EC:1.6.5.2 - FACTA Search

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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)

The interaction of quinones (menadione and duroquinone) with DT-diaphorase and mitochondrial electron transport chain translocators at low (120 mosM) and high (400 mosM) values of the medium tonicity in the quinone concentration range of 6-90 microM was studied. It was shown that with a rise in menadione (K3) concentration the number of electron transport carriers interacting with it increase. At K3 concentration of 6 microM the latter is reduced by DT-diaphorase and fully oxidized via the Q-cycle. At K3 concentration of 15 microM the latter is also reduced by DT-diaphorase via the Q-cycle, but in this case the oxidation is incomplete (about 30% K3H2 is oxidized by the terminal part of the respiratory chain). At 90 microM K3 50% of quinone is reduced by DT-diaphorase and 50% by the respiratory chain NADH dehydrogenase complex enzymes; about 30% of K3H2 is oxidized via the Q-cycle, about 20%--by the terminal part of the respiratory chain and about 50%--by O2 without cytochrome oxidase. Unlike menadione, duroquinone (6-90 microM) is reduced only by DT-diaphorase and is oxidized in all cases by cytochrome oxidase. It was shown that the increase in the mitochondrial matrix volume in low tonicity media decreases the rate of the DT-diaphorase shunt operation.
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PMID:[Interaction of menadione and duroquinone with Q-cycle during DT-diaphorase function]. 177 18

A water-soluble quinone, coenzyme Q0 (CoQ0), was shown to stimulate insulin release, and dicumarol, an inhibitor of quinone reductase, inhibited glucose-induced insulin release in pancreatic islets. Since this suggested that quinone reductase might play some role in physiological insulin release, this enzyme was characterized in islets. More than 90% of the total activity was located in the cytosol, but the specific enzyme activity was highest in the microsomal fraction. The relative rates of activity with various substrates (CoQ0 approximately equal to durohydroquinone greater than menadione greater than duroquinone greater than CoQ6 = CoQ10 greater than ferricyanide) were similar to those described previously for quinone reductase from liver Dicumarol, chlorpromazine, and T3 were much more potent inhibitors of the enzyme when NADPH was the coenzyme than when NADH was the coenzyme. Dicumarol was the most potent inhibitor. The enzyme was not inhibited by rotenone. Islets ranked second to liver in quinone reductase activity, but the activity in islets was much closer to that found in all other tissues examined. Quinone reductase may play a role in insulin secretion.
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PMID:Quinone reductase enzyme activity in pancreatic islets. 187 76

We have previously reported the isolation of CHO cell lines resistant to mitomycin C under aerobic conditions of drug exposure. Here it is reported that these cell lines have the same response to mitomycin C under hypoxic conditions as do controls. The cells are shown to have lower levels of DT-diaphorase activity than controls, but similar levels of activity of NADPH:cytochrome c reductase, another enzyme involved in the metabolism of mitomycin C. Evidence for molecular defects in the DT-diaphorase gene or gene transcript is presented for the deficient cell lines. The consequences of this DT-diaphorase deficiency is further explored by testing the toxicity of menadione, an established enzyme substrate. The isolation of CHO cell lines deficient in DT-diaphorase activity and resistant to mitomycin C under aerobic but not hypoxic conditions suggests that mitomycin C reduction by this enzyme has a significant impact on cytotoxicity under aerobic but not hypoxic conditions. Similarly, DT-diaphorase metabolism of menadione does not appear to have a significant impact on cytotoxicity in CHO cells.
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PMID:Chinese hamster ovary cell lines resistant to mitomycin C under aerobic but not hypoxic conditions are deficient in DT-diaphorase. 190 Jul 39

DT diaphorase (NAD(P)H dehydrogenase (quinone), EC 1.6.99.2) isolated from Walker 256 rat carcinoma cells can convert CB 1954 (5-(aziridin-1-yl)-2,4-dinitrobenzamide) to a cytotoxic DNA interstrand cross-linking agent. This is achieved by reduction of the 4-nitro group of CB 1954 to produce the hydroxylamino species, a bioactivation which accounts for the much greater sensitivity of Walker cells to CB 1954 when compared with other cells which are unable to carry out this reduction (Knox et al., Biochem Pharmacol 37: 4661-4669 and 4671-4677, 1988). As predicted from their measured DT diaphorase activities a number of rat hepatoma and hepatocyte cell lines were also shown to be sensitive to CB 1954. However, no CB 1954-sensitive cell lines of human origin were found, although levels of DT diaphorase similar to those in the sensitive rat cells were present in these cells. The human cells were as sensitive as rat cells to the active form of CB 1954 (5-(aziridin-1-yl)-4-hydroxyla mino-2-nitrobenzamide). DT diaphorase, purified to homogeneity from human Hep G2 cells, did metabolize CB 1954 to this 4-hydroxylamino product, but the rate of CB 1954 reduction and thus production of the cytotoxic product, was much lower than that of purified Walker enzyme (ratio of Kcat = 6.4). In addition, CB 1954 could be considered an inhibitor of, rather than a substrate for, the human form of DT diaphorase. The purified rat and human DT diaphorases possessed otherwise similar biochemical and molecular properties. These findings explain the decreased sensitivity towards CB 1954 of human cell lines when compared to rat cell lines.
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PMID:The differences in kinetics of rat and human DT diaphorase result in a differential sensitivity of derived cell lines to CB 1954 (5-(aziridin-1-yl)-2,4-dinitrobenzamide) 190 Dec 7

