Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.6.3.1 (NADPH oxidase)
 11,281 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

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

Parameters related to oxidative stress in rat liver and erythrocytes were studied after short-term administration (60 and 90 days) of 1000 ppm of lindane in the diet. Lindane induced an oxidative stress condition in the liver, which is related to an enhancement in microsomal NADPH-cytochrome c reductase and NADPH oxidase activities, superoxide radical formation and cytochrome P450 content, produced independently of the time of treatment. Also, decreased activities of glutathione peroxidase and catalase were concomitantly observed. Although these changes were paralleled by an increase in lipid peroxidation indices, such as production of thiobarbituric acid reactants and spontaneous chemiluminescence, no evidence of liver injury was obtained. Lindane treatment did not exert quantitatively important changes in the pro-oxidant/anti-oxidant status of the erythrocyte, with reduction in the red blood cell mass possibly reflecting actions of the insecticide on the erythropoietic process.
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PMID:Differential effects of short-term lindane administration on parameters related to oxidative stress in rat liver and erythrocytes. 750 13

Treatment of rats with daily doses of 20 mg of lindane/kg for 3 consecutive days led to the accumulation of the insecticide in several tissues, including erythrocytes and liver. Lindane did not alter the hematocrit and hemoglobin concentration but reduced methemoglobin levels by 17%. Red blood cells from controls and lindane-treated rats, exposed to t-butyl hydroperoxide, exhibited comparable rates of oxygen uptake and visible chemiluminescence, whereas the induction period that precedes oxygen uptake was significantly enhanced in the latter group. Lindane treatment did not modify the activity of erythrocyte glutathione peroxidase, glucose-6-phosphate dehydrogenase, catalase, and methemoglobin reductase, being the total content of glutathione and superoxide dismutase activity significantly increased. The liver from lindane-treated rats showed an enhanced microsomal pro-oxidant activity, evidenced by higher cytochrome P450 content and NADPH-cytochrome c reductase and NADPH oxidase activities. The higher enzyme activities led to an increased superoxide anion generation (adrenochrome formation) and lipid peroxidation (measured either by the production of thiobarbituric acid reactants and spontaneous visible chemiluminescence). Concomitantly, liver glutathione content and the activity of glutathione peroxidase-glutathione reductase couple were augmented by lindane treatment, without any change in superoxide dismutase activity, together with a reduction in that of catalase. Results suggest that lindane does not alter the prooxidant/antioxidant status of the erythrocyte in conditions of a significant cellular accumulation of the insecticide, which might exert direct action on enzymatic systems leading to enhanced superoxide dismutase activity and glutathione content.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Acute lindane intoxication: a study on lindane tissue concentration and oxidative stress-related parameters in liver and erythrocytes. 751 43

The effect of pyridine on the heme environment of cytochrome b558 was studied using ESR and optical absorption spectroscopy in relation to the O2(-)-generating activity in the NADPH oxidase system of stimulated pig neutrophils. As the concentration of pyridine increased, the absorption maxima of the alpha- and gamma-bands of cytochrome b558 shifted which correlated with a concomitant decrease in O2(-)-generating activity. In addition, the g = 3.2 signal of cytochrome b558 decreased with the concomitant appearance of a new ESR spectrum that strikingly resembled that of cytochrome P450. The results suggest that pyridine induces a structural modification in the heme environment of cytochrome b558 by shifting the 5th heme ligand (histidine) to a nearby thiolate group without direct binding of pyridine to the heme. The existence of a reactive thiolate near the heme iron was confirmed by pretreatment of blocked cytochrome b558 with p-chloromercuribenzoate, which completely inhibited the formation of the cytochrome P450-like ESR spectrum. The results provide further evidence that a low-spin heme iron of cytochrome b558 with a g-value of 3.2 is essential to the O2(-)-forming reaction of the NADPH oxidase system. From sequence alignments of cytochrome P450 with those of large and small subunits of cytochrome b558, the heme in cytochrome b558 appears to be specifically associated with the large subunit.
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PMID:Modulation of the heme environment of neutrophil cytochrome b558 to a "cytochrome P450-like" structure by pyridine. 785 3

