EC:1.6.99.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.3 (diaphorase)
5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pathological lesions to male Fischer rats were investigated 24 h after the administration of 3-amino-1,2,4-benzotriazine-1,4- dioxide (SR 4233) or nitromin, two compounds which need to undergo bioreductive activation in order to exert their toxic effects. Although SR 4233 reduction leads to a putative free radical species while with nitromin a bifunctional alkylating agent is formed, in both instances, the bone marrow was a major target organ. However, the response of other organs to these compounds differed. SR 4233 caused lesions to the olfactory epithelium, liver, kidney and thymus. Nitromin caused focal haemorrhages on the intestine, which were reduced in germ-free rats. Rates of reduction of SR 4233 or nitromin were determined under anaerobic conditions using microsomal preparations from target tissues. With SR 4233 as a substrate, reductase activities were highest in the olfactory epithelium, 6 fold higher than in the liver. SR 4233 reductase activities generally correlated with those of NADPH:cytochrome c reductase or the concentration of cytochrome P-450 reductase protein in the affected organs while with nitromin, there appeared to be no such relationship. The present results support the concept that the expression of pathological damage in vivo is a multifactorial process and does not directly correlate with initial rates of reduction of either drug determined in vitro.
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PMID:Acute lesions in rats caused by 3-amino-1,2,4-benzotriazine-1,4-dioxide (SR 4233) or nitromin: a comparison with rates of reduction in microsomal systems from target organs. 160 23

The topographic distribution of nicotinamide adenine dinucleotide-diaphorase (NADPH-d) stained profiles in the amygdala of the human and new world monkey (Saimiri sciureus) were studied histochemically. Fiber and terminal staining were heterogeneously distributed within the amygdala. The most intense staining occurred in the basolateral subdivision, consisting of the lateral, basolateral and accessory basal nuclei. Moderate staining intensity was observed throughout the cortical and media nuclei and cortical transition area, constituents of the corticomedial subdivision. The central amygdaloid area was characterized by minimal NADPH-d histochemical reactivity. NADPH-d positive neurons were pleomorphic and divisible into two classes based on their staining characteristics: intensely or lightly stained neurons. Their distribution was generally complementary, with the majority of intensely stained neurons occupying the basolateral subdivision. There were no appreciable species differences in the patterns of neuronal, fiber and terminal staining between monkey or human amygdala. These results may be relevant to our understanding of the selective vulnerability of neural systems within the human amygdala in neurodegenerative diseases.
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PMID:Reduced nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d) profiles in the amygdala of human and New World monkey (Saimiri sciureus). 160 98

A cDNA coding for human oxidoreductase (NADPH-cytochrome P450 reductase) was expressed in S. cerevisiae on a high copy plasmid under control of a constitutive promoter. Microsomes from a transformed strain lacking endogenous oxidoreductase exhibited cytochrome c reductase activity. An apparent Km of 7.3 microM for the substrate NADPH was determined. Expression of human oxidoreductase complemented a mutation in the yeast oxidoreductase gene CPR1 and fully reversed the ketoconazole sensitive phenotype of the respective strain. The 7-ethoxyresorufin-O-deethylase activity of yeast cells expressing human cytochrome P450 1A1 was increased by more than sixteen-fold upon coexpression of human oxidoreductase. These results strongly suggest that a more efficient coupling between the human enzymes might be responsible for the increase in enzyme activity.
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PMID:Functional co-expression of human oxidoreductase and cytochrome P450 1A1 in Saccharomyces cerevisiae results in increased EROD activity. 161 Mar 57

