Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Two non-transformed human skin fibroblast strains, GM38 and 3437T, were found to be more sensitive to the bioreductive alkylating agents mitomycin C (MMC) and porfiromycin (PM) under hypoxic compared to aerobic conditions. One of these strains, 3437T, was 6-7 times more resistant to these agents under aerobic exposure conditions, but was identical in sensitivity to the normal strain, GM38, under hypoxic conditions. Aerobic 3437T cells demonstrated no increased resistance to cisplatin compared to the normal strain, arguing against enhanced ability to repair DNA interstrand cross-links as the underlying explanation for the mitomycin resistance. The aerobic resistance of 3437T was not altered by dicumarol, an inhibitor of the enzyme DT-diaphorase which is believed to be involved in aerobic activation of MMC and PM. Dicumarol did increase the resistance of GM38, but not to the same level of resistance demonstrated by 3437T. These results suggest that the aerobic MMC and PM resistance of 3437T may arise, in part, from a deficiency in DT-diaphorase activity. The identical sensitivities under hypoxic conditions indicate that drug activation pathways operative in the absence of oxygen are similar in both the normal and 3437T cells.
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PMID:Deficient activation by a human cell strain leads to mitomycin resistance under aerobic but not hypoxic conditions. 250 39

We have demonstrated previously that dicoumarol (DIC) increased the generation of reactive metabolites from mitomycin C (MC) in EMT6 cells under hypoxic conditions in vitro. This increased reaction rate was associated with an increased toxicity of MC to hypoxic EMT6 cells. In contrast, aerobic cells treated with DIC in vitro were protected from MC toxicity. We now demonstrate that DIC sensitizes EMT6 cells to two MC analogues, porfiromycin (POR) and the 7-N-dimethylaminomethylene analogue of mitomycin C (BMY-25282), in hypoxia and protects cells from these agents in air, despite the fact that POR is preferentially toxic to hypoxic cells and BMY-25282 is preferentially toxic to aerobic cells. In contrast, DIC increases menadione cytotoxicity in both air and hypoxia and has no effect on the cytotoxicity of Adriamycin. We have also shown previously that the preferential toxicity of POR to hypoxic cells is associated with an increased rate of drug uptake. In the present study, DIC had no measurable effect on the uptake of [3H]POR but increased the extent of efflux of this agent. MC-induced DNA cross-links, which have been proposed as the lesions responsible for the lethality of MC, are decreased by DIC in air and increased by DIC in hypoxia, in concert with the observed modifications of MC cytotoxicity by DIC. However, in aerobic cells treated with DIC and MC, the decrease in DNA interstrand cross-links is not directly associated with a decrease in cytotoxicity. L1210 cells, which have no measurable quinone reductase activity, demonstrate increased toxicity when treated with DIC and MC in hypoxia, as observed with EMT6 cells. Unlike EMT6 cells, however, L1210 cells are not protected by DIC from MC toxicity in air. Taken together, these findings suggest that DIC is altering the intracellular metabolism of MC and that quinone reductase or another, unidentified, enzyme sensitive to DIC may be involved in activating MC to a toxic product in aerobic EMT6 cells.
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PMID:Modification of the metabolism and cytotoxicity of bioreductive alkylating agents by dicoumarol in aerobic and hypoxic murine tumor cells. 247 May 4

L5178Y cells resistant to the model quinone antitumor agent, hydrolyzed benzoquinone mustard, were four-fold more sensitive to mitomycin C compared to parental cells. Mitomycin C also produced increased DNA-DNA crosslinking in these cells compared to parental L5178Y cells, but did not induce DNA double strand breaks in either cell line. The resistant cells have a 24-fold increased level of DT-diaphorase activity, an enzyme that produces two electron reduction of quinone groups. Dicoumarol, an inhibitor of DT-diaphorase, significantly inhibited crosslinking and cytotoxicity by mitomycin C in the quinone resistant cells. These findings suggest that DNA-DNA cross-linking may be a major contributor to mitomycin C cytotoxic activity in L5178Y cells, and that the hydroquinone of mitomycin C may play a major role in the crosslinking activity of this agent.
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PMID:Increased sensitivity of quinone resistant cells to mitomycin C. 247 83

