EC:1.6.99.3 - FACTA Search

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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)

Highly purified cytochrome P-450 reductase (also called cytochrome c reductase; EC 1.6.2.4.) and NADPH were used to generate superoxide radical (O2.-) from 11 different heterocyclic amines (HCAs) as identified by electron spin resonance spectroscopy using the spin trapping method with 5,5-dimethyl-1-pyrroline N-oxide (DMPO). The signal intensity of DMPO-OOH(-O2-) (i.e., the DMPO spin adduct of O2.-) was strongest for 2-amino-3,4-dimethylimidazo[4,5-f]quinoline (MeIQ). The O2.- generation with HCAs decreased in the following order: 2-amino-3,8-dimethyl-imidazo[4,5-f]quinoxaline (MeIQx) = 2-amino-3-methylimidazo[4,5-f]quinoline (IQ) > 2-amino-3,4,8-trimethylimidazo[4,5-f]quinoxaline (diMeIQx) > or = other HCAs; O2.- generation was lowest with 2-amino-3-methyl-9H-pyrido[2,3-b]indole .CH3COOH (MeA alpha C). By using Lineweaver-Burk plots, Km values of cytochrome P-450 reductase for mitomycin C, IQ, and MeIQ were determined to be 1.60 x 10(-6) M, 1.97 x 10(-5) M, and 2.83 x 10(-6) M, respectively. The present findings have important implications for carcinogenesis because of the known effect of oxygen radicals on cell proliferation.
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PMID:Evidence of direct generation of oxygen free radicals from heterocyclic amines by NADPH/cytochrome P-450 reductase in vitro. 133 93

A high-abundance NADH-oxidizing enzyme (NADH: acceptor oxidoreductase, EC 1.6.99.3) has been identified and isolated from a range of anaerobic extreme thermophiles, including strains of Clostridium thermohydrosulfuricum and Thermoanaerobium brockii. By use of a pseudo-affinity salt-promoted adsorbent, a nearly pure sample was obtained in one step; remaining impurities were separated by ion-exchange. The fully active purified enzyme contains FAD (two molecules per subunit of 75-78 kDa) and iron-sulphur, and is hexameric in its most active form. The reaction with oxygen is a one- or two-electron transfer to produce superoxide radical and H2O2; other acceptors include tetrazolium salts, dichlorophenol-indophenol, menadione and ferricyanide. The role of the enzyme is not clear; it was found not to be NAD:ferredoxin oxidoreductase, which is a major NADH-utilizing enzyme in these organisms.
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PMID:A thermostable NADH oxidase from anaerobic extreme thermophiles. 159 37

Superoxide (.O2-) production by the NADPH oxidase of a membrane fraction derived from rabbit peritoneal neutrophils activated by 4 beta-phorbol 12-myristate 13-acetate (PMA) was studied at 25 degrees C under different conditions, and measured by the superoxide dismutase inhibitable reduction of cytochrome c. Whereas PMA-activated rabbit neutrophils incubated in a glucose-supplemented medium exhibited a substantial rate of production of .O2-, the membranes prepared by sonication of the activated neutrophils were virtually unable to generate .O2- in the presence of NADPH. Instead, they exhibited an NADPH-dependent diaphorase activity, measured by the superoxide-dismutase-insensitive reduction of cytochrome c. Upon addition of arachidonic acid, which is known to elicit oxidase activation, the NADPH diaphorase activity of the rabbit neutrophil membranes vanished and was stoichiometrically replaced by an NADPH oxidase activity. The emerging oxidase activity was fully sensitive to iodonium biphenyl, a potent inhibitor of the respiratory burst, whereas the diaphorase activity was not affected. Addition of 0.1% Triton X-100 or an excess of arachidonic acid, acting as detergent, resulted in the reappearance of the diaphorase activity at the expense of the oxidase activity. These results indicate that the diaphorase-oxidase transition is reversible. When the rabbit neutrophil membranes were supplemented with rabbit neutrophil cytosol, guanosine 5'-[gamma-thio]triphosphate and Mg2+, in addition to arachidonic acid, not only the NADPH diaphorase activity disappeared, but the emerging NADPH oxidase activity was markedly enhanced (about 10 times compared to that of membranes treated with arachidonic acid alone). The diaphorase-oxidase transition was accompanied by a 10-fold increase in the Km for NADPH, suggesting a change of conformation propagated to the NADPH-binding site during the transition. The treatment of PMA-activated rabbit neutrophils with cross-linking reagents, like glutaraldehyde or 1-(3-dimethylaminopropyl)-3-ethyl carbodiimide, prevented the loss of the PMA-elicited oxidase activity upon disruption of the cells by sonication, suggesting that the interactions between the components of the oxidase complex are stabilized by cross-linking.
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PMID:Respiratory burst of rabbit peritoneal neutrophils. Transition from an NADPH diaphorase activity to an .O2(-)-generating oxidase activity. 217 79

