EC:1.6.5.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.5.2 (NQO1)
6,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Effects of oxidative stress induced by redox-enzyme modulation on the progression stage of hepatocarcinogenesis were examined by monitoring both hepatocyte injury and hepatocellular carcinoma development in F344 rats bearing preneoplastic liver nodules induced by the Cayama-Farber procedure. Redox-enzyme modulation, which included increased cytochrome P450 reductase activity induced by phenobarbital-Na (100 mg/kg, i.p. for 3 days), inhibition of DT-diaphorase by dicumarol (25 mg/kg, i.p.), depletion of glutathione by phorone (200 mg/kg, i.p.), supplementation with the Fe(III) sodium salt of EDTA (50 mg/kg, i.p.) and redox-cycling activation by menadione (50 mg/kg, i.g.), exerted no prominent hepatocyte injury within nodules but did cause slight injury in the surrounding hepatocytes in nodule-bearing rats. The same treatments induced severe hepatocyte injury in non-treated normal rats. Redox-enzyme modulation performed every other week for 33 weeks significantly reduced the number of hepatocellular carcinomas developing in nodule-bearing rats. These results indicate that preneoplastic nodules are resistant to the oxidative stress induction caused by redox-enzyme modulation treatment and that, despite toxic effects in surrounding hepatocytes, no progression pressure is exerted. Indeed, the treatment rather demonstrates an inhibitory effect of the evolution of the nodules into hepatocellular carcinomas.
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PMID:Effects of oxidative stress induced by redox-enzyme modulation on the progression stage of rat hepatocarcinogenesis. 842 75

Mitomycin C (MMC), an alkylating anti-tumor agent, was activated by non-enzymatic and enzymatic mechanisms leading to DNA binding and adduct formation. However, it was enzymatically, not non-enzymatically, activated MMC which induced inter-strand DNA cross-linking, a major determinant of cell death. The enzymatic activation of MMC was catalyzed by microsomal NADPH:cytochrome P450 reductase (P450 reductase) and cytosolic enzyme activities. Human P450 reductase, transiently expressed from its cDNA in the COSI cells, metabolically activated MMC to generate 9 specific MMC-DNA adducts and induced inter-strand DNA cross-linking. Co-chromatography of the MMC-DNA adducts generated by P450 reductase and sodium borohydride in separate experiments indicated that MMC was metabolized by P450 reductase to produce 2,7-diaminomitosenes that exhibited binding to deoxyguanosine. Several experiments indicated that cytosolic enzymes which catalyzed reductive activation of MMC and DNA cross-linking included NAD(P)H:quinone oxidoreductaseI (NQOI or DT diaphorase) when present in extremely high concentrations and a unique cytosolic activity. The unique cytosolic activity was present in several mammalian cells and mouse colon and liver but absent in mouse kidney. The unique activity had properties of a diaphorase but was distinct from NQOI because of a lack of correlation between NQOI (2,6-dichlorophenolindophenol reduction) activity and the amount of MMC-reductive activation leading to DNA cross-linking. This activity was also distinct from xanthine oxidoreductase and NADH-cytochrome b5 reductase, 2 other enzymes that catalyze metabolic activation of MMC, because the unique activity was not inhibited by allopurinol (an inhibitor of xanthine oxidoreductase) and its activity was the same with NADH and NADPH (cytochrome b5 reductase is specific to NADH).
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PMID:Non-enzymatic and enzymatic activation of mitomycin C: identification of a unique cytosolic activity. 856 27

Benzene toxicity towards lymphocytes is thought to be mediated by metabolites of benzene including benzoquinone (BQ). NAD(P)H:quinone reductase (QR) is known to protect against BQ toxicity. The expression of the QR gene is regulated by the transcription factor AP-1. We had previously found that aspirin-like drugs (ALD) induce AP-1 in human T lymphocytes. It was therefore hypothesized that ALD would protect lymphocytes against BQ toxicity by inducing QR. Molt-4 cells (M4), a human T lymphocyte cell line, were incubated with different concentrations of two ALD, flurbiprofen and sodium diclofenac, and then exposed to BQ. Toxicity was measured by viability (trypan blue exclusion). Both drugs protected the cells against BQ cytotoxicity in a dose-dependent manner, e.g., sodium diclofenac at 15 microM reduced the fraction of BQ-treated dead cells by 70%. ALDs induced QR activity in the M4 cells in the same range of concentrations that protected the cells against BQ toxicity. The protective effect of ALD was significantly reduced by dicoumarol, a QR-specific inhibitor. Since human T cells and T cell lines do not metabolize arachidonic acid, our data suggest that ALD can protect human T lymphocytes against a metabolite of benzene by induction of QR activity.
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PMID:Aspirin-like drugs can protect human T lymphocytes against benzoquinone cytotoxicity: evidence for a NAD(P)H:quinone reductase-dependent mechanism. 857 25

