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 superoxide radical scavenging effects of the SH group in the captopril molecule has been proposed to be the basis of the "cadioprotective" effect of this angiotensin converting enzyme (ACE) inhibitor in animal models of myocardial injury. We determined the effects of captopril, another ACE inhibitor with an SH group (SQ 26,703), its stereoisomer without ACE inhibitory effect but with an SH group (SQ 14,534), another ACE inhibitor without a SH group (enalaprilat), and N-acetylcysteine on superoxide radical generation by human neutrophils and by the purine-xanthine oxidase reaction. None of the compounds examined decreased superoxide radicals in therapeutic concentrations; however, SH-containing agents directly reduced spectrophotometric absorbance of ferricytochrome C. Thus, SH-containing agents with or without ACE inhibitory effects do not scavenge superoxide radicals.
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PMID:Sulfhydryl group in angiotensin converting enzyme inhibitors and superoxide radical formation. 170 10

To evaluate purine degradation in patients with congestive heart failure concentrations of serum hypoxanthine, lactate, and noradrenaline were measured before and after submaximal treadmill exercise in 12 patients with chronic congestive heart failure and nine healthy volunteers. In four patients the concentration of hypoxanthine was significantly higher than in the controls or in the remaining eight patients with congestive heart failure. Venous lactate and noradrenaline in the four patients with high concentrations of hypoxanthine were also significantly higher than those in the eight patients with normal concentrations of hypoxanthine. Patients who responded normally were also more likely to have been treated with vasodilators and angiotensin converting enzyme inhibitors. Exercise induced arrhythmias were more common in the patients with high concentrations of hypoxanthine. These results suggest that the excess purine degradation in patients with congestive heart failure might be the result of a "relative" disturbance in the supply of adenosine triphosphate caused by the shift of cellular metabolism from aerobic glycolysis to anaerobic glycolysis during submaximal exercise and that hypoxanthine (a substrate for xanthine oxidase and a source of free radicals) was increased after submaximal exercise in some patients with congestive heart failure.
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PMID:Excess purine degradation caused by an imbalance in the supply of adenosine triphosphate in patients with congestive heart failure. 227 41

Enhanced formation of radicals during post-ischemic reperfusion, foremost of superoxide (O2-) and hydroxyl (OH) radicals, has been directly and indirectly demonstrated in a number of tissues. However, the close chemical interrelationship of O2- and OH with other non-radical oxidants, such as hydrogen peroxide (H2O2) and hypochlorous acid (HOCl), makes it prudent to speak of reactive oxygen metabolites in conjunction with cell and organ dysfunction incurred by reperfusion. In the case of the heart, evidence for the causal involvement of such reactive molecular species includes (1) the increased formation of lipid peroxides, (2) the ability to mimic all facets of reperfusion injury (arrhythmias, contractile and vascular dysfunction, infarct extension) by exogenously applying reactive oxygen species, and (3) the propensity of a great variety of antioxidative and radical scavenging measures to afford cardioprotection during reperfusion. Potential sources of reactive oxygen metabolites in the reperfused heart are the mitochondrial redox-chain, endothelial enzymes such as cyclooxygenase, monoaminooxidase, NO-synthase and xanthine oxidase, and formed blood constituents (platelets, monocytes, granulocytes). According to our own results, adenosine, endogenously formed in the heart during ischemia, rapidly enhances adhesion of granulocytes introduced into the coronary system at reperfusion. Furthermore, small numbers of these cells suffice to induce contractile dysfunction in an isolated guinea pig heart model of ischemia-reperfusion injury, the major mediator of damage being HOCl. The striking disparity between the enormous volume of experimental data supporting involvement of reactive oxygen metabolites in reperfusion damage and the virtual lack of clinical-therapeutic regimens employing anti-oxidative measures is largely due to a still rudimentary knowledge of the homeostatic control of formation and removal of radicals and oxidants. In particular, the inability to correctly assess the individual time-course and extent of oxidative stress seems to be a major problem. Also, confounding issues such as compartmentation of radical formation as opposed to radical scavenging and the unwitting down-regulation of endogenous protective systems (e.g., of uric acid in the course of inhibiting xanthine oxidase) need to be resolved. On the other hand, we have been able to demonstrate protection by ACE inhibitors elicited via endothelially produced nitric oxide (a scavenger of O2- and OH) in the isolated heart. Thus, enhancement of endogenous protection may offer a perspective for mitigating against reperfusion damage.
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PMID:[Possible significance of free oxygen radicals for reperfusion injury]. 815 62

