UNIPROT:P47989 - FACTA Search

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)

We studied microbicidal activities of reactive nitrogen intermediates (RNI), free fatty acids (FFA), and reactive oxygen intermediates (ROI) against Mycobacterium avium complex (MAC) and the mode of macrophage (mphi) production of these effectors. (1) Intracellular growth of MAC in murine peritoneal mphis was accelerated by scavengers for ROI or RNI and inhibitors of nitric oxide synthase or phospholipase A2, indicating roles of ROI, RNI, and FFA in mphi anti-MAC functions. (2) Acidified NaNO2-derived RNI, FFA (linolenic and arachidonic acids), and the H2O2-mediated halogenation system exhibited a significant anti-MAC bactericidal activity. The combination of RNI with FFA showed a synergistic effect. However, the H2O2-halogenation system in combination with either RNI or FFA showed an antagonism. When Listeria monocytogenes (Lm) was used as a target organism, the combinations of RNI + FFA and RNI + H2O2-halogenation gave a synergistic effect, whereas FFA + H2O2-halogenation showed an antagonism in exerting bactericidal activity. In addition, when ROI generated by the xanthine oxidase-acetaldehyde system was combined with RNI, anti-Lm but not anti-MAC activity was potentiated. (3) ROI production by murine peritoneal mphis was observed immediately after contact with MAC organisms (MAC stimulation) and ceased within 2 h. FFA release was seen 1-24 h after MAC stimulation. RNI production was initiated from 3 h and increased during the first 36 h and continued at least for 4 days. These findings suggest that RNI and FFA rather than ROI are important effectors of anti-MAC functions of mphis, and the collaborating action of RNI with FFA temporarily participates in mphi-mediated killing of MAC in the relatively early phase after MAC stimulation.
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PMID:Effector molecules in expression of the antimicrobial activity of macrophages against Mycobacterium avium complex: roles of reactive nitrogen intermediates, reactive oxygen intermediates, and free fatty acids. 940 Aug 21

A number of immunomodulating agents of different origin have been shown to reduce liver injury of various etiologies. Immunostimulants like levamisole, BCG, a protein polysaccharide from myceria Coriolus vesicolor PS-K, a streptoccocal preparation OK-432 and immunomodulators like N-acetylmuramyl-L-alanyl-D-isoglutamine (MDP) and its analogs. Selective T-cell suppressors like the polypeptide cyclosporine A (CsA) and the macrolide FK 506 (tacrolimus) have also been claimed to possess hepatoprotrophic or hepatoprotective properties at low doses. The aim of this review article is to highlight the interplay between the administration of immunomodulating agents and the amelioration of hepatic injuries. Hepatic effects of exogenous immunomodulators are discussed with special focus on the most widely used immunosuppressive agents, CsA and tacrolimus. An important question exists as to whether these potential hepatoprotective effects are related mechanistically to the immune system or are working at different levels. Due to the differences in effects and modes of actions of various immunoactive substances presented herein, a common mechanism for their cytoprotective effects cannot be formulated at this stage. Levamisole and cyanidanol may protect cells against necrosis by acting as free radical scavengers. MDP and its analogs reduce carbon tetrachloride-elevated (CCl4) lipid peroxides and their protective effects are primarily on hepatic cytoplasmic membranes where lipid peroxidation and calcium homeostasis interact. MDP reduced CCl4-elevated calcium in both intact hepatocytes and in the post microsomal supernatant suggest that the influx of extracellular calcium across plasma membrane is affected. Elevations of intracellular calcium above a threshold are involved in: the stimulation of Ca2+-sensitive enzymes such as phospholipase A2, endonucleases and proteases, the conversion of xanthine dehydrogenase to xanthine oxidase and the formation of free radicals, all of which disturb biomembranes. MDP and its analogs, in a specific dose range, may act to maintain intracellular calcium within physiological ranges. Highly complex cellular signalling systems, including calcium, are involved in the explanation of the mechanism of the immunosuppressive effect of CsA and tacrolimus. The hepatoprotective effects of these selective immunosuppressive agents, however, are independent of the inhibition of T-cell activation. The cyclophilin and tacrolimus binding proteins of the mitochondria are the receptors for these compounds and play a key role in the regulation of mitochondrial permeability transition pores. CsA or tacrolimus inhibition of mitochondrial permeability transition pores does not require interaction with calcineurin, indicating a dissociation between immunosuppression and mitochondrial protection. The involvement of intracellular or intramitochondrial proteins in the modulation of mitochondrial permeability transition pores with the creation of a partially impermeable state for Ca2+ movement in drug-treated mitochondria and the dissociation of this effect from immunomodulatory actions potentially offers new and promising approaches for the development of new pharmacologicals targeted at therapeutic intervention. Clinical trials of these drugs as hepatoprotective agents are limited. Use of CsA in patients with primary biliary cirrhosis and autoimmune chronic hepatitis and in cirrhotic animal models produced by chronic administration of CCl4 have yielded encouraging results. It seems that this class of compounds may be of substantial benefit in liver protection against many pathological conditions where disturbance in mitochondrial function and in Ca2+ homeostasis appear to be prerequisites for cell injury.
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PMID:Immunopharmacologic agents in the amelioration of hepatic injuries. 973 Feb 49