Unlike other cytochrome P450-dependent oxygenase inhibitors, ketoconazole has been shown to suppress the murine macrophage-mediated oxidative modification of human low-density lipoproteins (LDL) in a dose-dependent manner. The benzo[alpha]pyrene-induced microsomal monooxygenase activity was accomplished by a 1,5-fold increase in LDL oxidation by macrophages, ketokonazole (20 mu), methoxalene (20 mu), and alpha-naphthaflavone (50 mu). Ketoconazole was also effective in inhibiting macrophageal NADPH oxidase and LDL autooxidation induced by Fe2+ rather than Cu+, which is likely to be associated with its ability to act as a chelator of free and heme-bound iron ions.
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PMID:[Effect of cytochrome P-450 inhibitors on oxidative modification of low-density lipoproproteins by macrophages]. 878 70

Nitric oxide (NO) reacts with heme-containing enzymes, including certain isoforms of cytochrome P450. Cytochrome P4502E1 (CYP2E1) is induced by ethanol and plays an important role in the toxicity of ethanol and other hepatotoxins. CYP2E1 is also very effective in generating reactive oxygen intermediates such as superoxide radical and H2O2, oxidizing ethanol to the 1-hydroxyethyl radical, and has a high NADPH oxidase activity. The effect of NO on CYP2E1 catalytic activity and generation of reactive oxygen intermediates was evaluated. Incubating liver microsomes isolated from rats treated with pyrazole to induce high levels of CYP2E1, with gaseous NO or NO released from a variety of NO donors such as SNAP, DEA/NO, spermine/NO, and GSNO, resulted in a loss of CYP2E1 catalytic activity with specific substrates such as p-nitrophenol or dimethylnitrosamine. Trapping of NO with hemoglobin resulted in protection of CYP2E1 activity against the inactivation by NO. There was no effect by analogues of the donors which do not release NO nor was there any effect by NO on NADPH-cytochrome P450 reductase activity. Inactivation of CYP2E1 by NO was not prevented by superoxide dismutase or catalase, suggesting that superoxide, H2O2, or peroxynitrite were not responsible for the actions of NO. The inactivated CYP2E1 was not degraded nor did it lose its epitope sites as shown by Western blot analysis. Associated with loss of CYP2E1 catalytic activity was a decrease in the formation of superoxide radical and H2O2, in microsomal lipid peroxidation catalyzed by low, but not high concentration of iron, and in consumption of NADPH. Oxidation of ethanol to the 1-hydroxyethyl radical was also inhibited by NO. ESR experiments indicated the formation of stable heme-NO complexes with CYP2E1. NO appears to compete with O2 and CO for binding to CYP2E1 as incubation with gaseous NO, or NO donors inhibited formation of the characteristic CO binding spectrum of P450. Microsomes isolated from a stably transfected HepG2 cell line expressing only CYP2E1 were also inactivated by NO, validating interaction of NO with this isoform of P450. These results indicate that NO inhibits CYP2E1 catalytic activity and generation of reactive radical intermediates. NO may prevent toxicity of agents which require bioactivation by P450 isoforms such as CYP2E1 and in generation of reactive intermediates by CYP2E1.
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PMID:Inhibition of rat and human cytochrome P4502E1 catalytic activity and reactive oxygen radical formation by nitric oxide. 901 19

In kidney epithelial cells, arachidonic acid and other fatty acids are important signal transduction molecules for G protein-coupled receptors. We now demonstrate that arachidonic acid induced a time- and dose-dependent activation of JNK, a member of the mitogen-activated protein kinase family, as assessed by phosphorylation of the transcription factor ATF-2. Increments in JNK activity were detectable at 5 microM arachidonic acid and plateaued at 30 microM. Activation was specific to arachidonic acid and linoleic acid, since other fatty acids of the n - 3 and n - 6 series and/or various degrees of saturation were without effect. Specific inhibitors of cyclooxygenase-, lipoxygenase-, and cytochrome P450-dependent metabolism did not affect arachidonic acid-induced JNK activity. We further demonstrated that the free radical scavenger N-acetylcysteine blocked arachidonic acid-induced JNK activation, while H(2)O(2), a reactive oxidative molecule, activated JNK in a dose-dependent manner, providing additional support for a redox mechanism. Moreover, arachidonic acid activated NADPH oxidase (EC 1.6.-.-, EC 1.6.99.-) in a dose-dependent manner, and the potency of superoxide generation paralleled that of JNK activation by other fatty acids. We conclude that in kidney epithelial cells arachidonic acid activates JNK by means of NADPH oxidase and superoxide generation, independent of eicosanoid biosynthesis.
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PMID:Arachidonic acid activates c-jun N-terminal kinase through NADPH oxidase in rabbit proximal tubular epithelial cells. 910 53

