EC:1.6.3.1 - FACTA Search

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Query: EC:1.6.3.1 (NADPH oxidase)
11,281 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The report by Schacter et al. (J Biol Chem 247: 3601, 1972) that an antibody to NADPH-cytochrome c oxidoreductase inhibited NADPH-cytochrome c reductase and heme oxygenase activities in rat and pig liver and spleen microsomes demonstrated the role of this flavoprotein in microsomal heme oxygenation. Recent studies from other laboratories (Yoshida et al., J Biochem 75, 1187: 1974 and Bissell et al., Fed Proc 33: 1246, 1974) have strongly suggested that cytochrome P-450 is not involved in heme oxygenation. The availability of a homogeneous preparation of NADPH-cytochrome c reductase prompted us to test heme oxygenase activity in a system devoid of hemoprotein contamination. NADPH-cytochrome c reductase catalyzed biliverdin formation at a rate of 8.26 +/- 0.5 SEM nmole min-1mg-1 in the absence of biliverdin reductase. The rate of bilirubin formation in the presence of biliverdin reductase was less than 10% of the rate of biliverdin formation, suggesting that mixture of biliverdin isomers may be produced. Biliverdin production was potently (70--80%) inhibited by catalase, but was unaffected by superoxide dismutase. Epinephrine also inhibited heme oxygenation, presumably by utilizing O2. required for the formation of H2O2 by the reductase. By extrapolation, the NADPH oxidase activity due to NADPH-cytochrome c reductase can account for heme degradation occurring in microsomes. However, the specificity of ring scission at the IXalpha position must be due to another microsomal protein, perhaps the heme oxygenase of Yoshida et al., and not cytochrome P-450.
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PMID:The catalysis of heme degradation by purified NADPH-cytochrome C reductase in the absence of other microsomal proteins. 82 31

The administration of dieldrin (30 mg/kg body weight) caused an increase in the liver weight of rats. The metabolism of aflatoxins B1 and G1 by the microsomes obtained from the liver of dieldrin-treated animals was enhanced significantly as compared to the controls showing that dieldrin increased the activity of mixed function hydroxylases. Dieldrin caused an increase in the activity of liver microsomal NADPH oxidase and a decrease in the lipid peroxidation. Dieldrin brought about an increase in the phosphatidylcholine content of rat liver.
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PMID:Induction of mixed function oxidases on oral administration of dieldrin. 88 Jun 95

Results are presented indicating that, although glutathione peroxidase activity inhibits lipid peroxidation in membranes, it does not appear to do so by reducing membrane lipid peroxides to lipid alcohols, as has been shown by others to be the case for free fatty acid peroxides in solution. Lipid peroxidation was studied in an enzymic system (microsomal NADPH oxidase) and in a non-enzymic system (mitochondria plus ascorbate). A study of the fatty acids in the phospholipids of microsomes and mitochondria demonstrated that detectable amounts of hydroxy fatty acids were not formed in the membranes when the latter were incubated in the presence of the glutathione peroxidase system even under conditions known to have generated significant levels of lipid peroxides in the membrane. Fatty acid analyses of the microsomal and mitochondrial particles indicated that glutathione peroxidase activity inhibited loss of polyunsaturated fatty acids when these organelles were exposed to peroxidizing conditions. If glutathione peroxidase activity were inhibiting the formation of malondialdehyde (a product of lipid peroxidation) by converting peroxide groups to alcohols, the loss of the constitutive polyunsaturated fatty acids in the membrane should not have been appreciably affected by addition of the peroxidase system. The protective effect cannot be due to quenching of an autocatalytic type of lipid peroxidation (at least in the microsomal system) since it has been established that the microsomal enzyme system (NADPH oxidase) catalyzes a continuous attack on microsomal polyunsaturated fatty acyl groups during the reaction and that the peroxidative process is not autocatalytic in nature. It appears, therefore, that glutathione peroxidase activity must exert its effect on this system by preventing free radical attack on the polyunsaturated membrane lipids in the first place. A possible mechanism for the interruption of a free radical attack on the lipids is proposed.
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PMID:Effect of glutathione peroxidase activity on lipid peroxidation in biological membranes. 94 86

