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)

Maintenance of an acidic intralysosomal compartment may be relevant to multiple aspects of neutrophil function. The effect of lysosomal alkalinization on the neutrophil respiratory burst was studied by measuring cytochrome c reduction in response to soluble stimuli in the presence of lysosomotropic weak bases. The weak bases chloroquine, ammonium chloride, methylamine, and clindamycin all raised the intralysosomal pH and inhibited neutrophil oxidative metabolism at concentrations ranging from 0.1 to 100 mmol/L. Inhibition was dose dependent for each base and correlated significantly with the degree of lysosomal alkalinization. Concentrations that did not alkalinize the lysosome did not inhibit the respiratory burst. Inhibition by weak bases was seen when oxidative metabolism was stimulated by phorbol myristate acetate, calcium ionophore A23187, formyl-methionyl-leucyl-phenylalanine, opsonized zymosan, or sodium fluoride. Increasing the stimulus concentration (from 5 ng/mL to 5 micrograms/mL phorbol myristate acetate and from 0.5 to 1 mumol/L A23187) diminished or abolished inhibition by weak bases. Washing the cells after incubation with bases and before stimulation substantially reversed the inhibition. None of the bases impaired detection of superoxide in a cell-free xanthine-xanthine oxidase assay. Other indexes of oxidative metabolism, including oxygen consumption and hydrogen peroxide release, were also inhibited by weak bases. Analysis of particulate NADPH oxidase activity from neutrophils stimulated in the presence of bases suggested that these cells assemble a subnormal amount of an enzyme complex with normal kinetic characteristics. Lysosomotropic weak bases alkalinized the neutrophil lysosome and produced inhibition of oxidative metabolism that was dose related, was not stimulus specific, and was largely reversed by washing the cells before stimulation. A possible explanation would be altered assembly of the enzyme complex involved in respiratory burst activation as a consequence of impaired granule/plasma membrane fusion in the presence of diminished transmembrane pH gradients.
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PMID:Inhibition of neutrophil oxidative metabolism by lysosomotropic weak bases. 300 23

The effect of scavengers of oxygen radicals on canine cardiac sarcoplasmic reticulum (SR) Ca2+ uptake velocity was investigated at pH 6.4, the intracellular pH of the ischemic myocardium. With the generation of oxygen radicals from a xanthine-xanthine oxidase reaction, there was a significant depression of SR Ca2+ uptake velocity. Xanthine alone or xanthine plus denatured xanthine oxidase had no effect on this system. Superoxide dismutase (SOD), a scavenger of .O2-, or denatured SOD had no effect on the depression of Ca2+ uptake velocity induced by the xanthine-xanthine oxidase reaction. However, catalase, which can impair hydroxyl radical (.OH) formation by destroying the precursor H2O2, significantly inhibited the effect of the xanthine-xanthine oxidase reaction. This effect of catalase was enhanced by SOD, but not by denatured SOD. Dimethyl sulfoxide (Me2SO), a known .OH scavenger, completely inhibited the effect of the xanthine-xanthine oxidase reaction. The observed effect of oxygen radicals and radical scavengers was not seen in the calmodulin-depleted SR vesicles. Addition of exogenous calmodulin, however, reproduced the effect of oxygen radicals and the scavengers. The effect of oxygen radicals was enhanced by the calmodulin antagonists (compounds 48/80 and W-7) at concentrations which showed no effect alone on Ca2+ uptake velocity. Taken together, these findings strongly suggest that .OH, but not .O2-, is involved in a mechanism that may cause SR dysfunction, and that the effect of oxygen radicals is calmodulin dependent.
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PMID:Calmodulin participation in oxygen radical-induced cardiac sarcoplasmic reticulum calcium uptake reduction. 303 9