We previously cloned and sequenced nqr operon encoding the Na+-translocating NADH-quinone reductase (NQR) from the marine bacterium Vibrio alginolyticus. A gene cluster very similar to nqr operon was found to exist in the genome of Haemophilus influenzae Rd. We examined the membrane fraction from H. influenzae, and the respiratory chain of H. influenzae was found to contain a Na+-dependent NQR that is essentially identical to those found in the marine V. alginolyticus. These results indicate that quite similar to the salt-loving marine bacteria, the blood-loving H. influenzae has a redox-driven Na+ pump and utilizes Na+ circulation for energy coupling.
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PMID:Existence of Na+-translocating NADH-quinone reductase in Haemophilus influenzae. 860 49

The absolute configuration at the C-1 position of a 1,10-bisacetoxymitosene (WV15) appears to be important for enzymatic reduction, DNA interstrand cross-linking and in vitro antitumour activity of this compound. DNA cross-linking by the (-)-(S)-enantiomer of WV15 upon reduction with sodium dithionite (Na2S2O4) was more efficient than cross-linking by the (+)-(R)-enantiomer. Also, following enzymatic two-electron reduction by DT-diaphorase or one-electron reduction by xanthine oxidase, (-)-(S)-WV15 was more efficient in DNA cross-linking than (+)-(R)-WV15. However, the difference in cross-linking efficiency was less than upon chemical reduction, and in the case of enzymatic reduction that higher amount of DNA cross-links formed by (-)-(S)-WV15 can be explained by more efficient enzymatic activation of this enantiomer as compared to (+)-(R)-WV15. The enantiomeric preference upon chemical reduction can be explained by a second chemical reduction of DNA-bound WV15, which presumably does not occur upon enzymatic reduction. (-)-(S)-WV15 appeared to be more active than its (+)-(R) counterpart in A204 and L1210 tumour cell lines, with (+)-(R)/(-)-(S) toxicity ratios as high as 200 and 68, respectively. In Chinese hamster V79 cell lines, toxicity of the enantiomers was measured under oxic and hypoxic conditions. The oxic/hypoxic toxicity ratios of (+)-(R)-and (-)-(S)-WV15 in the Chinese hamster V79 cell line were 5.5 and 2.4, respectively. These different oxic/hypoxic toxicity ratios may indicate that different reducing enzymes are involved in the activation of the enantiomers. Generally, in biological systems, different activities of (+)-(R)- and (-)-(S)-WV15 appear not to be caused by different intrinsic cross-linking capacities of the enantiomers, but by more efficient enzymatic activation of (-)-(S)-WV15, as compared to (+)-(R)-WV15. The (-)-(S)-enantiomer of WV15 appears to be more active both in in vitro tumour models and in DNA cross-linking assays, and therefore the absolute configuration of mitosenes is indicated to be important for the antitumour activity of these compounds.
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PMID:Chirality of a 1,10-bisacetoxymitosene compound. Impact on reductive activation, DNA interstrand cross-linking and antitumour activity. 876 32

The marine bacterium, Vibrio alginolyticus, has a respiratory chain-linked Na(+)-translocating NADH-quinone reductase (NQR). Among several mutant cells defective in Na+ pump activity, Nap1 was a very stable mutant and a spontaneous revertant could not be isolated from Nap1. Using genetic information from the recently sequenced nqr operon, the genetic defects in Nap1 were examined, and the sodium pump-defective mutant Nap1 was found to be caused by the insertion of a 1.2 kbp DNA fragment into the C-terminal region of nqr6 gene.
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PMID:Genetic defect of the sodium pump-defective mutant Nap-1 from the marine Vibrio alginolyticus. 904 33

Lipoamide dehydrogenase from Mycobacterium smegmatis was purified to homogeneity over 60-fold. Of 20 amino acid residues identified at the amino terminus of the enzyme, 18 and 17 were identical to the sequences of Mycobacterium leprae and Pseudomonas fluorescens lipoamide dehydrogenases, respectively. The visible spectrum of the isolated enzyme was characteristic of a flavin in apolar environment. Reduction of the enzyme with dithionite results in the appearance of an absorbance shoulder at 530-550 nm, suggesting that reducing equivalents of the two-electron reduced enzyme reside predominantly on the redox-active disulfidedithiol. The kinetic mechanism of the forward (NAD+ reducing) and reverse (NADH oxidizing) reactions proved difficult to study due to severe substrate inhibition by NAD+ and NADH. The rate of lipoamide reduction was found to depend upon the NAD+/NADH ratio, with the reaction being activated at low ratios and inhibited at high ratios. The use of 3-acetylpyridine adenine dinucleotide allowed initial velocity kinetics to be performed and revealed that the kinetic mechanism is ping pong. In addition to catalyzing the reversible oxidation of dihydrolipoamide, the enzyme displayed high oxidase activity (30% of the lipoamide reduction rate), hydrogen and t-butyl peroxide reductase activity (10% of the lipoamide reduction rate), and both naphthoquinone and benzoquinone reduction (approximately 200% of the lipoamide reduction rate). The enzyme failed to catalyze the redox cycling of nitrocompounds, but could anaerobically reduce nitrofurazone. The lipoamide-reducing reaction was reversibly inactivated by sodium arsenite, but no decrease in diaphorase activity was observed under these conditions.
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PMID:Catalytic properties of lipoamide dehydrogenase from Mycobacterium smegmatis. 914 18