The authors have compared the ability of two non-SH-containing angiotensin converting enzyme (ACE) inhibitors (enalaprilat and lisinopril) with an -SH containing ACE inhibitor (captopril) to scavenge the hydroxyl radical (.OH). All three compounds were able to scavenge .OH radicals generated in free solution at approximately diffusion-controlled rates (10(10) M-1 s-1) as established by the deoxyribose assay in the presence of EDTA. The compounds also inhibited deoxyribose degradation in reaction mixtures which did not contain EDTA but not so effectively. This later findings also suggests that they have some degree of metal-binding capability. Chemiluminescence assays of oxidation of hypoxanthine by xanthine oxidase in the presence of luminol, confirm that the three ACE inhibitors are oxygen free radical scavengers. Our results indicate that the presence of a sulphydryl group in the chemical structure of ACE inhibitors is not relevant for their oxygen free radical scavenging ability.
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PMID:Angiotensin converting enzyme inhibitors as oxygen free radical scavengers. 824 86

In an attempt to elucidate the physiological activities of (6E,12E)-tetradecadiene-8,10-diyne-1,3-diol diacetate (TDEYA), which was detected as a hydrolysis form (TDEY) in the plasma after oral administration of a decoction of Atractylodes rhizome in rats, we examined the inhibitory effects of various enzymes which are considered to participate in the regulation of body fluid levels and inflammatory reactions. TDEY and TDEYA did not show inhibitory effects on carbonic anhydrase (CA) or angiotensin converting enzyme (ACE) at concentrations less than 1.0 x 10(-3) M. However, both acetylene compounds inhibited Na+,K+ adenosine triphosphatase (Na+,K(+)-ATPase) weakly and xanthine oxidase (XO) strongly. From the results of several acetylene compounds examined on XO inhibition, it is clear that the active structure of the compounds is due to the presence of conjugated triple and double bonds. In the in vivo experiment of TDEYA, urine volume, urinary electrolytes and uric acid excretion showed no significant differences from the control. However, the administration of TDEYA to rats tended to increase xanthine excretion.
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PMID:Enzyme inhibitory activities of acetylene and sesquiterpene compounds in atractylodes rhizome. 839 28

1. Nitrofurantoin is an antimicrobial agent which produces pulmonary toxicity via the redox cycling of the nitro group and its radical anion. This futile cycling triggers a complex series of events known collectively as oxidative stress. 2. In the isolated perfused rat lung, nitrofurantoin induced a decrease in tissue levels of glutathione but not protein thiols by the end of the 180 min experiment. There was no decline in tissue levels of angiotensin converting enzyme (a marker of cell disruption). However, edema was extensive as monitored in real time by weight gain (2.71 +/- 0.56 g vs 0.63 +/- 0.53 g in control, P < 0.05, n = 4) and lung mechanical functioning. The edema was matched by an increase in lavage proteins (85 +/- 15 mg vs 16 +/- 9 mg in controls, P < 0.05, n = 4). Electron microscopic examination of tissue indicated that the endothelial cells were detached from the basement membrane which would account for the edema. 3. Co-infusion of penicillamine, N-acetylcysteine or N-(2-mercaptopropionyl)-glycine which can protect tissue from oxidative stress failed to mitigate NFT-induced edema. Allopurinol, an inhibitor of xanthine oxidase and a metal chelator, significantly decreased weight gain but did not prevent the loss of glutathione. These results suggested that allopurinol was not blocking metabolic activation of NFT by xanthine oxidase but scavenging metal cations which can initiate and/or propagate the oxidative stress cascade. 4. We concluded that, in the isolated perfused rat lung, the classic pathway of oxidative stress induced by NFT is interrupted at the stage of GSH loss. These experiments demonstrated that organ function was compromised more than the individual cells. They also suggested that allopurinol may prove beneficial in modulating NFT pulmonary toxicity.
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PMID:Mitigation of nitrofurantoin-induced toxicity in the perfused rat lung. 942 87