Recent studies have shown that intrarectal administration of 2,4,6-trinitrobenzene sulfonic acid (TNBS) in ethanol or intramural injection of TNBS in saline produces an acute and possibly chronic colitis in rats. It has been assumed that interstitial TNBS initiates the inflammatory response via macrophage-mediated recognition and degradation of TNBS-modified mucosal cells and proteins. However, it is known that certain flavoproteins and/or reductants interact with compounds containing the nitro functional group to generate pro-inflammatory, nitrogen-centered free radicals and reactive oxygen metabolites. The objective of this study was to assess the ability of the rat colon, using either colon homogenates, isolated colonocytes, or intestinal interstitial fluid, to produce reactive oxygen species via enzymatic and/or nonenzymatic metabolism of TNBS. It was found that the addition of TNBS (1 mmol/L) to the 10,000 x g supernatant of rat colon homogenates increased the rate of superoxide production from normally undetectable levels to 2.6 +/- 0.23 nmol.min-1.mg protein-1. Addition of nicotinamide adenine dinucleotide, reduced form (NADH; 1 mmol/L) to colon homogenates containing TNBS significantly enhanced superoxide production to 10.4 +/- 0.9 nmol.min-1.mg-1. Similarly, addition of nicotinamide adenine dinucleotide phosphate, reduced form (NADPH; 1 mmol/L) to colon extracts containing TNBS produced an even further increase in the rate of superoxide formation to 25.2 +/- 1.1 nmol.min-1.mg-1. Addition of NADH or NADPH to the colon homogenate in the absence of TNBS produced no detectable superoxide formation, suggesting that TNBS was required for the enhanced oxidative metabolism. In a separate series of experiments, it was found that isolated colonocytes produced small but significant amounts of superoxide (3.15 +/- 0.6 nmol/2 x 10(6) cells) that were significantly increased in the presence of ethanol to 6.55 +/- 1.14 nmol/2 x 10(6) cells. Using purified preparations of two flavoproteins found in the rat colon, it was shown that the addition of TNBS (1 mmol/L) to purified NADH dehydrogenase or glutathione reductase increased the rate of superoxide formation by these enzymes from normally undetectable levels to 1.6 nmol/min and 1.2 nmol/min, respectively. In addition, it was found that intestinal interstitial fluid (lymph) initiated redox cycling of TNBS such that 28.1 +/- 1.6 nmol of oxygen was consumed per minute per milliliter of lymph. This increase in oxygen consumption was inhibited by the addition of superoxide dismutase and catalase. One possible metabolite involved in both mucosal and lymph-mediated metabolism of TNBS is ascorbic acid.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metabolism of trinitrobenzene sulfonic acid by the rat colon produces reactive oxygen species. 164 28

The S9 fraction of MCF-7 human breast carcinoma cells has NAD(P)H (quinone-acceptor) oxidoreductase activity as measured by the reduction of dichlorophenol-indophenol (DCPIP). This reduction is dependent on the activators Tween-20 and bovine serum albumin and it is inhibitable by dicumarol. The S9 fraction also has cytochrome c reductase activity which is approximately 29 times less than the two-electron reduction activity of NAD(P)H (quinone-acceptor) oxidoreductase. Diaziquone (AZQ) is a substrate for this NAD(P)H oxidoreductase active S9 fraction as judged by its enzymatic reduction detected spectrophotometrically and by electron spin resonance spectroscopy. Two-electron mediated enzymatic reduction of AZQ was evidenced by the formation of the colorless dihydroquinone (AZQH2) which could be followed at 340 nm. The production of the dihydroquinone was inhibitable by dicumarol implicating NAD(P)H oxidoreductase in its formation. Under aerobic conditions, electron spin resonance spectroscopy showed evidence for the production of AZQ semiquinone (AZQH) and oxygen radicals. Under anaerobic conditions no oxygen radicals were observed, but the semiquinone was stable for hours. These results are also inhibitable by dicumarol and suggest a two-step one-electron oxidation process of the dihydroquinone. The production of semiquinone and oxygen radicals as detected by electron spin resonance spectroscopy was more sensitive to dicumarol when NADPH was used as cofactor (68% inhibition of OH and 65% inhibition of AZQH) than when NADH was used (28% inhibition of OH and 5% inhibition of AZQH). This suggests that NADH flavin reductases play a more important role in the one-electron reduction pathway of AZQ in MCF-7 S9 fraction than NADPH reductases. The reduction of AZQ by NAD(P)H (quinone-acceptor) oxidoreductase may play an important role in the bioreductive alkylating properties of AZQ.
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PMID:The reductive metabolism of diaziquone (AZQ) in the S9 fraction of MCF-7 cells: free radical formation and NAD(P)H: quinone-acceptor oxidoreductase (DT-diaphorase) activity. 165 86

