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)

A 40% reduction of the diameter of the ascending aorta maintained for 60 days induced the formation of a compensate cardiac hypertrophy in rabbits without changing the value of the azide insensitive Ca2+-ATPase activity in comparison to control hearts. The cardiac mitochondria isolated from constricted animals assayed in presence of glutamate and succinate did not show a change in the R.C.I. and ADP/O values in comparison to the controls, whilst the QO2 value enhanced or decreased respectively when determined with glutamate or succinate. The intramuscular injections of CoQ10 (12 mg/kg body weight/48 h) enhanced the mitochondrial CoQ10 concentrations both in the control and in the constricted animals and further increased the QO2 value determined in both groups of animals when glutamate was used as the substrate. The production of O2.- radicals by the level of the complexes I and III of the respiratory chain, did not change in the constricted animals, nor in the animals administered with CoQ10 in comparison to the control. CoQ10 augmented the rate of oxygen consumption by the submitochondrial particles only in the constricted animals. Moreover, the treatment with the coenzyme or the constriction of the aorta, did not modify the cardiac superoxide dismutase activity, but increased the glutathione peroxidase activity only in the banded animals. In addition, in the CoQ10 treated animals there was a reduction of NADH-diaphorase activity both in the control and constricted animals, while the malondialdehyde, generated during the thiobarbituric acid test, and the cardiac content of lipofuscin were decreased.
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PMID:The effect of treatment with coenzyme Q10 on the mitochondrial function and superoxide radical formation in cardiac muscle hypertrophied by mild aortic stenosis. 303 17

In an attempt to characterize metabolism enzymes of the estrogen-induced kidney tumor in male Syrian hamsters, the activities of enzymes involved in drug and glutathione metabolism were determined in tumor tissue. Kidney tumors were induced in male Syrian hamsters by treatment with estradiol for 8 months. Cytochrome P-450 and cytochrome b5 concentrations in tumors were below detectable levels. However, when cytochrome P-450-mediated oxidation was analyzed by product formation assays, the oxidation of E-diethylstilbestrol to diethylstilbestrol-4',4"-quinone by tumor microsomes was 10-20% of the rate found in control microsomes. In kidney tissue surrounding estrogen-induced tumors, cytochrome P-450 and b5 contents were 50-60% less than those in untreated kidney. Activities of reducing enzymes of drug metabolism (cytochrome P-450, cytochrome b5 and NADH:cytochrome c reductases), glutathione metabolism enzymes (glutathione peroxidase, glutathione transferase, glutathione reductase, and gamma-glutamyl transpeptidase), and free radical scavenging enzymes (superoxide dismutase, catalase, and quinone reductase) in tumor were significantly lower than in untreated kidney tissue. The activities of these enzymes in renal tumor surrounding tissue were between those observed in tumor and control kidney. Glucose-6-phosphate dehydrogenase activity was increased by 50% in surrounding tissue and 430% in tumor compared to values in untreated controls. The decreased enzyme activity levels in hormone-exposed tissue surrounding tumors likely represented an adaptation of this tissue to the neoplastic environment induced by chronic estrogen treatment.
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PMID:Characterization of drug metabolism enzymes in estrogen-induced kidney tumors in male Syrian hamsters. 304 47

The exact contribution of the quinone group to the activity of quinone antitumor agents remains uncertain. Two L5178Y murine lymphoblastic cell lines resistant to the model quinone antitumor agent, hydrolyzed benzoquinone mustard, and one partial-revertant cell line were isolated and characterized. The antitumor activity of hydrolyzed benzoquinone mustard has been shown previously to be due to its ability to induce free radical mediated DNA strand breaks. Resistant cells were obtained by growing a cloned L5178Y parental cell line in media containing increasing concentrations of hydrolyzed benzoquinone mustard. L5178Y/HBM2 cells were selected from L5178Y cells growing in media containing 0.2 mM drug, while L5178Y/HBM10 cells were selected from cells growing in media containing 1.0 mM drug. The L5178Y/HBMR cells were obtained by growing L5178Y/HBM10 cells in media without hydrolyzed benzoquinone mustard. The resistant cell lines, L5178Y/HBM2 and L5178Y/HBM10, were 2.5- and 6-fold less sensitive, respectively, to hydrolyzed benzoquinone mustard compared to parental cells, and this was accompanied by a decrease in the formation of DNA single and double strand breaks by this drug. The partial-revertant cell line, L5178Y/HBMR was 2.9-fold less sensitive to hydrolyzed benzoquinone mustard compared to parental cells. Drug uptake appeared to be lower in the resistant cells compared to parental cells. The resistant cells had a slightly elevated level of superoxide dismutase activity compared to parental cells, but there was no increase in the mRNA for superoxide dismutase nor any amplification of the gene for this enzyme. Intracellular catalase activities of the L5178Y/HBM2 and L5178Y/HBM10 cells were elevated by 1.25- and 2.6-fold, respectively, and the increased enzyme activity in the L5178Y/HBM10 cells appeared to result from a 3.6-fold increase in mRNA for this enzyme. Glutathione peroxidase activity was slightly elevated in L5178Y/HBM2 cells, but was unchanged in the other resistant cells. The L5178Y/HBM2 and L5178Y/HBM10 cells showed increased concentrations of glutathione and elevated levels of glutathione transferase activity. The resistant cell lines also had DT-diaphorase activity that was 3- and 24-fold higher in L5178Y/HBM2 and L5178Y/HBM10 cells, respectively, compared to sensitive cells. However, cytochrome P-450 reductase activity and the ratio of reduced to oxidized pyridine nucleotides was unchanged in the resistant cell lines. The partial-revertant cell line, L5178Y/HBMR, showed approximately the same level of resistance to hydrolyzed benzoquinone mustard as the L5178Y/HBM2 cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Characterization of L5178Y murine lymphoblasts resistant to quinone antitumor agents. 312 38