Human spermatozoa possess a specialized capacity to generate reactive oxygen species (ROS) that is thought to be of significance in the redox regulation of sperm capacitation (De Lamirande and Gagnon, 1993; Aitken et al., 1995). However, the mechanisms by which ROS are generated by these cells are not understood. In this study we have examined the possible significance of NADPH as a substrate for ROS production by human spermatozoa. Addition of NADPH to viable populations of motile spermatozoa induced a sudden dose-dependent increase in the rate of superoxide generation via mechanisms that could not be disrupted by inhibitors of the mitochondrial electron transport chain (antimycin A, rotenone, carbonyl cyanide m-chlorophenylhydrazone [CCCP], and sodium azide), diaphorase (dicoumarol) xanthine oxidase (allopurinol), or lactic acid dehydrogenase (sodium oxamate). However, NADPH-induced ROS generation could be stimulated by permeabilization and was negatively correlated with sperm function. Both NADH and NADPH were active electron donors in this system, while NAD+ and NADP+ exhibited little activity. Stereo-specificity was evident in the response in that only the beta-isomer of NADPH supported superoxide production. The involvement of a flavoprotein in the electron transfer process was indicated by the high sensitivity of the oxidase to inhibition by diphenylene iodonium and quinacrine. These results indicate that NAD(P)H can serve as an electron donor for superoxide generation by human spermatozoa and present a simple strategy for the production of motile populations of free radical generating cells with which to study the significance of these molecules in the control of normal and pathological sperm function.
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PMID:Reactive oxygen species generation by human spermatozoa is induced by exogenous NADPH and inhibited by the flavoprotein inhibitors diphenylene iodonium and quinacrine. 921 32

To investigate the involvement of neuronal nitric oxide (NO) in the response of the brain to changes in blood pressure, we studied the activation of putative NO-producing neurons in the paraventricular nucleus of the hypothalamus (PVN) in rats whose mean arterial pressures (MAPs) were decreased by 40-50% with hemorrhage (HEM) or infusion of sodium nitroprusside (NP). Activation was assessed on the basis of expression of the immediate early gene, c-fos; putative NO-producing neurons were identified with the histochemical stain for nicotinamide adenine dinucleotide phosphate-diaphorase (NADPH-d); and the proportions of neurons projecting to the nucleus of the tractus solitarius (NTS) and/or caudal ventrolateral medulla (CVLM) were determined with retrograde tracing techniques. No differences were found for results obtained from HEM and NP animals. Three to four percent of activated PVN neurons projected to the NTS or CVLM. Conversely, approximately 33% and 16% of neurons projecting to the NTS and CVLM, respectively, were activated. About 43% of NADPH-d neurons in the PVN were activated. Of PVN neurons projecting to the NTS or CVLM, 38% and 32%, respectively, were NADPH-d positive. About 11% of NADPH-d PVN neurons projected to the NTS or CVLM. An average of 3 NADPH-d neurons per section were activated and projected to either target. Finally, 7 PVN cells per section sent collateral branches to the NTS and CVLM; 2 or 3 of these cells per section were also activated by decreases in arterial pressure. No NADPH-d cells were found that sent collateral branches to the NTS and CVLM. This study shows that decreases in MAP activate PVN neurons that project, singly and through collaterals, to the NTS and CVLM. A relatively high proportion of the singly projecting neurons is NADPH-d positive. These results support the contention that descending projections from the PVN to the brainstem play an important role in the physiological response to decreases in arterial pressure and suggest that NO may participate in this response.
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PMID:Activation by hypotension of neurons in the hypothalamic paraventricular nucleus that project to the brainstem. 926 28

The 2-hydroxy-N-(3,4-dimethyl-5-isoxazolyl)-1,4-naphthoquinone-4-imine (Q1) revealed good activity against Staphylococcus aureus. Q1 in contact with the bacteria experimented reduction evidenced by changes in its spectrum of absorption simultaneously with loss of colour. During the first 4 hours of incubation, oxygenation restored the original spectrum. Treatment with sodium borohydrure reduces irreversibly Q1. Redox-reaction "in vitro" was detected between Q1 and NADH in the presence of diaphorase. The environment of the probable site of action of Q1 was simulated using an artificial membrane system, instead of S. aureus membranes. Q1 interacts with lisophosphatidylcholine micelles following a cooperative binding model. The kinetics of Q1-reduction was increased by lipid micelles incorporated with the antibacterial compound.
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PMID:An "in vitro" system simulates in membranes the antibacterial mechanism postulated for the action of isoxazolylnaphtoquinoneimine in Staphylococcus aureus. 934 93

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