The effects of allopurinol pretreatment (1 mg/ml in the drinking water for 7 days at an estimated daily dose of 75 mg/kg) on biochemical and chemical changes occurring following left circumflex coronary artery ligation (40 min) and reperfusion (60 min) were examined in pentobarbital-anesthetized rabbits. During the ischemic phase, allopurinol pretreatment provided significant preservation of cellular ATP levels and of mitochondrial ATP generation as compared with untreated animals (P less than 0.05). During the reperfusion phase, allopurinol pretreatment significantly prevented the decrease in left ventricular pressure, sodium and calcium accumulation and decreases in sarcolemmal Na+,K+-stimulated and sarcoplasmic reticulum K+,Ca2+-stimulated ATPase activities as compared with untreated animals (P less than 0.05). In contrast, the decrease in mitochondrial (azide-sensitive) ATPase during ischemia and the partial recovery during reperfusion were unaffected by allopurinol pretreatment. Our results indicate that the myocardial protective effects of allopurinol may differ mechanistically in the ischemic and reperfusion phases of injury. The fact that rabbit hearts do not contain detectable xanthine oxidase activity would seem to preclude an obligatory role of this enzyme both in the generation of myocardial ischemic/reperfusion injury and in the protective actions of allopurinol.
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PMID:Effects of allopurinol on myocardial ischemic injury induced by coronary artery ligation and reperfusion. 303 15

The polyamines putrescine, spermidine and spermine, at concentrations of 10 microM, stimulated superoxide generation by human polymorphonuclear leukocytes induced by fMet-Leu-Phe in the presence of Ca2+. This positive effect was not evident in the absence of Ca2+ or when the polymorphonuclear leukocytes were stimulated by phorbol myristate acetate. Spermidine in the range of 10-100 microM showed a dose-dependent stimulatory effect on the superoxide generation induced by fMet-Leu-Phe, whilst at doses above 25 mM it produced an inhibitory effect. At this concentration, spermidine did not reduce the phorbol myristate acetate-neutrophil-induced O2-. generation, while an inhibitory effect by the polyamine was evident at concentrations above 50 mM. In addition, 100 microM spermidine increased the amount of superoxide generated and enhanced the ability of the chemotactic peptide to stimulate superoxide generation. The polyamines in the range of 10 microM-25 mM did not modify the activity of purified NADPH oxidase, nor the rate of reduction of cytochrome c as supported by the xanthine/xanthine oxidase reaction. These results indicate that physiological concentrations of polyamines can stimulate superoxide formation by polymorphonuclear leukocyte cells produced by the chemotactic peptide fMet-Leu-Phe, probably by increasing the availability of external calcium.
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PMID:Polyamines stimulate superoxide production in human neutrophils activated by N-fMet-Leu-Phe but not by phorbol myristate acetate. 304 Jan 18

Free radicals acting at sensitive subcellular sites, appear to play a pivotal role in both the deleterious and beneficial effects of maturation and senescence of various plant organs--leaves, flowers, and fruit. As evidenced by ESR spectrometry, spin trapping, specific membrane phase transition studies and enzyme kinetics, an important factor in the above processes appears to be lipoxygenase activity producing polyunsaturated fatty acid (PUFA) hydroperoxides and subsequently several free radical species and senescence-promoting compounds such as ethylene, malondialdehyde and jasmonic acid. The most intensely investigated are the oxy-free radical species including O2-., .OH, RO., ROO., PUFA and semiquinone free radicals. Higher plants are equipped with ways and means to combat free radicals and these may be classified under two general headings; (a) direct scavengers including SOD, ascorbic acid, and alpha-tocopherol acting in concert (b) incipient preventative mechanisms against radical formation, these include xanthine oxidase inhibitors, strategies based on endogenous H2O2 disposal in the form of peroxidative enzymes and glutathione turnover, and Ca2+ channel blockers. The antisenescence phytohormone cytokinin appears to possess a dual effect and may act in both capacities. The special case of delayed free radical formation in comparatively dry biological systems such as seeds is detailed, and specific free radical-generating photosensitizer compounds are also discussed.
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PMID:Plant senescence processes and free radicals. 307 46