The mechanism of ubiquinone homologs reduction by different preparations of mitochondrial NADH dehydrogenase: complex I within submitochondrial particles, isolated NADH-ubiquinone oxidoreductase and soluble low molecular weight NADH dehydrogenase, has been investigated. It has been shown that NADH oxidation via the rotenone-insensitive reaction is associated with one-electron reduction of low molecular weight ubiquinone homologs (Q0, Q1, Q2) to semiquinone with subsequent fast oxidation of the latter by atmospheric oxygen to form a superoxide radical. The two-electron ubiquinone reduction to quinol in the rotenone-sensitive reaction is unaccompanied by the semiquinone release from the enzyme active center into the surrounding solution.
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PMID:[One- and two-electron reduction of ubiquinone homologs by NADH- dehydrogenase preparations from the mitochondrial respiratory chain]. 259 Jun 88

Lactoquinomycin A (LQM-A), an antibiotic containing a quinone moiety in the molecule, inhibited biosyntheses of DNA, RNA and protein to a similar extent in doxorubicin-resistant mouse leukemia L5178Y cells at concentrations higher than 0.08 micrograms/ml. The antibiotic caused cell death in a short period of incubation and the degree of cell death correlated with that of the inhibition of macromolecular syntheses, suggesting that the inhibition of macromolecular syntheses was not a primary effect of LQM-A. LQM-A served as a good electron acceptor, when cytochrome c reductase was used as a quinone reductase. The treatment of the cells with LQM-A significantly reduced cellular NADH and ATP levels. The generation of superoxide radical by LQM-A in cell lysate was observed by reduction of nitro blue tetrazolium, and the production of hydroxyl radical was confirmed by electron spin resonance. The importance of radical formation for the cytotoxicity of LQM-A is discussed.
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PMID:Mechanism of action of lactoquinomycin A with special reference to the radical formation. 284 12

In the accompanying paper (Davies, K. J. A., and Doroshow, J. A. (1986) J. Biol. Chem. 261, 3060-3067), we have demonstrated that anthracycline antibiotics are reduced to the semiquinone form at Complex I of the mitochondrial electron transport chain. In the experiments presented in this study we examined the effects of doxorubicin (Adriamycin), daunorubicin, and related quinonoid anticancer agents on superoxide, hydrogen peroxide, and hydroxyl radical production by preparations of beef heart submitochondrial particles. Superoxide anion formation was stimulated from (mean +/- S.E.) 1.6 +/- 0.2 to 69.6 +/- 2.7 or 32.1 +/- 1.5 nmol X min-1 X mg-1 by the addition of 90 microM doxorubicin or daunorubicin, respectively. However, the anthracycline 5-iminodaunorubicin, in which an imine group has been substituted in the C ring quinone moiety, did not increase superoxide production over control levels. In the presence of rotenone, initial rates of oxygen consumption and superoxide formation were identical under comparable experimental conditions. Furthermore, H2O2 production increased from undetectable control levels to 2.2 +/- 0.3 nmol X min-1 X mg-1 after treatment of submitochondrial particles with doxorubicin (200 microM). The hydroxyl radical, or a related chemical oxidant, was also detected after the addition of an anthracycline to this system by both ESR spectroscopy using the spin trap 5,5-dimethylpyrroline-N-oxide and by gas chromatographic quantitation of CH4 produced from dimethyl sulfoxide. Hydroxyl radical production, which was iron-dependent in this system, occurred in a nonlinear fashion with an initial lag phase due to a requirement for H2O2 accumulation. We also found that two quinonoid anti-cancer agents which produce less cardiotoxicity than the anthracyclines, mitomycin C, and mitoxantrone, stimulated significantly less or no hydroxyl radical production by submitochondrial particles. These experiments suggest that injury to cardiac mitochondria which is produced by anthracycline antibiotics may result from the generation of the hydroxyl radical during anthracycline metabolism by NADH dehydrogenase.
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PMID:Redox cycling of anthracyclines by cardiac mitochondria. II. Formation of superoxide anion, hydrogen peroxide, and hydroxyl radical. 300 79