Eleven independent monoclonal antibodies, all IgG's, have been raised against the ferredoxin:NADP+ oxidoreductase of spinach leaves. All 11 monoclonal antibodies were able to produce substantial inhibition of the NADPH to 2,6-dichlorophenol indophenol (DCPIP) diaphorase activity of the enzyme, but none of the antibodies produced any significant inhibition of electron flow from NADPH to ferredoxin catalyzed by the enzyme. Spectral perturbation assays were used to demonstrate that antibody interaction with NADP+ reductase did not interfere significantly with the binding of either ferredoxin or NADP+ to the enzyme. Ultrafiltration binding assays were used to confirm that the monoclonal antibodies did not interfere with complex formation between ferredoxin and the enzyme. These results have been interpreted in terms of the likely presence of one or more highly antigenic epitopes at the site where the nonphysiological electron acceptor, DCPIP, binds to the enzyme. Furthermore, the results suggest that the site where DCPIP is reduced differs from both of the two separate sites at which the two physiological substrates, ferredoxin and NADP+/NADPH, are bound.
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PMID:Monoclonal antibody studies of ferredoxin:NADP+ oxidoreductase. 165 83

One-electron reduction of diaziquone (AZQ) by purified rat liver NADPH cytochrome c reductase was associated with formation of AZQ semiquinone, superoxide anions, hydrogen peroxide, and hydroxyl radicals as indicated by ESR spin-trapping studies. Reactive oxygen formation correlated with AZQ-dependent production of single and double PM2 plasmid DNA strand breaks mediated by this system as detected by gel electrophoresis. Direct two-electron reduction of AZQ by purified rat liver NAD(P)H (quinone acceptor) oxidoreductase (QAO) was also associated with formation of AZQ semiquinone, superoxide anions, hydrogen peroxide, and hydroxyl radicals as detected by ESR spin trapping. Furthermore, PM2 plasmid DNA strand breaks were detected in the presence of this system. Plasmid DNA strand breakage was inhibited by dicumarol (49 +/- 5%), catalase (57 +/- 2.3%), SOD (42.2 +/- 3.6%) and ethanol (41.1 +/- 3.9%) showing QAO and reactive oxygen formation was involved in the PM2 plasmid DNA strand breaks observed. These results show that both one- and two-electron enzymatic reduction of AZQ give rise to formation of reactive oxygen species and DNA strand breaks. Autoxidation of the AZQ semiquinone and hydroquinone in the presence of molecular oxygen appears to be responsible for these processes. QAO appears to be involved in the metabolic activation of AZQ to free radical species. The cellular levels and distribution of this enzyme may play an important role in the response of tumor and normal cells to this antitumor agent.
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PMID:Free radical formation and DNA strand breakage during metabolism of diaziquone by NAD(P)H quinone-acceptor oxidoreductase (DT-diaphorase) and NADPH cytochrome c reductase. 166 2