Cultured rat mesangial cells were exposed to a reactive oxygen species (ROS) generating system (xanthine plus xanthine oxidase) to explore the effect of ROS on their metabolism of arachidonic acid (AA). Cell viability, as assessed by 51Cr release, was not affected by the concentrations of xanthine plus xanthine oxidase used. Prostaglandin E2 (PGE2) production following exposure to increasing quantities of xanthine plus xanthine oxidase was significantly decreased to 38.1 +/- 9.7 or 30.8 +/- 6.9% of control levels (P less than 0.05) when cells were stimulated with the calcium ionophore A23187 (1 microgram/ml) or AA (10(-6) M), respectively. Maximum suppression of production was seen within 10 min of ROS exposure. Thromboxane B2 production was similarly decreased to 83.1 +/- 7.6 (0.05 less than P less than 0.10) or 54.9 +/- 2.5% (P less than 0.05). This effect was reversed by addition of catalase to the ROS generating system but not by superoxide dismutase or mannitol, which suggested that H2O2 was the responsible metabolite. High levels of H2O2 (5 x 10(-4) M) suppressed PGE2 production to 44.0 +/- 4.1 or 17.4 +/- 6.2% of A23187- or AA-stimulated production (P less than 0.05). Lower levels of H2O2 resulted in significant stimulation of base-line PGE2 production. Analysis of release of [3H]AA-labeled metabolites from A23187-stimulated cells showed no effect of H2O2 on phospholipase activity. Thus ROS can stimulate or inhibit AA metabolism in the glomerular mesangium, which may have important effects on glomerular hemodynamics during glomerular injury.
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PMID:Biphasic effect of oxygen radicals on prostaglandin production by rat mesangial cells. 310 32

The effect of free oxygen radicals on the electrical resistance of brain venular endothelium was studied in anesthetized frogs. The technique allowed continuous recording of the electrical resistance of the vascular wall reflecting its ionic permeability. The oxygen radicals were generated by an enzymatic reaction between xanthine oxidase and hypoxanthine supplied to the surface of the exposed brain. Electrical resistance of the venular endothelium decreased within 1-2 s after the reaction was initiated. Hypoxanthine (1 mM) and xanthine oxidase at a concentration of 10, 25, 50, 100, and 250 mU ml-1 lowered resistance to 1.0, 0.9, 0.8, 0.5 and 0.2 X control value, respectively, within a 3 min period of administration. The effect induced by 25 and 50 mU ml-1 of xanthine oxidase was readily reversible, whereas that induced by the two highest concentrations was irreversible within the observation time. The response was totally blocked by allopurinol as well as by superoxide dismutase plus catalase. Pretreatment with methylprednisolone or BW755C (an inhibitor of cyclo- and lipoxygenase) did not inhibit the response, nor did removal of calcium or magnesium from the extracellular medium. Free oxygen radicals are powerful agents that rapidly induce dynamic changes in the electrical resistance of brain vessels, supporting the notion that they may be important mediators of vascular endothelial damage in the brain.
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PMID:Free oxygen radicals decrease electrical resistance of microvascular endothelium in brain. 310 45

This study was designed to evaluate the effect of an exogenous free radical generating system consisting of purine plus xanthine oxidase on the isolated rat heart and in particular to assess the possible contribution of arachidonic acid or its metabolites to toxicity produced by this drug combination. Purine plus xanthine oxidase produced a time-dependent depression in cardiac contractility which was associated with stimulated release of lactate dehydrogenase (LDH). Electron microscopic analysis revealed a distinct separation of the glycocalyx from the sarcolemmal membrane with no apparent intracellular defects. Purine plus xanthine oxidase was a potent stimulus for 6-keto-prostaglandin F1 alpha (6K-PGF1 alpha) synthesis but leukotriene production was undetectable under any condition. Eicosatetraynoic acid, which totally prevents the metabolism of arachidonic acid, accelerated the loss in force and increased LDH release invoked by purine plus xanthine oxidase, but produced no noticeable change in sarcolemmal ultrastructure. Cyclooxygenase inhibitors produced little influence although pretreatment with either acetylsalicylic acid or ibuprofen decreased contractility toward the end of purine plus xanthine oxidase perfusion. Nordihydroguarietic acid, a purported inhibitor of 5'-lipoxygenase accelerated the loss in force produced by purine plus xanthine oxidase. The nordihydroguarietic acid effects were associated with reduced 6K-PGF1 alpha efflux but LDH release was unaffected. We also examined whether modification of arachidonic acid release through changes in calcium concentration was associated with altered response to purine plus xanthine oxidase. Lowering the calcium concentration to 0.41 mM (from 1.25 mM control) reduced markedly 6K-PGF1 alpha, efflux as well as LDH release. Although the latter is suggestive of protection, hypocalcemic perfusion resulted in a greater loss in force due to free radical generation. Furthermore, cells from these hearts exhibited a greater degree of glycocalyx separation. Increasing the calcium concentration to 2.50 mM produced no further toxic manifestations in the response to purine plus xanthine oxidase, although the release of 6K-PGF1 alpha was increased. Our results suggest complex toxicity induced by an exogenously generated free radical system. The injury produced by this method is restricted to sarcolemmal changes, the latter being dependent on the external calcium concentration. The study further suggests that accumulation of intracellular unesterified arachidonic acid, which may result from peroxidation of membrane lipids, increases tissue injury caused by exogenous free radicals.
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PMID:Injury to rat hearts produced by an exogenous free radical generating system. Study into the role of arachidonic acid and eicosanoids. 311 69