The activity of the hepatic microsomal ethanol-oxidizing system (MEOS) was compared with the content of three forms of cytochrome P-450. Measurements were also made of the activity of microsomal reduced nicotinamide adenine dinucleotide phosphate (NADPH) oxidase, the enzyme which generates H2O2 in microsomes and which has been considered by some to be the rate-limiting step of MEOS activity. Ethanol feeding to rats for 4 to 5 weeks significantly enhanced the activities of MEOS and NADPH oxidase by 102 and 62%, respectively. Concomitantly, form I of cytochrome P-450 was increased by 88% (P less than .001). Acute administration of a large dose of ethanol to animals pretreated chronically with ethanol enhanced MEOS activity by 21% (P less than .05), whereas NADPH oxidase activity remained unchanged. In addition, an acute dose of ethanol enhanced form I of cytochrome P-450 by 20% (P less than .05); thus its increase was comparable to that of MEOS activity. Pretreatment of rats with phenobarbital increased the specific activity of microsomal NADPH oxidase by 40% (P less than .05) but not that of MEOS. By contrast, CCl4 administration to rats diminished MEOS activity by 33% (P less than .01), whereas NADPH oxidase activity remained unchanged. The CCl4 treatment was found to decrease significantly all three forms of cytochrome P-450: form I by 45%, form II by 56% and form III by 24%. These results suggest that in the presence of NADPH microsomes oxidize ethanol to acetaldehyde by a process which involves, at least in part, the form I of cytochrome P-450 and in which H2O2 generation by NADPH oxidase is not the rate-limiting step.
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PMID:Hepatic microsomal ethanol-oxidizing system (MEOS): dissociation from reduced nicotinamide adenine dinucleotide phosphate oxidase and possible role of form I of cytochrome P-450. 115 72

1. Lindane administered to untreated rats or rats pretreated with phenobarbital (PB) or 3-methylcholanthrene (MC) increased liver lipid peroxidation, of the same magnitude in all groups. 2. PB pretreatment produced a 50% increase in lipid peroxidation (TBAR) by liver homogenates and microsomes, an effect accompanied by increases in cytochrome P-450, NADPH-cytochrome P-450 reductase, NADPH oxidase and microsomal superoxide anion production, MC pretreatment resulted in increases in liver cytochrome P-450 and NADPH oxidase only. 3. Pretreatment of rats with PB, but not MC or lindane, gave increases in glutathione peroxidase and reductase. 4. Pretreatment with PB, but not MC, increased liver GSH. Lindane decreased liver GSH to the same extent as PB plus lindane. 5. Biliary GSH, GSSG and bile flow were decreased by lindane to similar extents in all groups. 6. Lindane induced periportal necrosis with haemorrhagic foci in all groups. 7. Data presented indicate that the early lipid peroxidative response of liver to lindane was unchanged by PB- or MC-stimulated hepatic microsomal enzyme induction.
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PMID:Effect of phenobarbital and 3-methylcholanthrene on the early oxidative stress component induced by lindane in rat liver. 172 29

Incubation of rat liver microsomes with 1-propanol and 1-butanol in the presence of NADPH and of the spin trapping agent 4-pyridyl-1-oxide-t-butyl nitrone (4-POBN) allowed the detection of free radical intermediates tentatively identified as 1-hydroxypropyl and 1-hydroxybutyl radical, respectively. Microsomes isolated from rats treated chronically with ethanol (EtOH) or with the combination of starvation and acetone treatment (SA), exhibited a two-fold increase in the ESR signal intensity as compared to untreated controls, whereas no increase was observed in phenobarbital-induced (PB) microsomes. Consistently, in reconstituted membrane vesicles, ethanol-inducible cytochrome P450IIE1 was twice as active as phenobarbital-inducible P450IIB1 in producing 1-butanol free radicals. In the microsomal preparations from EtOH and SA pretreated rats the addition of antibodies against cytochrome P450IIE1, but not of preimmune IgGs, lowered the ESR signal of 1-butanol radicals by more than 50%. The same antibodies decreased the free radical production by untreated microsomes by 35-40%, but were ineffective on microsomes from PB-treated animals. This indicated that cytochrome P450IIE1 is the major enzyme responsible for the free radical activation of alcohols in control and ethanol-fed rats. The generation of 1-hydroxybutyl radicals by EtOH microsomes was inhibited by 40, 48 and 68%, respectively, by the addition of isoniazid, tryptamine and octylamine, compounds known to specifically affect the NADPH oxidase activity of this isoenzyme. This effect was not due to the scavenging of the alcohol radical since none of these compounds affected the ESR signals originated from 1-butanol in a xanthine-xanthine oxidase system. When added to reconstituted membrane vesicles isoniazid, tryptamine and octylamine also decreased 1-butanol radical formation by P450IIE1 by 54, 38 and 66%, respectively. Such an inhibition corresponded to the effect exerted by the same compounds on O2- release from P450IIE1 containing vesicles. These results indicate that the capacity of cytochrome P450IIE1 to reduce oxygen is related to its ability to generate alcohol free radicals and suggest that ferric cytochrome P450-oxygen complex might act as oxidizing species toward alcohols.
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PMID:Role of ethanol-inducible cytochrome P450 (P450IIE1) in catalysing the free radical activation of aliphatic alcohols. 203 43