Fischer F-344 male rats, fed a choline-devoid diet that leads to a highly reproducible sequence of biochemical and biological changes with an ultimate development of hepatocellular carcinoma, show elevated levels of glutathione in the liver at 3, 6 and 8 days. Several enzymes related to the metabolism of free radicals, including superoxide dismutase, catalase, glutathione peroxidase, glutathione S-transferase and DT-diaphorase show neither increased nor decreased activity as measured between 12 h and 8 days on the diet. Thus, of several known cellular components related to the possible scavenger of free radicals in the liver, only glutathione responded to the feeding of the CD diet. It is tentatively concluded that a decrease in the levels of possible scavengers for free radicals is not a major basis for the nuclear and mitochondrial lipid peroxidation seen early in rats fed a choline-devoid diet.
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PMID:Glutathione and enzymes related to free radical metabolism in liver of rats fed a choline-devoid low-methionine diet. 339 Aug 3

In recent years it has become clear that various free radicals and related oxidants can cause serious damage to intracellular enzymes and other proteins. Several investigators have shown that in extreme cases this can result in an accumulation of oxidatively damaged proteins as useless cellular debris. In other instances, proteins may undergo scission reactions with certain radicals/oxidants, resulting in the direct formation of potentially toxic peptide fragments. Data has also been gathered (recently) demonstrating that various intracellular proteolytic enzymes or systems can recognize, and preferentially degrade, oxidatively damaged proteins (to amino acids). In this hypothesis paper I present evidence to suggest that proteolytic systems (of proteinases, proteases, and peptidases) may function to prevent the formation or accumulation of oxidatively damaged protein aggregates. Proteolytic systems can also preferentially degrade peptide fragments and may thus prevent a wide variety of potentially toxic consequences. I propose that many proteolytic enzymes may be important components of overall antioxidant defenses because they can act to ameliorate the consequences of oxidative damage. A modified terminology is suggested in which the primary antioxidants are such agents as vitamin E, beta-carotene, and uric acid and such enzymes as superoxide dismutase, glutathione peroxidase, and DT-diaphorase. In this classification scheme, proteolytic systems, DNA repair systems, and certain lipolytic enzymes would be considered as secondary antioxidant defenses. As secondary antioxidant defenses, proteolytic systems may be particularly important in times of high oxidative stress, during periods of (primary) antioxidant insufficiency, or with advancing age.
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PMID:Intracellular proteolytic systems may function as secondary antioxidant defenses: an hypothesis. 355 99

The biochemical basis for paraquat tolerance was investigated using one of the paraquat-resistant Escherichia coli mutants previously isolated. When grown in the absence of paraquat (PQ2+), the specific activities of glucose-6-phosphate dehydrogenase and NADPH:PQ2+-diaphorase, both required for the expression of PQ2+ toxicity, were comparable in the wild type and the mutant. However, growth in the presence of 1 mM PQ2+ resulted in greater induction of these two enzymes in the wild type than in the mutant. Nevertheless, when the mutant was grown in 50 mM PQ2+, the activities of these two enzymes were comparable to those of the wild type grown in the presence of 1 mM PQ2+. Measurement of cyanide-resistant respiration, an indication of intracellular superoxide generation, showed that the intracellular flux of superoxide mediated by subsaturating concentrations of paraquat was significantly lower in the mutant than in the wild type. Extracellular superoxide formation, as measured by superoxide dismutase-inhibitable cytochrome c reduction, was higher in the wild type than in the mutant whether grown in the absence or the presence of PQ2+. The mutant did not show cross-resistance toward juglone or plumbagin, compounds known to exacerbate superoxide generation. The kinetics of [14C]PQ2+ uptake showed that the wild type accumulated PQ2+ against a concentration gradient, whereas the mutant seemed to do so only by facilitated diffusion. The results indicate that the impaired paraquat uptake system in the mutant results in the physiological and biochemical differences observed between the wild type and mutant.
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PMID:Biochemical characterization of a paraquat-tolerant mutant of Escherichia coli. 389 18