The susceptibility of the developing brain to hypoxia should depend on the lipid composition of the brain cell membrane; the rate of lipid peroxidation; the presence of antioxidant defenses; and the development and modulation of the excitatory neurotransmitter receptors such as the N-methyl-D-aspartate (NMDA) receptor, the intracellular Ca++ and intranuclear Ca++-dependent mechanisms. In addition to the developmental status of these cellular components, the response of these potential mechanisms to hypoxia determines the fate of the hypoxic brain cell in the developing brain. In the fetal guinea pig and newborn piglet models, studies have demonstrated that brain tissue hypoxia results in brain cell membrane damage as evidenced by increased membrane lipid peroxidation and decreased Na+,K+-ATPase activity. Using electron spin resonance spectroscopy of alpha-phenyl-N-tert-butyl-nitrone spin-adducts, studies from our laboratory have demonstrated that tissue hypoxia results in increased free radical generation in the cortex of fetal guinea pigs and newborn piglets. We have also shown that brain tissue hypoxia modifies the N-methyl-D-aspartate receptor-ion channel, recognition and modulatory sites. Furthermore, a higher increase in NMDA receptor agonist-dependent Ca++ in synaptosomes of hypoxic as compared to normoxic fetuses was demonstrated. The increase in intracellular Ca++ may activate several enzymatic pathways such as phospholipase A2 and metabolism of arachidonic acid by cyclooxygenase and lipoxygenase, conversion of xanthine dehydrogenase to xanthine oxidase by proteases and activation of nitric oxide synthase. Using specific inhibitors of each of these enzymes such as cyclooxygenase (indomethacin), lipoxygenase (nordihydroguaiaretic acid), xanthine oxidase (allopurinol) and nitric oxide synthase (N-nitro-L-arginine), studies have shown that these enzyme reactions result in oxygen free radical generation, membrane lipid peroxidation and cell membrane dysfunction in the hypoxic brain. We suggest that, during hypoxia, the increased intracellular Ca++ may lead to an increased intranuclear Ca++ concentration and alter nuclear events including transcription of specific genes responsible for programmed cell death. In view of the developmental studies presented, the susceptibility of the fetal brain to hypoxia appears to increase with brain development as gestation approaches term.
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PMID:Cellular mechanisms of hypoxic injury in the developing brain. 1022 30

During inflammation and other pathological states, the lipid mediator platelet-activating factor (PAF) and reactive oxygen species (ROS) are both generated. We have been investigating the effect of exogenous PAF on ROS formation in the human keratinocyte cell line (HaCaT). ROS production, measured using luminol-enhanced chemiluminescence (CL), proved to be rapid, transient, PAF receptor-mediated, and totally dependent on an increase in intracellular Ca2+ ([Ca2+]i) and on the presence of extracellular Ca2+. Repeated administration of PAF resulted in refractoriness to the agonist in terms of both capacities to increase [Ca2+]i and generate ROS. The cells, however, continued to respond fully to other stimulants (bradykinin, epidermal growth factor, thapsigargin). The PAF-induced increases in [Ca2+]i (monitored using the fluorescent probe Fluo-3) were also rapid and transient and paralleled those of ROS generation. Relatively specific inhibitors of potential ROS-producing systems were administered in an attempt to characterize the ROS producing system(s). Inhibitors of xanthine oxidase, phospholipase A2, lipoxygenase, cyclooxygenase and NO synthase did not interfere with PAF evoked ROS. The flavoprotein inhibitor diphenyleneiodonium and the mitochondrial cytochrome oxidase inhibitor KCN, prevented generation of ROS, making NAD(P)H a candidate for the electron source of the ROS and the mitochondria a potential major site of formation.
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PMID:Calcium-dependent PAF-stimulated generation of reactive oxygen species in a human keratinocyte cell line. 1036 77