This study investigates the effects of both adriamycin and its 13-hydroxylated metabolite adriamycinol on superoxide anion production from cardiac sarcosomes and by mitochondrial NADH dehydrogenase. Superoxide anion production was determined by using the succinoylated cytochrome c reduction assay. Both adriamycin and adriamycinol stimulated superoxide formation in cardiac sarcosomes and by mitochondrial NADH dehydrogenase. In the first case only NADPH was required as a co-factor and in the second case only NADH. From sarcosomes as well as by NADH dehydrogenase, the superoxide production followed Michaelis-Menten kinetics. With both activating enzymatic systems, the Vmax of adriamycinol was found to be similar to that of adriamycin, but the Km for the former anthracycline was higher than for the latter. Adriamycinol also increased the rate of NADPH and NADH consumption, by sarcosomal fractions and by NADH dehydrogenase respectively. At equimolar consentrations, adriamycinol consumed less NADPH and NADH than adriamycin. These results suggest that adriamycinol could contribute to the chronic cardiac toxicity of adriamycin by forming superoxide anions in cardiac cells constituents.
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PMID:Superoxide anion production by adriamycinol from cardiac sarcosomes and by mitochondrial NADH dehydrogenase. 302 33

Experimental evidence is presented demonstrating the existence of a potent O2.- source in heart mitochondria. The novel O2.- generator is more active than any other known mitochondrial O2.- generator and also exhibits a higher affinity for molecular oxygen. In contrast to mitochondrial O2.- sources reported previously [(1974) FEBS Lett. 42, 68-72; (1978) Eur. J. Biochem. 82, 563-567], the O2.- generator described in this paper is not involved in energy-linked respiration. Superoxide radicals from this source require NADH to initiate their generation, and the radicals formed are released entirely into the extramitochondrial space. NADH-related O2.- generation was also observed with the solubilized exogenous NADH oxidoreductase of heart mitochondria, an enzyme recently described [(1987) Eur. J. Biochem., submitted]. This finding together with the lack of an NADH-dependent O2.- source in liver mitochondria suggests that the novel O2.- generator and the exogenous NADH oxidoreductase of heart mitochondria are identical.
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PMID:A novel superoxide radical generator in heart mitochondria. 303 83

DT diaphorase catalyzes the transfer of two electrons to quinones to form relatively stable hydroquinones, thus protecting cells from damage by semiquinone production and subsequent superoxide radical formation. A rapid and substantial increase in the activity of DT diaphorase occurs in the cytosolic and microsomal fractions of livers of rats with Zajdela ascites hepatoma under conditions which generally depress the activity of other xenobiotic-metabolizing enzymes. The increase is time-dependent, parallels the increase in the specific activity of DT diaphorase of the growing hepatoma cells, and is limited to the liver. Treatment of rats with hepatoma cytosol results in a rapid increase in liver cytosolic DT diaphorase activity in a dose-dependent manner.
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PMID:The anticancer enzyme DT diaphorase is induced selectively in liver during ascites hepatoma growth. 312 84

Paraquat (PQ++) increased cyanide-resistant univalent respiration in cell suspensions of five strains of obligately thermophilic bacteria. PQ++ was reduced by an NADH: or NADPH:paraquat diaphorase and selectivity for NADH, NADPH, or both electron donors varied among the thermophiles. Superoxide anion production that was dependent on the presence of PQ++ was shown by following the superoxide dismutase-inhibitable reduction of cytochrome c. In addition, the PQ++-dependent formation of hydrogen peroxide from superoxide anion was evident in two of the thermophilic strains. Catalase synthesis was induced by adding hydrogen peroxide to the growth medium of the thermophiles. The induction of catalase to eliminate hydrogen peroxide appears to be an important response of these thermophilic bacteria to oxygen toxicity.
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PMID:Paraquat toxicity and effect of hydrogen peroxide on thermophilic bacteria. 391 5

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