Puromycin aminonucleoside (PAN) nephropathy in rats has been induced by the intraperitoneal injections of PAN. One group of animals which received PAN has been treated simultaneously with captopril (angiotensine converting enzyme-ACE-inhibitor) with the aim to test whether continuing treatment with captopril along with PAN injections would be able to modulate the toxic effects of PAN. The third group of rats was given only captopril. Morphological changes in the kidney were evaluated by scanning electron microscopy that showed the loss of podocyte foot processes in the kidney of PAN treated animals but also in the kidney of captopril treated ones as well as in the animals treated with both drugs simultaneously. Reduced glutathione content, catalase, superoxide dismutase (SOD), glutathione peroxidase (GSH-Px), xanthine oxidase activities as well as lipid peroxides were investigated in rat blood and kidney. Captopril given alone produced a significant decrease of plasma lipid peroxides, but it did not show any significant effect on investigated antioxidative factor levels neither in blood nor in the kidney. PAN given alone produced a significant depletion of plasma lipid peroxides, kidney catalase and erythrocyte GSH-Px activity as well as a significant increase of plasma catalase and erythrocyte SOD activity. Treatment of animals with both drugs simultaneously resulted in a significant increase of erythrocyte SOD activity and a significant decrease of plasma lipid peroxides, erythrocyte GSH-Px and kidney SOD activities. Kidney xanthine oxidase activity showed a significant increase in both PAN and PAN plus captopril treated animals in comparison with the values of captopril treated rats. These data suggest that PAN changes the antioxidative factor pattern in rat blood and kidney. Contrary to our expectations that captopril may protect the toxic effects of PAN it only to a certain extent modifies these effects showing protective effect only on tissue catalase activity.
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PMID:Does captopril change oxidative stress in puromycin aminonucleoside nephropathy? 1104 Dec 86

Endothelial function is abnormal in a variety of diseased states such as hypercholesterolemia and atherosclerosis. This may be secondary to decreased synthesis of nitric oxide (NO) and/or increased degradation of NO due to interaction with superoxide anions. More recent experimental observations demonstrate increased production of superoxide in hyperlipidemia, suggesting that endothelial dysfunction in these states is in part secondary to increased NO metabolism. Enzymes proposed to be involved in increased superoxide production may include xanthine oxidase, the NO synthase, and the NAD(P)H oxidase. Superoxide rapidly reacts with NO to form peroxynitrite (ONOO-), a highly reactive intermediate with cytotoxic properties. Despite experimental evidence for the oxidative stress concept in causing endothelial dysfunction, the results of recent randomized trials to test the influence of antioxidants on coronary event rates and prognosis in patients with coronary artery disease were very disappointing. In all of these studies the use of vitamins such as vitamin E failed to improve the prognosis. In contrast, treatment with angiotensin converting enzyme inhibitors or cholesterol- lowering drugs improved endothelial dysfunction, prevented the activation of superoxide-producing enzymes in cholesterol-fed animals, reduced coronary event rates, and improved prognosis in patients with coronary artery disease. Therefore, inhibition of superoxide production at the enzymatic level rather than symptomatic superoxide scavenging may be the better choice of treatment.
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PMID:Antioxidants and endothelial dysfunction in hyperlipidemia. 1117 9