Incubation of sheep platelet crude membranes with xanthine oxidase (XO)/hypoxanthine/Fe(2+)-ADP revealed: (i) a fast peroxidative response - with a maximal linear rate of 14 nmol malondialdehyde (MDA) equivalents/mg protein, as evidenced by the thiobarbituric acid test - and a decrease in the polyunsaturated fatty acid (PUFA) content of the platelet crude membranes; (ii) a decrease in the lipid fluidity in the deep lipid core of the membranes but not at the membrane surface; (iii) a dramatic inhibitory effect on glucose 6-phosphatase (Glc-6-Pase) but not on acetylcholinesterase activity. Platelets were also aged by storage at 4 degrees C in their own plasma or in Seto additive solution. In these media, platelet aggregates were visible and the effects on platelet phospholipids, PUFA, lipid extract fluorescence, crude membrane fluidity and membrane-bound enzyme activities were assessed for comparison with those observed in in vitro lipid peroxidation. The sensitivity of membranes from stored platelets to lipid peroxidation was also assessed. Storage of platelets in plasma for 5 days was associated with different changes in their crude membranes such as decreases in arachidonic acid contents, the decrease not being avoided by the presence of phospholipase A(2) inhibitors, increases in MDA equivalents, conjugated dienes and lipid extract fluorescence, decreases in the amounts of MDA equivalents formed by platelet crude membranes treated with the oxidizing agents, changes in membrane fluidity and inhibition of Glc-6-Pase. All these alterations were less pronounced or even abolished after platelet storage in Seto. These findings suggest that platelet lipid peroxidation due to XO/hypoxanthine/Fe(2+)-ADP and platelet membrane alterations observed after platelet ageing under storage at 4 degrees C share common features. Also, as regards the prevention of peroxidative processes, Seto solution permits better storage of sheep platelets than plasma.
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PMID:Comparison between in vitro lipid peroxidation in fresh sheep platelets and peroxidative processes during sheep platelet ageing under storage at 4 degrees C. 1040 82

Recent work indicates that respiratory muscles generate superoxide radicals during contraction (M. B. Reid, K. E. Haack, K. M. Francik, P. A. Volberg, L. Kabzik, and M. S. West. J. Appl. Physiol. 73: 1797-1804, 1992). The intracellular pathways involved in this process are, however, unknown. The purpose of the present study was to test the hypothesis that contraction-related formation of reactive oxygen species (ROS) by skeletal muscle is linked to activation of the 14-kDa isoform of phospholipase A(2) (PLA(2)). Studies were performed by using an in vitro hemidiaphragm preparation submerged in an organ bath, and formation of ROS in muscles was assessed by using a recently described fluorescent indicator technique. We examined ROS formation in resting and contracting muscle preparations and then determined whether contraction-related ROS generation could be altered by administration of various PLA(2) inhibitors: manoalide and aristolochic acid, both inhibitors of 14-kDa PLA(2); arachidonyltrifluoromethyl ketone (AACOCF(3)), an inhibitor of 85-kDa PLA(2); and haloenol lactone suicide substrate (HELSS), an inhibitor of calcium-independent PLA(2). We found 1) little ROS formation [2.0 +/- 0.8 (SE) ng/mg] in noncontracting control diaphragms, 2) a high level of ROS (20.0 +/- 2.0 ng/mg) in electrically stimulated contracting diaphragms (trains of 20-Hz stimuli for 10 min, train rate 0.25 s(-1)), 3) near-complete suppression of ROS generation in manoalide (3.0 +/- 0.5 ng/mg, P < 0. 001)- and aristolochic acid-treated contracting diaphragms (4.0 +/- 1.0 ng/mg, P < 0.001), and 4) no effect of AACOCF(3) or HELSS on ROS formation in contracting diaphragm. During in vitro studies examining fluorescent measurement of ROS formation in response to a hypoxanthine/xanthine oxidase superoxide-generating solution, manoalide, aristolochic acid, AACOCF(3), and HELSS had no effect on signal intensity. These data indicate that ROS formation by contracting diaphragm muscle can be suppressed by the administration of inhibitors of the 14-kDa isoform of PLA(2) and suggest that this enzyme plays a critical role in modulating ROS formation during muscle contraction.
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PMID:Formation of reactive oxygen species by the contracting diaphragm is PLA(2) dependent. 1044 41