A form of NAD(P)H dehydrogenase (quinone) (DT diaphorase, menadione reductase (NMOR), phylloquinone reductase, quinone reductase, EC 1.6.99.2) has been isolated from Walker 256 rat carcinoma cells. This enzyme can convert 5-(aziridin-1-yl)-2,4-dinitrobenzamide (CB 1954) to a cytotoxic DNA interstrand crosslinking agent by reduction of its 4-nitro group to the corresponding hydroxylamino species (Knox et al. Biochem Pharmacol, 37: 4661-4669 and 4671-4677, 1988). 2-Phenyl-5(4)-aminoimidazole-4(5)-carboxamide and AICA [5(4)-aminoimidazole-4(5)-carboxamide] have previously been reported to be antagonists of the anti-tumour effects of CB 1954. We have shown that both these compounds are inhibitors of the above enzyme and that AICA protects against both the cytotoxicity and the formation of DNA interstrand crosslinks, produced by CB 1954 in Walker cells. Similarly, known inhibitors of NAD(P)H dehydrogenase (quinone) such as dicoumarol, also reduced the cytotoxicity and DNA-interstrand crosslinking of CB 1954 in Walker cells. Caffeine was shown to be a novel inhibitor of NAD(P)H dehydrogenase (quinone) and also elicited the above protective effects. All of the above inhibitors were also shown to potentiate the toxic effects of menadione against the Walker cell. This quinone is known to be detoxified by NAD(P)H dehydrogenase (quinone) and thus emphasises the ability of these compounds to inhibit this enzyme within the cell.
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PMID:Caffeine, aminoimidazolecarboxamide and dicoumarol, inhibitors of NAD(P)H dehydrogenase (quinone) (DT diaphorase), prevent both the cytotoxicity and DNA interstrand crosslinking produced by 5-(aziridin-1-yl)-2,4-dinitrobenzamide (CB 1954) in Walker cells. 248 Jul 94

Tannic acid inhibits the mutagenicity of several polycyclic aromatic hydrocarbons (PAHs) and their bay-region diol-epoxides. Our prior studies have shown that when applied topically to Sencar mice, tannic acid caused substantial inhibition of epidermal PAH metabolism, subsequent PAH-DNA adduct formation, and PAH-induced skin tumorigenesis (H. Mukhtar et al., Cancer Res., 48:2361-2365, 1988, and references therein). In this study the effects of tannic acid supplementation in the diet (1%, w/w, in AIN-76 diet) of Sencar mice on benzo(a)pyrene (BP) metabolism and its subsequent DNA binding and tumorigenesis in lung and forestomach were evaluated. Animals receiving a tannic acid-containing diet showed diminished aryl hydrocarbon hydroxylase and 7-ethoxy-resorufin O-deethylase activities in the forestomach and lung. Elevated glutathione S-transferase and NAD(P)H:quinone reductase activities were observed in these tissues. Maximum effects occurred after 45 days of feeding. Administration of [3H]BP p.o. to animals resulted in lower covalent binding to DNA in forestomach and lung of animals receiving tannic acid-containing diet as compared to animals receiving AIN-76 control diet. Tumor induction studies in forestomach and lung revealed significant protection against BP-induced tumorigenesis in animals fed tannic acid-supplemented diet as compared to animals fed control diet. The mice fed tannic acid-supplemented diet developed 3.3 forestomach tumors/mouse compared to 5.2 tumors/mouse in animals receiving control diet. The numbers of pulmonary tumors per mouse in animals fed tannic acid-supplemented diet and control diet were 1.6 and 3.1, respectively. Topical application of 7,12-dimethylbenz(a)anthracene to animals fed tannic acid-supplemented diet did not result in significant protection against skin tumorigenesis. However, a slight delay in the onset of skin tumor formation occurred in tannic acid-fed animals when compared to animals receiving control diet. Our data suggest that dietary supplementation with tannic acid affords protection against BP-induced forestomach and lung tumorigenesis in rodents.
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PMID:Effect of dietary tannic acid on epidermal, lung, and forestomach polycyclic aromatic hydrocarbon metabolism and tumorigenicity in Sencar mice. 250 36

Dietary supplementation of vitamin C to diethylstilbestrol (DES)- or estradiol-treated male Syrian hamsters is known to inhibit renal carcinogenesis by approximately 50%. To elucidate the mechanism of inhibition, the influence of administration of vitamin C on a series of previously described biochemical markers of kidney carcinogenesis was investigated. Hamsters were stratified into four groups: (i) untreated controls; (ii) vitamin C-treated; (iii) estrogen-treated; and (iv) estrogen plus vitamin C-treated animals. Concomitant administration of vitamin C and diethylstilbestrol (DES) decreased concentrations of the major DES-DNA adduct by 70-90% in liver, kidney and testis than those receiving DES only. Diethylstilbestrol-4',4"-quinone has previously been shown to be the genotoxic metabolite of DES responsible for DNA adduct formation in vivo. In vitro, vitamin C reduced diethylstilbestrol-4',4"-quinone to cis- and trans-diethylstilbestrol in a dose-dependent fashion. Changes in activities of quinone reductase, catalase, superoxide dismutase and of glutathione metabolizing enzymes (glutathione peroxidase, glutathione reductase, gamma-glutamyl transpeptidase and glucose-6-phosphate dehydrogenase) in response to vitamin C were not observed or not sufficiently large to account for the 50% decrease in tumor incidence. No differences were detected in indirect estrogen-induced kidney DNA adducts in response to vitamin C treatment. It is concluded that vitamin C inhibits estrogen-induced carcinogenesis by reducing concentrations of estrogen quinone metabolites and their DNA adducts.
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PMID:Mechanism of inhibition of estrogen-induced renal carcinogenesis in male Syrian hamsters by vitamin C. 257 56