Increased generation of reactive oxygen species contribute to endothelial dysfunction in atherosclerosis, hypertension and heart failure. Recently, it was suggested that bursts of superoxide anions may inactivate endothelial surface-bound enzymes such as angiotensin converting enzyme (ACE). Here, we tested effects of xanthine/xanthine oxidase-derived superoxide anions on vascular responses and ACE activity in the isolated guinea pig heart. We analysed effects of intracoronary infusion of low concentration of xanthine oxidase (10 mU/ml) in the presence of xanthine (0,5 mM) (X/XO) on bradykinin, other endothelium-dependent and independent vasodilators (acetylcholine, ADP, SNAP), as well as vasoconstrictor responses to angiotensin I and angiotensin II. Surprisingly, X/XO significantly augmented coronary response to bradykinin without an effect on responses to ADP, acetylcholine, SNAP, angiotensin I and angiotensin II. In contrast, inhibition of ACE by perindoprilate (100 nM) resulted in augmentation of bradykinin-induced vasodilatation as well as diminution of angiotensin I-evoked vasoconstriction without an influence on other responses. In summary, in the isolated guinea pig heart, X/XO-derived free radicals selectively augmented coronary vasodilator response to bradykinin, which cannot be explained by X/XO-induced derangement of ACE. The mechanism of this paradoxical phenomenon, which might represent a defensive response of the coronary circulation to oxidative stress requires further investigations.
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PMID:Paradoxical augmentation of bradykinin-induced vasodilatation by xanthine/xanthine oxidase-derived free radicals in isolated guinea pig heart. 1251 3

We reported that melatonin prevents the progression of carbon tetrachloride (CCl4)-induced acute liver injury in rats possibly by attenuating enhanced lipid peroxidation and reduced glutathione depletion. Herein, we examined the effect of melatonin on the changes in hepatic reactive oxygen species (ROS) metabolism in rats with a single intraperitoneal injection of CCl4 (1.6 g/kg body weight); the intent was to clarify the therapeutic mechanism of the indoleamine on CCl4-induced acute liver injury. Rats with and without CCl4 treatment received a single oral dose of melatonin (10, 50 or 100 mg/kg body weight) 6 hr after CCl4 treatment. Hepatic concentrations of ascorbic acid (ASC) and vitamin E (VE) and hepatic activities of superoxide dismutase (SOD), catalase (CAT), Se-glutathione peroxidase (Se-GSH-Px), glutathione reductase (GSSG-R), glucose-6-phosphate dehydrogenase (G-6-PDH), and xanthine oxidase (XO) were determined 6 and 24 hr after CCl4 treatment. The liver of CCl4-treated rats showed reductions in ASC concentrations, and SOD activity and an increase in G-6-PDH activity at 6 hr after treatment and further decreases in ACS concentrations and SOD activity and also further increase in G-6-PDH activity in addition to decreases in CAT and GSSG-R activities and increases in VE concentrations and XO activity at 24 hr after treatment. Melatonin attenuated the reductions in hepatic ASC concentrations and SOD, CAT and GSSG-R activities and the increase in hepatic XO activity in a dose-dependent manner without affecting either hepatic Se-GSH-Px activity or the increased hepatic VE concentration and G-6-PDH activity at 24 hr after CCl4 treatment. No dose of melatonin influenced hepatic ACS and VE concentrations and SOD, CAT, Se-GSH-Px, G-6-PDH, and XO activities in CCl4-untreated rats. These results indicate that melatonin postadministered at pharmacological doses prevents the disruption of hepatic ROS metabolism associated with ASC, SOD, CAT, GSSG-R, and XO, in addition to reduced glutathione, in CCl4-treated rats.
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PMID:Melatonin prevents disruption of hepatic reactive oxygen species metabolism in rats treated with carbon tetrachloride. 1467 25


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