Although endothelium-derived hyperpolarizing factor (EDHF) is thought to be a cytochrome P-450 product (arachidonic acid metabolite) in some tissues, in porcine coronary arteries (PCAs) its nature remains unclear. Because phospholipase A2 and C are involved in the synthesis and/or release of EDHF in the PCA, the arachidonic acid (AA) pathway may be involved. In the presence of the cyclooxygenase inhibitor indomethacin (10(-5) M) and the NOS inhibitor Nomega-nitro-L-arginine methyl ester (L-NAME; 10(-4) M), both bradykinin (BK; 10(-9)-10(-6) M) and AA (10(-7)-10(-4) M) induced dose-dependent relaxation of PGF2alpha-contracted PCA rings, which was blocked by a high extracellular concentration of KCl (30 mM) or pretreatment with ouabain, a Na+/K+-adenosine triphosphatase (ATPase) inhibitor (5 x 10(-7) M). Eicosatetraynoic acid (ETYA; 20 microM), which inhibits all AA pathways, slightly affected the response to BK and AA; however, lipoxygenase or cytochrome P-450 inhibitors had no effect, suggesting that relaxation is independent of these enzymatic pathways. Because endothelial cells can generate reactive oxygen species (ROS) via metabolism of AA and independent of cyclooxygenase activity, we also studied (a) whether ROS can relax the PCA, as well as the mechanism(s) involved, and (b) the role of ROS in BK- and AA-induced relaxation. Xanthine (X; 100 microM) plus xanthine oxidase (XO; 0.02 U/ml) induced time-dependent relaxation of PGF2alpha-contracted PCA rings in the presence of indomethacin and L-NAME. Dilatation was not affected by superoxide dismutase (SOD; 500 U/ml) but was abolished by catalase (300 U/ml), suggesting that hydrogen peroxide (H2O2) is involved. When rings were contracted by depolarizing them with 30 mM KCl, X/XO failed to elicit relaxation. Ouabain abolished the response to X/XO, suggesting that X/XO may induce relaxation by hyperpolarizing vascular smooth muscle cells via stimulation of the Na+/K+-ATPase pump. We therefore questioned whether ROS might be involved in BK- and AA-induced relaxation. Because catalase combined with SOD had little or no effect, we concluded that in the PCA, the relaxation induced by BK via EDHF involves some mechanism independent of NO, AA metabolism, or ROS.
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PMID:Reactive oxygen species: role in the relaxation induced by bradykinin or arachidonic acid via EDHF in isolated porcine coronary arteries. 1051 Nov 33

Cerebral hypoxia in the fetus and newborn results in neonatal morbidity and mortality as well as long-term sequelae such as mental retardation, seizure disorders, and cerebral palsy. In the developing brain, determinants of susceptibility to hypoxia should include the lipid composition of the brain cell membrane, the rate of lipid peroxidation, the presence of antioxidant defenses, and the development and modulation of excitatory amino acid neurotransmitter receptors such as the N-methyl-D-aspartate (NMDA) receptor, the intracellular Ca2+, and the intranuclear Ca(2+)-dependent mechanisms. In addition to the developmental status of these cellular components, the response of these potential mechanisms to hypoxia determines the fate of the hypoxic brain cell in the developing brain. Using electron spin resonance spectroscopy of alpha-phenyl-N-tert-butyl-nitrone spin adducts, studies from our laboratory demonstrated that tissue hypoxia results in increased free radical generation in the cortex of fetal guinea pigs and newborn piglets. Pretreatment with MgSO4 significantly decreased the hypoxia-induced increase in free radical generation in the term fetal brain. We also showed that brain tissue hypoxia modifies the NMDA receptor ion-channel recognition and modulatory sites. Furthermore, a higher increase in NMDA receptor agonist-dependent Ca2+ in synaptosomes was demonstrated. The increase in intracellular Ca2+ may activate several enzymatic pathways such as phospholipase A2 and metabolism of archidonic acid by cyclooxygenase and lipoxygenase, conversion of xanthine dehydrogenase to xanthine oxidase by proteases, and activation of nitric oxide synthase. Using inhibitors of each of these enzymes such as cyclooxygenase (indomethacin), lipoxygenase (nordihydroguaiaretic acid), xanthine oxidase (allopurinol), and nitric oxide synthase (N-nitro-L-arginine), studies have shown that these enzyme reactions result in oxygen free radical generation, membrane peroxidation, and cell membrane dysfunction in the hypoxic brain. Specifically, generation of nitric oxide free radicals during hypoxia may lead to nitration and nitrosylation of specific membrane proteins and receptors, resulting in dysfunction of receptors and enzymes. We conclude that hypoxia-induced modification of the NMDA receptor leading to increased intracellular Ca2+ results in free radical generation and cell injury. We suggest that during hypoxia the increased intracellular Ca2+ may lead to increased intranuclear Ca2+ concentration and alter nuclear events including transcription of specific apoptotic genes and activation of endonucleases, resulting in programmed cell death.
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PMID:Mechanisms of perinatal cerebral injury in fetus and newborn. 1081 2