Dinitropyrenes (DNP) are potent bacterial mutagens in the Ames test and genotoxins in cultured mammalian cells. Rat liver cytosol contains nitroreductases that are critical in the activation of DNP to the ultimate DNA-binding species. In order to study the nature and inducibility of liver cytosolic enzymes involved in the activation of DNP, cytosolic nitroreductase activities towards three DNP isomers (1,3-, 1.6- and 1,8-DNP) were determined in Aroclor-pretreated and untreated rats. Aroclor-1254 pretreatment resulted in up to 5-fold induction of cytosolic DNP nitroreductase. This induction was reflected in at least a 15-fold increase in cytosolic NAD(P)H-quinone oxidoreductase (NQOR) (E.C. 1.6.99.2) activity. The rates of nitroreduction for the three DNP isomers followed the order 1,6- greater than 1,8- greater than 1,3-DNP in all cases studied. 1,6-DNP nitroreductase coeluted with NQOR activity upon affinity purification. Highly purified NQOR catalyzed the NADH- and NADPH-dependent reduction of each of the three DNP isomers and displayed the same stereospecificity as the cytosolic activity. These results provide evidence that NQOR participates in the cytosolic nitroreduction of DNP and constitutes a major part of the total DNP nitroreductase activity upon induction of NQOR by Aroclor-1254 pretreatment. Thus, the role of NQOR in the metabolism of these mutagens depends significantly upon the degree to which this enzyme is induced.
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PMID:Dinitropyrene nitroreductase activity of purified NAD(P)H-quinone oxidoreductase: role in rat liver cytosol and induction by Aroclor-1254 pretreatment. 190 25

Selected drug metabolizing activities were measured in female F344/NCr rats exposed to graded dietary concentrations of Aroclor 1254 (1 to 1000 ppm) for 7 days or to lower concentrations of Aroclor (1 to 10 ppm) for up to 28 days. Following the 7-day exposure, the hepatic O-dealkylation of ethoxyresorufin (ETR), mediated primarily by cytochrome P450IA, was increased 60-, 10-, and 4-fold by 33, 10, and 3 ppm Aroclor, respectively. In rats exposed to 10 and 3 ppm Aroclor for 28 days, this activity was increased approximately 30- and 10-fold, respectively. Hepatic ETR O-dealkylase activities correlated with Aroclor concentrations in the livers of exposed rats (r = 0.99, p less than 0.01). Although the O-dealkylation of benzyloxyresorufin was highly increased by 7-days dietary exposure to 1000 ppm Aroclor, the levels of Aroclor necessary for detection of induction were substantially higher than those required for detection of ETR O-dealkylase induction. Examination of the non-P450-mediated drug metabolizing activities, epoxide hydrolase and DT-diaphorase, similarly showed limited (approximately 10-fold) increases. In contrast, aldehyde dehydrogenase (benzaldehyde, NADP+) activity was highly increased (greater than 40-fold) at 1000 ppm, however this activity was increased to only a limited extent at lower Aroclor concentrations (e.g. approximately 3-fold at 33 ppm). These results support the potential use of cytochrome P450 activities as potential biomarkers for environmental exposure to PCBs and related compounds.
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PMID:Induction of cytochrome P450 and other drug metabolizing enzymes in rat liver following dietary exposure to Aroclor 1254. 190 7

The mechanism of aerobic resistance to the quinone-containing anti-tumour agents mitomycin C (MMC) and porfiromycin (PM) has been investigated using non-transformed human cells. One of the cell strains used (3437T) was derived from an afflicted member of a cancer-prone family. This cell strain had been shown previously to be six times more resistant to the cytotoxic effects of these agents under aerobic but not hypoxic conditions when compared to a cell strain derived from an unrelated, normal donor (GM38). Differences could not be detected in the ability of cell sonicates prepared from either cell strain to produce alkylating species under aerobic conditions using a 4-(p-nitrobenzyl)pyridine assay. However, using 3H-labelled PM to monitor rapid drug uptake and subsequent accumulation due to drug metabolism, results were obtained indicating that the resistant cell strain (3437T) was deficient in an enzymatic pathway capable of metabolizing these compounds under aerobic but not hypoxic conditions. Dicumarol, an inhibitor of the quinone reductase DT-diaphorase (EC 1.6.99.2), decreased aerobic drug accumulation and cytotoxicity in the control cell strain, but did not alter the lack of accumulation noted in the resistant cell strain. Under hypoxic conditions, dicumarol increased cytotoxicity and drug accumulation in both cell strains. The mechanism of this enhanced cytotoxicity remains unclear. These results suggested that the resistant cells were deficient in the enzyme DT-diaphorase, a potential activator of PM. Enzymatic assays confirmed this and revealed no alterations in cytochrome P450 reductase (EC 1.6.2.4) activity or glutathione content. No protein characteristic of DT-diaphorase was detected in the resistant cell strain using a polyclonal rabbit-anti-rat antibody raised against this enzyme. Southern blot analysis using a rat DT-diaphorase cDNA probe demonstrated differences between the normal and resistant cell strains in the restriction fragment patterns. The present results are consistent with the hypothesis that decreased DT-diaphorase levels are causally associated with PM and MMC resistance in these cells under aerobic exposure conditions.
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PMID:Studies on the mechanism of resistance to mitomycin C and porfiromycin in a human cell strain derived from a cancer-prone individual. 190 10