The development of tumor cell drug resistance is a major obstacle which often leads to failure of cancer chemotherapy. Therefore, reversing the cell drug resistance would have important implications in cancer treatment. We have developed a cisplatin-resistant mouse tumor cell line from the radiation induced fibrosarcoma (RIF-1) parental line; this line is named RIF/ptr1 versus the parental line RIF/pts1. It is shown that the formation of cisplatin-DNA interstrand cross-links is the same for both cell lines although the intracellular cisplatin concentrations of resistant line is significantly lower. The cytosolic activities of glutathione reductase, glutathione peroxidase, and DT-diaphorase were the same in two cell lines. However, the concentration of glutathione was significantly higher in the resistant line. The resistant line was shown to be more sensitive to the cytotoxicity of heat (43 degrees C) but the combination of heat and drug had the same tumoricidal effect for both cell lines. The addition of verapamil also had a similar effect on both cell lines. We conclude that the major difference between these two lines was the glutathione-related detoxification of platinum. Regardless of drug resistance, the combination of drug and heat can effectively kill both cell lines. Elevated glutathione in RIF/ptr1 cells may be associated both with enhanced heat sensitivity and drug resistance such that combined treatments with drug and heat were equally effective in killing cells of either line.
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PMID:Characterization of a cisplatin-resistant subline of murine RIF-1 cells and reversal of drug resistance by hyperthermia. 271 51

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

Thyrocytes isolated from porcine thyroids by mechanical and enzymatic dispersion and cultured in Eagle's minimal essential medium, supplemented with 5% (v/v) fetal calf serum, glutamine and cortisol, formed a continuous monolayer within 48 h. This monolayer was without cytochemical peroxidase and diaphorase (NADPH reoxidation) activity. In the presence of bovine thyrotrophin (bTSH; 50 mu./l) the cells developed a follicular-like architecture which was maximal at 4 days before reverting back to a uniform monolayer at 6 days. There were no detectable changes in the total DNA content over this period. The follicular structures had marked diaphorase and peroxidase activity, the latter being apically distributed. Concomitant with follicle formation bTSH induced uptake and organification of iodide presented to the cells during the last 6 h of culture. The extent of this process depended on the dose of bTSH and the duration of stimulation. The most sensitive effects for both iodide uptake and organification occurred with 1 mu. bTSH/l and were maximal with 100 mu./l. Uptake and organification were increased 20 +/- 8-fold and 9.6 +/- 2-fold (n = 10) respectively over the control with 100 mu./l and the doses of bTSH at which a half maximal response was seen (ED50) were 15 +/- 2 and 7 +/- 1 (S.D) mu./l (n = 10) respectively. On changing the culture medium to a serum-free system using HB101 culture medium the stimulation time for the most sensitive bTSH effect was reduced to 2.5 days.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Measurement of low concentrations of bovine thyrotrophin by iodide uptake and organification in porcine thyrocytes. 299 9

We have used polysomal immunoabsorption techniques to purify rat liver quinone reductase mRNA (NAD(P)H:quinone oxidoreductase, EC 1.6.99.2, formerly called DT-diaphorase). Using the purified mRNA as template, cDNA clones complementary to quinone reductase mRNA have been constructed. One cDNA clone, pDTD55, has a 1900-base pair insert which has been demonstrated by hybrid-select translation experiments to be complementary to quinone reductase mRNA. Clone pDTD55 has been used in RNA and DNA blot hybridizations to show that quinone reductase mRNA is approximately 1900 nucleotides in length and is encoded by a gene which spans approximately 7000-8000 base pairs. We have also shown that quinone reductase mRNA is markedly elevated by 3-methylcholanthrene administration and in persistent hepatocyte nodules induced by chemical carcinogens. The elevation of quinone reductase mRNA in persistent hepatocyte nodules is not due to either gene amplification of DNA rearrangement. Rather, the quinone reductase gene is hypomethylated in persistent hepatocyte nodules compared to the gene in either liver tissue surrounding the nodule or normal liver. These data suggest that hypomethylation of specific gene sequences occurs at early stages during chemical carcinogenesis.
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PMID:Rat liver NAD(P)H:quinone reductase. Construction of a quinone reductase cDNA clone and regulation of quinone reductase mRNA by 3-methylcholanthrene and in persistent hepatocyte nodules induced by chemical carcinogens. 300 9


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