UNIPROT:P47989 - FACTA Search

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Query: UNIPROT:P47989 (xanthine oxidase)
8,633 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of superoxide anion (O2-) and nitric oxide (NO) in the host defense mechanism against Salmonella typhimurium (LT-2) was examined by focusing on xanthine oxidase (XO) as an O2(-)-generating system and on inducible NO synthase (iNOS). When ICR mice were infected with a 0.1 50% lethal dose (2 x 10(5) CFU) of S. typhimurium, bacterial growth in the liver reached a peak value 3 days after infection (10(4.32) CFU/g of liver) and decreased thereafter. XO activity in the liver became maximum at 7 days after infection; the value was 34.6 +/- 1.4 mU/g of liver at 7 days (compared with 11.0 +/- 1.3 mU/g of liver before infection). The time profile of NO production in the liver as determined by electron spin resonance spectroscopy was consistent with that of XO activity. Histological examination of infected liver showed the formation of multiple microabscesses with granulomatous lesions consisting of polymorphonuclear cells and mononuclear cells, and iNOS-expressing cells were localized in the confined areas of the microabscesses. When XO inhibitors such as allopurinol and 4-amino-6-hydroxypyrazolo[3,4-d]pyrimidine (AHPP) were administered to the infected mice, the mortality of the mice was significantly increased (10 of 21 and 11 of 20 for the allopurinol- and AHPP-treated groups, respectively, versus 2 of 20 for control mice), and bacterial growth was significantly enhanced. A similar exacerbation of the infection was obtained with N(omega)-monomethyl-L-arginine (L-NMMA) treatment of the mice. Of considerable importance is that granuloma formation in the liver was poorly developed by treatment with either XO inhibitors or L-NMMA. These results suggest that XO and NO play an important role in the antimicrobial mechanism against S. typhimurium in mice.
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PMID:Induction of nitric oxide synthesis and xanthine oxidase and their roles in the antimicrobial mechanism against Salmonella typhimurium infection in mice. 919 69

Giardia lamblia trophozoites were incubated for 2 h with activated murine macrophages, nitric oxide (NO) donors or a superoxide anion generator (20 mU/ml xanthine oxidase plus 1 mM xanthine). Activated macrophages were cytotoxic to Giardia trophozoites (approximately 60% dead trophozoites). The effect was inhibited (> 90%) by an NO synthase inhibitor (200 microM) and unaffected by superoxide dismutase (SOD, 300 U/ml). Giardia trophozoites were killed by the NO donors, S-nitroso-acetyl-penicillamine (SNAP) and sodium nitroprusside (SNP) in a dose-dependent manner (LD50 300 and 50 microM, respectively). A dual NO-superoxide anion donor, 3-morpholino-sydnonimine hydrochloride (SIN-1), did not have a killing effect in concentrations up to 1 mM. However, when SOD (300 U/ml) was added simultaneously with SIN-1 to Giardia, a significant trophozoite-killing effect was observed (approximately 35% dead trophozoites at 1 mM). The mixtures of SNAP or SNP with superoxide anion, which yields peroxynitrite, abolished the trophozoite killing induced by NO donors. Authentic peroxynitrite only killed trophozoites at very high concentrations (3 mM). These results indicate that NO accounts for Giardia trophozoites killing and this effect is not mediated by peroxynitrite.
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PMID:Role of nitric oxide and superoxide in Giardia lamblia killing. 922 10

The modulating effects of nitric oxide (NO) and reactive oxygen species on cocaine-induced hepatotoxicity were examined by measuring plasma alanine aminotransferase activity and by carrying out histological studies. Liver injury was induced by a single injection of cocaine in adult male ICR mice. Pretreatment with aminoguanidine (an inhibitor of NO synthase), N-methyl-D-glucamine dithiocarbamate complex with iron ion (II) (Fe2+(MGD)2, a trapping reagent of NO) or deferoxamine complex with iron ion (III) (Fe3+-deferoxamine, a scavenger of NO) produced a marked inhibition of the hepatotoxicity induced by cocaine. In addition, pretreatment with allopurinol (an inhibitor of xanthine oxidase) and 1,3-dimethylthiourea (a scavenger of hydroxyl radical) also produced a potent inhibition. These findings suggest that a hydroxyl radical produced by the reaction of NO and superoxide anion (O2-) via peroxynitrite may be involved in the pathogenesis of cocaine hepatotoxicity.
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PMID:Cocaine-induced liver injury in mice is mediated by nitric oxide and reactive oxygen species. 938 53