Non-transformed skin fibroblasts derived from five members of a cancer-prone family and three unrelated healthy volunteers were assayed for their levels of activity of the quinone reductase DT-diaphorase and for their sensitivity to the antitumor quinone mitomycin C (MMC). Previous studies of skin fibroblasts derived from one afflicted member of this family (3437T) demonstrated increased resistance to MMC under aerobic exposure conditions and a reduced level of DT-diaphorase. In the present study 3437T cells and a cell strain derived from another afflicted member of the cancer-prone family were found to be hyperresistant to the cytotoxic effects of MMC, and demonstrated negligible DT-diaphorase activity (30 +/- 10 nmol/min/mg protein). Cell strains derived from the three other family members demonstrated intermediate DT-diaphorase activity (400-800 nmol/min/mg protein). Enzyme activities of 1800-6000 nmol/min/mg protein were measured in the three control cell strains. A protein that was reactive with a rabbit polyclonal antibody raised against rat DT-diaphorase and corresponded to the known mol. wt of DT-diaphorase was clearly evident in the three control cell strains, but absent in the two MMC-hyperresistant cell strains. This protein was present in intermediate amounts in the remaining members of the cancer-prone family. Southern analysis of DNA isolated from all eight cell strains and restricted with EcoRI demonstrated the presence of a DNA sequence of approximately 15 kb which hybridized to a rat DT-diaphorase cDNA probe. Northern analysis revealed the presence of an RNA species approximately 1200 bp in size, consistent with that for a human DT-diaphorase mRNA, in all cell strains derived from family members. A post-transcriptional defect would, therefore, appear to be responsible for the decreased enzyme activity observed in the resistant cell strains. These results suggest a role for DT-diaphorase in MMC bioactivation and that reduced levels of the protein may be causally related to the cancer-prone tendency of this family.
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PMID:DT-diaphorase activity and mitomycin C sensitivity in non-transformed cell strains derived from members of a cancer-prone family. 190 77

Naphthalene is toxic to the eye and results in opacification of the lens. To investigate the metabolic events that may be occurring in the lens epithelial cells, a cell line of lens from a transgenic mouse was incubated with various metabolites of naphthalene. Naphthoquinone at 50 microM was toxic to most cells with a depletion of glutathione levels noted within 6 h of incubation. At 10 microM, naphthoquinone caused an increase in specific activity of the enzyme DT-diaphorase. This enzyme is thought to be a defense against quinones since semiquinone formation is thought to be lessened. Naphthalene-1,2-dihydrodiol at 50 microM also caused an increase in the specific activity of the DT-diaphorase, while at 10 microM no apparent change occurred in the cells. Although there was evidence of metabolic alterations in the cells with the metabolites of naphthalene, the protein profile by two-dimensional gel electrophoresis did not change and there was no indication of an increase in carbonyl formation in the soluble proteins of the cells. These experiments indicate that the metabolites of naphthalene can cause alteration in the metabolism of the lens cells but may not cause apparent changes in the major proteins within the lens epithelium.
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PMID:Effects of naphthalene metabolites on cultured cells from eye lens. 190 27

DT-diaphorase (DTD) is a flavoprotein which catalyzes obligate two-electron reduction of a diverse group of substrates. We have reported previously that non-tumorigenic mouse lung alveolar type-II pneumocytes have high DTD activity, while cell lines derived from lung tumors do not. In contrast, other investigators, using human lung tissue, reported increased DTD activity in tumors compared with normal tissue. We therefore investigated DTD associated with mouse lung neoplasia in vivo as well as in vitro. Pulmonary tumors had far less DTD activity compared with normal mouse lung. Correspondingly, a tumorigenic mouse lung cell line which arose as a spontaneous transformant of a normal cell line had very low DTD activity compared with non-tumorigenic lung cells. DTD-specific mRNA levels were also much higher in normal cell lines than in neoplastic ones. DTD was localized histochemically in type-II pneumocytes in situ, but was not observed by this technique in normal bronchiolar epithelia or in tumor cells. These data show that, unlike what has been observed in human lung cancer, a marked decrease in DTD content and activity accompanied mouse lung tumorigenesis in vivo and neoplastic transformation in vitro.
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PMID:NAD(P)H:quinone oxidoreductase (DT-diaphorase) activity and mRNA content in normal and neoplastic mouse lung epithelia. 190 40

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