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

At approximately equimolar concentrations (approximately 70 microM), and in the presence of excess catalase and superoxide dismutase, DCIP, ferricytochrome c and ferricyanide abstracted 21, 6 and 61%, respectively, of the electron equivalents given up by NADPH to the NADPH-O2 oxidoreductase complex derived from phorbol myristate acetate-stimulated human neutrophils. With a 10-fold increase in ferricyanide, all of the electron equivalents given up by NADPH to the oxidoreductase complex were shunted to ferricyanide concomitant with complete inhibition of NADPH-dependent O2 consumption. These results substantiate the existence of intrinsic diaphorase activity associated with the superoxide generating NADPH-O2 oxidoreductase of human neutrophils.
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PMID:Detection of NADPH diaphorase activity associated with human neutrophil NADPH-O2 oxidoreductase activity. 396 5

Streptococcus sanguis, whose growth appears to be independent of the availability of iron, makes no hemes, contains neither catalase nor peroxidase, and can accumulate millimolar concentration levels of H2O2 during aerobic growth. It possesses a single manganese-containing superoxide dismutase whose concentration can be varied over a 50-100-fold range by manipulating the availability of oxygen during growth. Cell extracts contain a soluble NADH-plumbagin diaphorase which mediates O2- production in vitro and presumably also in vivo. Plumbagin increased oxygen consumption by S. sanguis and imposed an oxygen-dependent toxicity. Cells grown aerobically and containing elevated levels of superoxide dismutase were resistant to this toxicity. Dimethyl sulfoxide, which was shown to permeate S. sanguis freely, was used as an indicating scavenger of OH. An in vitro enzymic source of O2- plus H2O2 generated formaldehyde from dimethyl sulfoxide, an indication of OH. production. Either superoxide dismutase or catalase inhibited this OH. production and iron salts augmented it. Intact, aerobic cells of S. sanguis also gave evidence of OH. production, in the presence of plumbagin, but all of it appeared to be generated outside the cells. In addition, 0.5 M dimethyl sulfoxide did not diminish the oxygen-dependent toxicity of plumbagin. We conclude that, in S. sanguis, O2- can exert a toxic effect independent of the production of OH..
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PMID:Oxygen toxicity in Streptococcus sanguis. The relative importance of superoxide and hydroxyl radicals. 627 24

The mechanism(s) of natural killer (NK) cell-mediated cytotoxicity (CMC) remains largely unknown. In this study, we investigated the possibility of human NK cells to exhibit an oxidative burst (OB) after stimulation by K562, an NK-sensitive target cell (TC). The addition of catalase (CAT) or superoxide dismutase (SOD) to the NK-mediated cytotoxic assay had no effect on NK-CMC. In contrast, CAT and SOD effectively modulated the cytotoxicity mediated by phorbol-12-myristate-13-acetate (PMA)-activated polymorphonuclear leukocytes (PMNL) against three different tumor TC, including K562. CAT abrogated, while SOD enhanced PMA-activated PMNL-mediated cytotoxicity. The synergistic effect of SOD and PMA was suppressed in a dose-dependent fashion by CAT. Furthermore, by chemiluminescence (CL) and SOD-inhibitable reduction of cytochrome c, we failed to detect an OB associated with K562-stimulated NK cells. PMNL, however, rapidly responded to PMA (10 ng/ml), generating almost 10(6) cpm within 20 min and 26.7 nM O-2/10(6) cells/30 min, as detected by CL and reduction of cytochrome c, respectively. Finally, K562 alone, at cell concentrations corresponding to effector cell:target cell (EC:TC) ratios of 1:1 and 1:10, reduced cytochrome c, but this reduction was not inhibited by SOD, thus suggesting a diaphorase activity. Overall, we show that: a) tumor cell destruction by human NK cells and by PMA-activated PMNL is mediated by different mechanisms; and b) NK-CMC against a sensitive TC does not involve an OB.
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PMID:Compared mechanisms of tumor cytolysis by human natural killer cells and activated polymorphonuclear leukocytes. 632 20

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