Rifapentine (R773, DL473) is a long-acting antituberculous drug used in China. In our experiments we have found some manifestations of induction of hepatic mixed function oxidase system in mice following pretreatment with rifapentine or phenobarbital. Both rifapentine and phenobarbital significantly increased the rate of antipyrine and pentobarbital metabolism in vivo. They also increased liver weight, the content of liver microsomal protein and cytochrome P-450, the activity of NADPH-cytochrome C reductase and NADPH oxidase. SDS-polyacylamide gel electrophoresis showed that the relative proportions of some polypeptide bands in mice microsomal fraction were significantly changed following rifapentine or phenobarbital pretreatment. The results indicate that rifapentine, like phenobarbital, is a potent inducer of hepatic mixed function oxidase system in mice and that it should be used carefully in clinical therapy, when combined with other drugs.
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PMID:Inductive effects of rifapentine on mice hepatic mixed function oxidase system. 231 33

Polymorphonuclear leukocytes (PMNL) release superoxide anions formed by a membrane-bound NADPH oxidase induced by stimulations. Properties of the inducers and their antagonists indicate that Ca2+, GTP-binding protein (G-protein), phospholipase C and Ca2+, phospholipid-dependent protein kinase (C-kinase) are mainly associated with the stimulation of receptors. Low concentrations of ATP induce the oxidase accompanied by the increase in the intracellular Ca2+ due to the flux from the medium and the storage site. ATP-gamma-S, UTP and ITP are effective but mononucleotides, dinucleotides, GTP and CTP are not. Leukotriene B4 (LTB4) which acts as a chemotactic agent and the inducer of the NADPH oxidase is catabolized. It is hydroxylated by a specific cytochrome P450 and then oxidized to a carboxy derivative by a cytosolic alcohol dehydrogenase and a microsomal aldehyde dehydrogenase in PMNL. Active NADPH oxidase was obtained by incubating membrane and cytosolic components of resting PMNL in the presence of sodium dodecyl sulfate (SDS). Two cytosolic components were obtained by an affinity chromatography on 2',5'-ADP Sepharose. One component is active in the presence of GTP or GTP-gamma-S and the other component in the presence of another cytosolic fraction.
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PMID:Metabolism of stimulated polymorphonuclear leukocytes. 254 77

The detergent-induced amplification of lucigenin-dependent chemiluminescence of O2-, generated by xanthine oxidase or microsomal NADPH oxidase was studied. An assay system is described which is at least 10 times more sensitive than normal lucigenin-dependent chemiluminescence due to the amplification by high concentrations of octylphenylpolyethylene glycol (Triton X-100). Compared to the superoxide dismutase-sensitive reduction of acetylated cytochrome c, a 3750-fold lower amount of microsomal protein was necessary to produce an O2- signal 10-fold above the background. In contrast to cytochrome c reduction, detergent-amplified chemiluminescence of lucigenin was completely inhibited by superoxide dismutase and therefore more selective for O2-. The membrane-bound and Triton X-100-solubilized NADPH oxidase from microsomes of macrophages was activated by ethylene glycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid and inhibited by Ca2+ and sodium dodecyl sulfate. The membrane-bound enzyme showed a Km value of 1.35 microM, which decreased to 0.95 microM after the addition of 12% (g/g) Triton X-100. The Km and Vmax values of soluble xanthine oxidase were not influenced by Triton X-100, indicating that the enzyme activities were not impaired by the high concentrations of detergent.
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PMID:Detergent-amplified chemiluminescence of lucigenin for determination of superoxide anion production by NADPH oxidase and xanthine oxidase. 283 20

The effect of thyroid hormone treatment on hepatic microsomal functions related to NADPH-dependent electron transfer reactions was studied in rats given 0.1 mg T3/kg BW for 1, 2, 3, and 7 consecutive days. This treatment resulted in increased rates of O2-. generation by microsomal fractions, concomitantly with an enhancement in NADPH oxidase activity and decreased cytochrome P-450 content, in livers exhibiting increased respiration. Subsequent studies showed elevated levels of malondialdehyde in microsomal fractions and liver homogenates, as well as augmented chemiluminescent response in the latter system. These results indicate that the calorigenic effect of T3 on the liver tissue is accompanied by a stimulation of microsomal functions involving univalent reduction of oxygen. This cellular response might lead to a greater lipid peroxidative rate and cytochrome P-450 loss as secondary events of thyroid hormone action.
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PMID:Superoxide radical generation, NADPH oxidase activity, and cytochrome P-450 content of rat liver microsomal fractions in an experimental hyperthyroid state: relation to lipid peroxidation. 299 Aug 53

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