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

We investigated the role of nitric oxide (NO) in the development of gastric mucosal lesions induced by serotonine (5-HT) in rats. Repeated subcutaneous administration of 5-HT (20 mg kg-1) produced damage in the stomach with severe edema in the submucosa. Gastric lesions induced by 5-HT were prevented by simultaneous administration of aminoguanidine, a selective inducible NO synthase (iNOS) inhibitor, as well as by methysergide, a 5-HT antagonist. In addition, the lesions were inhibited by pretreatment with the antioxidative drugs, such as allopurinol (a xanthine oxidase inhibitor) and hydroxyurea (a neutrophil reducing agent). Following 5-HT treatment, the Ca(2+)-independent NOS activity in the gastric mucosa was significantly increased within 6 h and remained elevated for 2 days thereafter. The serum NOx levels increased 12 h after the administration of 5-HT, reaching a peak 24 h later. Gastric mucosal thiobarbituric acid (TBA) reactants and myeloperoxidase (MPO) activity were also significantly increased after 2 days treatment with 5-HT. Our results suggest that: (1) the repeated administration of 5-HT induced inflammatory gastric lesions in the rat stomach; (2) iNOS is upreguated during 5-HT treatment, and NO produced by iNOS contributes to development of gastric lesions in response to 5-HT, in addition to the oxyradical formation, and (3) the deleterious role of NO in this model may be accounted for by a cytotoxic action of peroxynitrite that is formed in the presence of NO and superoxide radicals.
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PMID:Role of nitric oxide in pathogenesis of serotonine-induced gastric lesions in rats. 942 24

The purpose of this study was to determine whether superoxide anion is produced endogenously in the rat aortic adventitia and whether sufficient superoxide anion is produced to interfere with the response of the rat aorta to nitric oxide. Relaxation was measured in rings of the rat thoracic aorta, which were oriented so that the adventitial or luminal surface could be preferentially exposed to nitric oxide or sodium nitroprusside. To accomplish this, the rings were mounted (1) with the adventitia facing outward, (2) with the adventitia facing inward after inverting, or (3) with the adventitia facing outward after inverting twice (to control for the inverting procedure). The relaxation to nitric oxide, but not to sodium nitroprusside, was less in rings with the adventitia facing outward compared with those in which it faced inward. In contrast, the response to nitric oxide via either surface was similar when extracellular superoxide anion was scavenged with superoxide dismutase. Incubation of rings with nitro blue tetrazolium (NBT) resulted in blue formazan staining of the adventitia, and lucigenin chemiluminescence was significantly greater when detected from the adventitial compared with the intimal aspect of the artery. The reduction of NBT in intact aortic rings was 30+/-2 pmol x min(-1) x mg(-1) and was significantly decreased by superoxide dismutase to 19+/-2 pmol x min(-1) x mg(-1) and by a synthetic superoxide dismutase mimic, Euk-8, to 11+/-2 pmol x min(-1) x mg(-1). The NADPH oxidase inhibitor, diphenyleneiodonium, decreased NBT reduction to 9+/-1 pmol x min(-1) x mg(-1), whereas inhibitors of xanthine oxidase, mitochondrial oxidases, and nitric oxide synthase were ineffective. Immunohistochemical staining indicated the localization of NADPH oxidase proteins gp91phox, p22phox, p47phox, and p67phox almost exclusively in the adventitia of the rat aorta with no substantial staining in the media. These results indicate that NADPH oxidase located in the adventitia of rat thoracic aorta generates sufficient extracellular superoxide anion to constitute a barrier capable of inactivating nitric oxide. This study suggests that adventitial superoxide anion can play a role in the pathophysiology of the arterial wall.
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PMID:Superoxide anion from the adventitia of the rat thoracic aorta inactivates nitric oxide. 956 41

Neutrophil activation and oxygen-derived free radical formation have been implicated in cardiac ischemia-reperfusion injury. To elucidate the mechanism of ischemia-reperfusion injury, we thus determined the effect of the nitric oxide (NO) precursor L-arginine on the free radical injury of cultured cardiomyocytes which were obtained from patients undergoing corrective surgery for tetralogy of Fallot. Free radicals were generated from hypoxanthine via xanthine oxidase, and the cellular changes were determined microscopically. All concentrations of L-arginine (0.5 to 3 mM) prolonged the myocyte survival time compared to the control group, with 0.5 mM L-arginine increasing the survival time to the greatest extent. Cellular susceptibility to free radical injury was the lowest with 0.5 mM L-arginine. Further experiments were performed with 0.5 mM L-arginine plus 100 mM or 1000 mM of the NO synthase (NOS) inhibitor NG-nitro-L-arginine methylester (L-NAME) to determine whether or not the effects of L-arginine are mediated through the NO pathway. The survival time for the cells treated with a concentration of L-NAME was shorter than for the cells treated with 0.5 mM L-arginine alone. These results suggest that L-arginine acts through the NO-dependent pathway. In conclusion, our findings thus confirmed the quenching effects of NO on free radical injury in cultured cardiomyocytes.
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PMID:Quenching the effects of L-arginine on free radical injury in cultured cardiomyocytes. 959 Jul 1

