vs Group I). Suppression of reactive hyperemia was seen with reperfusion in the groups which had been treated with AMP-C (i.e., Groups II and III). Myocardial adenine nucleotides and purines were measured in 6 hearts in each group using high performance liquid chromatography. Myocardial ATP levels was 0.89 +/- 0.16 nmol/mg left ventricular wet weight in Group I, 1.37 +/- 0.12 in Group II (p < 0.05 vs Group I), 1.42 +/- 0.17 in Group III (p < 0.05) and 1.17 +/- 0.15 in Group IV. This study demonstrates that intermittent infusion of AMP-C plus ALLO during global myocardial ischemia results in improved myocardial functional recovery and improved preservation of high energy phosphates.
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PMID:Evaluation of the effectiveness of 5'-nucleotidase inhibitor and allopurinol in myocardial ischemia. 835 99

1 In order to understand mechanisms that limit the safe ischaemic time of donor hearts, this study evaluated NO/cyclic GMP biosignalling in the recovery of function after cardioplegia and hypothermic storage. 2 Hearts removed from anaesthetized rats were either perfused in working mode (Fresh) or arrested (St. Thomas' II cardioplegia) and stored at 3 degrees C for 8 h (CPL) prior to working mode perfusion. LV work and indices of the production of NO (Ca2+-dependent and Ca2+-independent NOS), cyclic GMP (soluble guanylyl cyclase (sGC) and GTP) and superoxide (xanthine oxidase (XO) and xanthine dehydrogenase (XDH)) were measured. 3 Relative to Fresh hearts, CPL hearts were deficient in cyclic GMP and had poor function. Correction of cyclic GMP deficiency (SNP, 200 microM) improved LV work and LV compliance. SNP effects were prevented by inhibition of sGC (ODQ, 3 microM), and potentiated by inhibition of cyclic GMP-dependent phosphodiesterase (zaprinast, 20 microM). SNP (200 microM) had no effect on function of Fresh hearts. 4 NOS activities (pH = 7.2) were similar in CPL and Fresh hearts, but at end-ischaemic pH (6.3), Ca2+-dependent NOS activity was reduced. The sensitivity of sGC to SNP was greater, and activities of XO and XDH were higher, in CPL than in Fresh hearts. 5 The deficiency in NO biosignalling in CPL hearts may arise due to acidosis-induced inhibition of NOS activity, reduced availability of GTP and/or enhanced inactivation of NO by superoxide. These findings provide rationales for novel strategies to prevent the deficiency in NO biosignalling and so improve the function of the transplanted heart.
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PMID:Deficiency in myocardial NO biosignalling after cardioplegic arrest: mechanisms and contribution to post-storage mechanical dysfunction. 1055 23

Flavonoids are a group of naturally occuring compounds which are widely distributed in nature. Epidemiological evidence suggests an inverse relationship between dietary intake of flavonoids and cardiovascular risk. The biological activities of flavonoids are related to their antioxidative effects. But a number of studies have found both anti and prooxidant effects for many of these compounds. This review article presents the synthetic pathways of flavonoids and discusses the structure-activity relationships between, xanthine oxidase inhibitive activities and their chemical structures, between the antioxidant and prooxidant activities and the chemical structure. Then we will show the antioxidant properties of new flavonoids in a few models. In these compounds one or two di-tert-butylhydroxyphenyl (DBHP) groups replace the catechol moiety at the position 2 of the benzopyrane heterocycle. New structures are compared with quercetin and BHT in an LDL-oxidation system, in protecting cultured bovine aortic endothelial cells against mO-LDL cytotoxicity and on myocardial functional recovery during reperfusion after 30 min global ischemia in isolated rat hearts.
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PMID:Role of flavonoids in oxidative stress. 1189 32

Acute renal failure commonly follows reduced renal perfusion or ischemia. Reperfusion is essential for recovery but can itself cause functional and structural injury to the kidney. The separate contributions of ischemia and of reperfusion were examined in the isolated perfused rat kidney. Three groups were studied: brief (5 min) ischemia, 20 min ischemia, and repetitive brief ischemia (4 periods of 5 min) with repetitive intervening reperfusion of 5 min. A control group had no intervention, the three ischemia groups were given a baseline perfusion of 30 min before intervention and all groups were perfused for a total of 80 min. In addition, the effects of exogenous *NO from sodium nitroprusside and xanthine oxidase inhibition by allopurinol were assessed in the repetitive brief ischemia-reperfusion model. Brief ischemia produced minimal morphological injury with near normal functional recovery. Repetitive brief ischemia-reperfusion caused less functional and morphological injury than an equivalent single period of ischemia (20 min) suggesting that intermittent reperfusion is less injurious than ischemia alone over the time course of study. Pretreatment with allopurinol improved renal function after repetitive brief ischemia-reperfusion compared with the allopurinol-untreated repetitive brief ischemia-reperfusion group. Similarly, sodium nitroprusside reduced renal vascular resistance but did not improve the glomerular filtration rate or sodium reabsorption in the repetitive brief ischemia-reperfusion model. Thus, these studies show that the duration of uninterrupted ischemia is more critical than reperfusion in determining the extent of renal ischemia-reperfusion injury and that allopurinol, in particular, counteracts the oxidative stress of reperfusion.
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PMID:Repetitive brief ischemia: intermittent reperfusion during ischemia ameliorates the extent of injury in the perfused kidney. 1280 2


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