Nonsteroidal anti-inflammatory drugs (NSAIDs) cause small intestinal damage but the pathogenesis of this toxicity is not well established. Our earlier work has shown that villus enterocytes are most susceptible to the effects of indomethacin, a commonly used NSAID. This study looked at the acute effect of indomethacin on brush border membranes (BBM), which are present mainly in the villus cells and are in immediate contact with the contents of the small intestinal lumen. Evidence of oxidative stress was found in the mucosa of the small intestine of rats dosed with indomethacin, as indicated by increased activity of xanthine oxidase with corresponding decrease in the levels of several free radical scavenging enzymes. These changes were associated with an increase in peroxidation parameters in the BBM and a fall in the level of alpha-tocopherol. These BBM also exhibited impairment in glucose transport. Significant changes were seen in the lipid composition of these membranes, with upregulation of an 85kDa isoform of phospholipase A(2). Pretreatment of animals with allopurinol, arginine or zinc protected against these effects of indomethacin. Thus this study suggests that in an acute model of indomethacin dosing there is impairment in structure and function of the BBM in enterocytes, with the effects possibly mediated by free radicals and phospholipases.
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PMID:Indomethacin-induced free radical-mediated changes in the intestinal brush border membranes. 1256 98

Three flavonoids, gnaphaliin, pinocembrin and tiliroside, isolated from Helichrysum italicum, were studied in vitro for their antioxidant and/or scavenger properties and in vivo in different models of inflammation. In vitro tests included lipid peroxidation in rat liver microsomes, superoxide radical generation in the xanthine/xanthine oxidase system and the reduction of the stable radical 1,1-diphenyl-2-pycryl-hydrazyl (DPPH). Acute inflammation was induced by application of 12-O-tetradecanoylphorbol 13-acetate (TPA) to the mouse ear or by subcutaneous injection of phospholipase A(2) or serotonin in the mouse paw. Eczema provoked on the mouse ear by repeated administration of TPA was selected as a model of chronic inflammation. The flavonoids were assayed against sheep red blood cell-induced mouse paw oedema as a model of delayed-type hypersensitivity reaction. The most active compound, both in vitro and in vivo, was tiliroside. It significantly inhibited enzymatic and non-enzymatic lipid peroxidation (IC(50)=12.6 and 28 microM, respectively). It had scavenger properties (IC(50)=21.3 microM) and very potent antioxidant activity in the DPPH test (IC(50)=6 microM). In vivo, tiliroside significantly inhibited the mouse paw oedema induced by phospholipase A(2)(ED(50)=35.6 mg/kg) and the mouse ear inflammation induced by TPA (ED(50)=357 microg/ear). Pinocembrin was the only flavonoid that exhibited anti-inflammatory activity in the sheep red blood cell-induced delayed-type hypersensitivity reaction. However, only tiliroside significantly reduced the oedema and leukocyte infiltration induced by TPA. As in the case of other flavonoids, the anti-inflammatory activity of tiliroside could be based on its antioxidant properties, although other mechanisms are probably involved.
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PMID:Assessment of the anti-inflammatory activity and free radical scavenger activity of tiliroside. 1256 16

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