Recent studies have characterized a rebound pulmonary vasoconstriction with abrupt withdrawal of inhaled nitric oxide (NO) during therapy for pulmonary hypertension, suggesting that inhaled NO may downregulate basal NO production. However, the exact mechanism of this rebound pulmonary hypertension remains unclear. The objectives of these studies were to determine the effect of NO exposure on endothelial NO synthase (eNOS) gene expression, enzyme activity, and posttranslational modification in cultured pulmonary arterial endothelial cells. Sodium nitroprusside (SNP) treatment had no effect on eNOS mRNA or protein levels but did produce a significant decrease in enzyme activity. Furthermore, although SNP treatment induced protein kinase C (PKC)-dependent eNOS phosphorylation, blockade of PKC activity did not protect against the effects of SNP. When the xanthine oxidase inhibitor allopurinol or the superoxide scavenger 4,5-dihydroxy-1-benzene-disulfonic acid were co-incubated with SNP, the inhibitory effects on eNOS activity could be partially alleviated. Also, the levels of superoxide were found to be elevated 4.5-fold when cultured pulmonary arterial endothelial cells were exposed to the NO donor spermine/NO. This suggests that NO can stimulate xanthine oxidase to cause an increase in cellular superoxide generation. A reaction between NO and superoxide would produce peroxynitrite, which could then react with the eNOS protein, resulting in enzyme inactivation. This mechanism may explain, at least in part, how NO produces NOS inhibition in vivo and may delineate, in part, the mechanism of rebound pulmonary hypertension after withdrawal of inhaled NO.
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PMID:Nitric oxide exposure inhibits endothelial NOS activity but not gene expression: a role for superoxide. 961

In recent years, accumulated evidence indicates that free radical species and nitric oxide (NO) or its derivatives are the key denominators in carcinogenesis. Our present topics discussed in this article will focus on the biological significance of free radical generation induced by viral and bacterial infections. In influenza virus infection in mice, the level of xanthine oxidase (XO) at the infected sites was elevated to a great extent. The timing of paralleled induction of XO with that of inducible NO synthase (iNOS) indicates efficient simultaneous reaction: NO + O2*- --> ONOO- (peroxynitrite). Peroxynitrite formation was identified by immunostaining of nitrotyrosine at the local site of infected organs. Peroxynitrite exhibits unique chemical reactivities such as protein nitration, DNA-strand breakage, guanine nitration, etc., which may then bring about not only cytotoxic effect but also mutagenesis. Numbers of evidence in vitro and in vivo show that treatment with chemical carcinogens such as carbon tetrachloride and heterocyclic amines also generated superoxide. The chronic inflammatory reactions, e.g., zymosan- and silica-induced granuloma, revealed very similar free radical generation in vivo. In addition, most experimental solid tumors have elevated levels of iNOS in the tumor tissue, and NO thus generated facilitates vascular permeability, which accelerates nutritional supply to the tumor tissue and hence sustains the rapid tumor growth. These circumstantial evidences suggest that inflammatory responses induced by various pathogens would accelerate mutagenesis as well as tissue damage, whereas NO also sustains more effectively solid tumor growth when normal cells are transformed to tumor or carcinoma cells by the host-derived free radical species.
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PMID:Nitric oxide and oxygen radicals in infection, inflammation, and cancer. 972 38

The effects of inhibition of xanthine oxidase on responses mediated by nitric oxide (NO) were examined using the selective xanthine oxidase inhibitors allopurinol and 4-amino-6-hydroxypyrazolo[3,4-d]pyrimidine (AHPP). In rat aortic rings precontracted with phenylephrine (1 microM), allopurinol (300 microM) and AHPP (100, 300 microM) significantly reduced tone, an effect not seen after inhibition of NO synthase with Nomega-nitro-L-arginine (NOLA 100 microM). Relaxations produced by acetylcholine (0.01-10 microM) were significantly enhanced by AHPP (100, 300 microM) but not by allopurinol. Nitrergic relaxations in the rat anococcygeus muscle (field stimulation 1 ms pulses; 1 Hz: 10 s) were not affected by either allopurinol or AHPP. However, relaxations produced by exogenous NO (0.25 microM) were significantly enhanced by AHPP, allopurinol (100 microM) and superoxide dismutase (100 U/ml). Xanthine (500 microM) partially, but significantly, reversed the enhancement produced by AHPP. These findings suggest that superoxide generated by xanthine oxidase modulates the activity of basal and stimulated NO derived from the rat aortic endothelium, but does not affect the activity of the nitrergic transmitter in the rat anococcygeus muscle, despite its ability to modulate responses to exogenous NO.
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PMID:Effect of xanthine oxidase inhibition on endothelium-dependent and nitrergic relaxations. 976 22

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