Studies were done to determine the mechanism(s) responsible for the thermal lability of adrenal microsomal monooxygenases. Preincubation of guinea pig adrenal microsomal suspensions at 37 degrees C caused large time-dependent declines in benzo(a)pyrene (BP) hydroxylase and benzphetamine (BZ) demethylase activities. Similar preincubations with hepatic microsomes had little effect on enzyme activities. The decreases in adrenal enzyme activities were completely prevented by co-incubation of microsomes with cytosol, but were not diminished by reduced glutathione, ascorbic acid, or bovine serum albumin. Partial protection was afforded by EDTA, suggesting that lipid peroxidation might be involved, but malonaldehyde production was not demonstrable and MnCl2, a potent inhibitor of lipid peroxidation, did not affect the decline in enzyme activities. The decreases in the rates of BP and BZ metabolism were prevented by including NADPH or NADP+ in the preincubation medium. The preincubation conditions causing losses of adrenal enzyme activities did not affect cytochrome P-450 concentrations or substrate binding to cytochromes P-450, as indicated by type I difference spectra. NADH-cytochrome c reductase activity also was not affected, but there were decreases in NADPH-cytochrome c reductase activity that were proportionately similar to the declines in drug-metabolizing activities. Direct assessment of NADPH-cytochrome P-450 reductase revealed similarly large decreases in enzyme activity resulting from preincubation of adrenal microsomes. The results demonstrate a need for extra caution when doing preincubation experiments with adrenal microsomal preparations, and suggest that the thermal lability of adrenal monooxygenases is attributable to effects at the active site of NADPH-cytochrome P-450 reductase.
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PMID:Mechanisms responsible for the thermal sensitivity of adrenal microsomal monooxygenases. 168 Jun 36

Neutrophil myeloperoxidase, hydrogen peroxide, and chloride constitute a potent antimicrobial system with multiple effects on microbial cytoplasmic membranes. Among these is inhibition of succinate-dependent respiration mediated, principally, through inactivation of succinate dehydrogenase. Succinate-dependent respiration is inhibited at rates that correlate with loss of microbial viability, suggesting that loss of respiration might contribute to the microbicidal event. Because respiration in Escherichia coli can be mediated by dehydrogenases other than succinate dehydrogenase, the effects of the myeloperoxidase system on other membrane dehydrogenases were evaluated by histochemical activity stains of electrophoretically separated membrane proteins. Two bands of succinate dehydrogenase activity proved the most susceptible to inactivation with complete loss of staining activity within 20 min, under the conditions employed. A group with intermediate susceptibility, consisting of lactate, malate, glycerol-3-phosphate, and dihydroorotate dehydrogenases as well as three bands of glucose-6-phosphate dehydrogenase, was almost completely inactivated within 30 min. The relatively resistant group, including the dehydrogenases for glutamate, NADH, and NADPH and the remaining bands of glucose-6-phosphate dehydrogenase, retained substantial amounts of diaphorase activity for up to 60 min of incubation with the myeloperoxidase system. The differential effects of myeloperoxidase on dehydrogenase inactivation could not be correlated with published enzyme contents of flavin or iron-sulfur centers, potential targets of myeloperoxidase-derived oxidants. Despite the relative resistance of NADH dehydrogenase/diaphorase activity to myeloperoxidase-mediated inactivation, electron transport particles prepared from E. coli incubated for 20 min with the myeloperoxidase system lost 55% of their NADH oxidase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Differential inactivation of Escherichia coli membrane dehydrogenases by a myeloperoxidase-mediated antimicrobial system. 169 36

1. After immunization of BALB/c mouse, four monoclonal antibodies against soluble NADH diaphorase from ejaculated boar spermatozoa were produced and characterized. The monoclonal antibodies were designated as follows Mab 1F2, Mab 4E2, Mab 5B8, Mab 5D8. 2. These monoclonal antibodies react with other enzyme forms-sedimentary NADH and NADPH and soluble NADPH and inhibit (although not completely) their activity. It is supposed that different forms of the enzyme share some common epitopes. 3. Treatment of ejaculated boar semen with 2O-methylcholanthrene causes an increase of the activity of the soluble diaphorase form only. 4. These results lead to the assumption that the sperm diaphorase is a dynamic enzyme system consisting of four immunologically similar isoenzymes although their functions are different.
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PMID:Characterization of NAD(P)H diaphorase from boar spermatozoa using specific monoclonal antibodies. 170 1

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