We have investigated the phosphorylation of the ribosomal S6 protein which may be on the pathway of mitogenic stimulation in response to oxidants. Mouse epidermal cells JB6 (clone 41) were exposed to active oxygen generated extracellularly by glucose/glucose oxidase (producing H2O2) or xanthine oxidase (producing H2O2 plus superoxide) or active oxygen produced intracellularly by the metabolism of menadione (producing mostly superoxide). All three sources of active oxygen induced rapidly a protein kinase activity which phosphorylated S6 in cellular extracts prepared in the presence of the phosphatase inhibitor beta-glycerophosphate. Maximal activity was reached within 15 min of exposure, and phosphorylation occurred specifically at serine residues. Strong activation of the protein kinase activity was also observed by diamide which selectively oxidizes SH functions. The following observations characterize the reaction: 1) Extracellular addition of catalase but not Cu,Zn-superoxide dismutase was inhibitory, implicating H2O2 rather than superoxide as the active species. 2) Exposure of JB6 cells to reagent H2O2 or H2O2 released by glucose/glucose oxidase resulted in a measurable increase in intracellular free Ca2+. 3) The intracellular Ca2+ complexer quin 2 suppressed the reaction. 4) The calmodulin antagonist trifluoperazine prevented the activation of the protein kinase. 5) Exposure of cells to Mn2+ and La3+, which stimulate calmodulin-dependent activities, potently increased the S6 kinase activity of the cell extracts. 6) Desalted extracts strictly required the addition of Mg2+ and their activity was inhibited by Mn2+. In contrast, the phosphorylation of a 95-kDa protein was strongly stimulated by Mn2+. 7) For several agonists, i.e. active oxygen, phorbol 12-myristate 13-acetate, and serum, tryptic peptide analysis yielded the same phosphopeptides, suggesting that a common S6 kinase is involved in these reactions. From these data we propose that oxidants induce an increase in intracellular free Ca2+ which activates a Ca2+/calmodulin-dependent protein kinase and, as a consequence, an S6 kinase.
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PMID:Oxidants induce phosphorylation of ribosomal protein S6. 314 21

Senescent cell antigen (SCANT) is a "neo antigen" that appears on the surface of normal old cells and initiates IgG binding and cellular removal. To investigate the mechanism by which SCANT is generated from its parent molecule, band 3, we subjected intact human erythrocytes to treatments that have been reported to result in changes in band 3 and/or to mimick aging in vitro. The validity of these treatments as model systems for erythrocyte aging was evaluated using a "red cell aging panel" that provides a biochemical profile of a senescent red cell. Treatments were assessed for their ability to induce in vitro the following changes observed in normal erythrocytes aged in vivo: 1 increased breakdown of band 3 as detected by immunoblotting, 2 decrease in anion transport efficiency as detected with a sulfate self-exchange assay, 3 decrease in total glyceraldehyde 3-phosphate dehydrogenase activity with an increase in membrane-bound activity, and 4 increase in the binding of autologous IgG as detected with a protein A binding assay. Neither incubation with the free radical-generating xanthine oxidase/xanthine system, nor treatment with malondialdehyde, and end product of free radical-initiated lipid (per)oxidation, results in age-specific changes. Loading of the cells with calcium and oxidation with iodate results in increased breakdown of band 3, but does not lead to increased binding of autologous IgG. Only erythrocytes that have been stored for 3-4 weeks show the same structural and functional changes as observed during aging in vivo.
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PMID:Erythrocyte aging: a comparison of model systems for simulating cellular aging in vitro. 317 56


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