The present study was undertaken to investigate the hypothesis that multiple oxygen radical generating systems contribute to the tumor necrosis factor (TNF) alpha-stimulated transcriptional activation of the vascular cell adhesion molecule (VCAM)-1 in endothelial cells. Experimental evidence has implicated the cytochrome P450 monooxygenase and a phagocyte type NADPH-oxidase as a source of oxygen radicals in these cells. We show here that endothelial cells exhibit cytochrome P450 activity by measuring the O-dealkylation of the exogenous substrate 7-ethoxyresorufin, but components of the phagocyte-type NADPH oxidase could not be demonstrated in endothelial cells. In that latter respect it was surprising that the NADPH oxidase inhibitor apocynin completely prevented the accumulation of VCAM-1 mRNA. However, we found that apocynin also acts as an inhibitor of cytochrome P450 activity in endothelial cells. Therefore the inhibitory effect of apocynin on the induction of VCAM-1 may no longer be used to demonstrate a role for the NADPH oxidase in this process. Furthermore, different cytochrome P450 inhibitors Co2+, metyrapone, SKF525a decreased the endothelial VCAM-1 expression stimulated by TNFalpha. Also under hypoxic conditions the expression of VCAM-1 was reduced. On this basis we assume that the oxygen dependent step in the intracellular signalling cascade underlying the TNFalpha stimulated transcriptional activation of VCAM-1 resides in the activity of a cytochrome P450 dependent monooxygenase. The finding that the phospholipase A2 inhibitor bromophenacylbromide inhibited the expression of VCAM-1 may indicate that arachidonic acid serves as a substrate for the cytochrome P450 monooxygenase reaction, but further research is needed to elucidate the particular cytochrome P450 family member mediating the expression of VCAM-1.
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PMID:Evidence against the involvement of multiple radical generating sites in the expression of the vascular cell adhesion molecule-1. 964 91

Lindane administration to rats (60 mg/kg b.w.) led to an enhancement in the oxidative stress status of the liver at 4 h after treatment, characterized by increases in hepatic thiobarbituric acid reactants (TBARS) formation and chemiluminescence, reduced glutathione (GSH) depletion, and diminution in the biliary content and release of GSH. These changes were observed in the absence of changes in either microsomal functions (cytochrome P450 content, NADPH-dependent superoxide radical production, and NADPH-cytochrome P450 reductase or NADPH oxidase activities) or in oxidative stress-related enzymatic activities (superoxide dismutase, catalase, glutathione peroxidase, glutathione reductase, glucose-6-phosphate dehydrogenase, and glutathione-S-transferases), over control values. Phenobarbital (PB) administration (0.1% in drinking water; 15 days) elicited an enhancement in liver microsomal functions, lipid peroxidation, and GSH content, without changes in oxidative stress-related enzymatic activities, except for the elevation in those of glutathione reductase and glutathione-S-transferase, compared to control rats. Lindane given to PB-pretreated rats did not alter liver microsomal functions, lipid peroxidation, glutathione status, or oxidative stress-related enzymatic activities, as compared to PB-pretreated animals. In addition, lindane induced periportal necrosis with hemorrhagic foci in untreated rats, but not in PB-pretreated animals. It is concluded that the early oxidative stress response of the liver to lindane and hepatic injury are suppressed by PB pretreatment via induction of microsomal enzymes in all zones of the hepatic acinus. reserved.
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PMID:Prolonged phenobarbital pretreatment abolishes the early oxidative stress component induced in the liver by acute lindane intoxication. 1081 30


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