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)

Dopamine (DA) is oxidized to the neurotoxic prooxidant species H2O2, OH., and DA quinones. We tested whether dimethyl fumarate (DMF), an electrophile shown to induce a pleiotropic antioxidant response in nonneuronal cells, could reduce the toxicity of DA metabolites in neural cells. Treatment of the N18-RE-105 neuroblastoma-retina hybridoma cell line with 30-150 microM dopamine led to cell death within 24 h, which increased steeply with dose, decreased with higher plating density, and was blocked by the H2O2-metabolizing enzyme catalase. Pretreatment with DMF (30 microM, 24 h) significantly attenuated DA and H2O2 toxicity (40-60%) but not that caused by the calcium ionophore ionomycin. DMF treatment also elevated total intracellular GSH and increased activities of the antioxidant enzymes quinone reductase (QR), glutathione S-transferase (GST), glutathione reductase, and the pentose phosphate enzyme glucose-6-phosphate dehydrogenase. To assess the protective efficacy of QR and GST, a stable cell line was constructed in which these enzymes were overexpressed. Cell death in the overexpressing line was not significantly different from that in a cell line expressing normal QR and GST activities, indicating that these two enzymes alone are insufficient for protection against DA toxicity. Although the relative importance of a single antioxidant enzyme such as QR or GST may be small, antioxidant inducers such as DMF may prove valuable as agents that elicit a broad-spectrum neuroprotective response.
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PMID:Activation of endogenous antioxidant defenses in neuronal cells prevents free radical-mediated damage. 964 52

The chemoprotective effects of cruciferous vegetables against cancer has been linked to the induction of detoxification enzymes, including the phase II enzymes, glutathione S-transferases (GST) and quinone reductase (QR). Four glucosinolate breakdown products found in Brussels sprouts and previously shown individually to affect detoxification enzymes--(1-cyano-2-hydroxy-3-butene (Crambene), indole-3-carbinol (I3C), phenylethyl isothiocyanate (PEITC) and 1-isothiocyanato-3-(methylsulfinyl)-propane (IBN) were administered to male F344 rats by oesophageal intubation for 7 days both as a mixture and individually to assess the effect of these compounds on GST and QR activity in the pancreas, an organ previously shown to be affected by cruciferous diets. The doses of each compound in the mixture (50 mg Crambene/kg, 56 mg I3C/kg, 0.1 mg PEITC/kg and 38 mg IBN/kg) were chosen to represent the relative proportions of the parent glucosinolate for each compound in Brussels sprouts and shown to be below the toxic threshold for all the compounds. In rats receiving the mixture, pancreatic QR and GST activities were elevated 31- and 1.7-fold, respectively, while glutathione (GSH) was elevated threefold. On an individual basis, Crambene alone caused a 21-fold elevation of QR and 1.5-fold elevation of GST activities, while pancreatic GSH was elevated by both Crambene and PEITC 2.6- and twofold, respectively. No other significant effects of individual components were found. When the mixture was administered at 60% of the original dose, pancreatic QR and GST activities were elevated 12- and 1.4-fold, respectively, and pancreatic GSH was elevated 1.5-fold. At 20% of the original dose, pancreatic GSH was unaffected and QR and GST activities were elevated 2.7- and 1.3-fold, respectively. The results of these studies suggest that a diet rich in cruciferous vegetables may produce phase 11 enzyme induction in the pancreas, and that Crambene may be the most active component.
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PMID:Induction of rat pancreatic glutathione S-transferase and quinone reductase activities by a mixture of glucosinolate breakdown derivatives found in Brussels sprouts. 966 11

Maintenance of cellular homeostasis is a critical survival trait when cells are exposed to electrophilic chemicals. Because conjugation and elimination of these toxins is dependent upon sequential and coordinated metabolic pathways, acquired resistance through a gradual adaptive response would rarely be expected to be the consequence of changes in one gene product. Human HT29 colon cancer cells chronically exposed to EA have acquired resistance to the drug. Commensurate with resistance, EA is more effectively conjugated to GSH and effluxed from the resistant cells. Using directed and random (differential display) approaches, a number of detoxification and/or protective gene products have been shown to be expressed at elevated levels. These include gamma-GCS (approximately 3-fold), GST-pi (approximately 3-fold), MRP (approximately 3-fold), NQO1 (approximately 3-fold), DDH (20-fold), and SSP 3521, a transcriptional regulator (approximately 3-fold). Multiple mechanisms contribute to these increases, including enhanced transcriptional rate and prolonged mRNA and protein half lives. Further indications for the involvement of transcriptional regulators is found in HL60 adriamycin-resistant cells which overexpress MRP, GST-pi and gamma-GCS and also have 15-20-fold more DNA-dependent protein kinase. It is possible that this enzyme serves as an early stress response gene which may activate downstream transcription factors. Intriguingly, the catalytic subunit of DNA-dependent protein kinase has a high avidity for [35S]azidophenacyl-GSH. High levels of GSH conjugates indicate cell stress and it would seem reasonable to speculate that DNA-dependent protein kinase may serve as a receiver and transmitter of signals which contribute to drug resistance and maintain cell viability.
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PMID:Coordinate changes in expression of protective genes in drug-resistant cells. 967 55

Novel thiazolidine prodrugs were prepared by the condensation of L-cysteine with aldose disaccharides. Using a disaccharide in prodrug construction allows for a terminal cyclic sugar moiety to be present on the prodrug, which may allow the delivery of the agent to specific receptors, such as the asialoglycoprotein receptor (ASGPR) of hepatocytes, that require specific structural motifs for recognition. Three L-cysteine prodrugs were synthesized with a pendant cyclic galactose moiety; two related glucose-bearing prodrugs were synthesized for comparison. The prodrugs were designed to release L-cysteine, which is then available to support glutathione (GSH) biosynthesis and provide cytoprotection against a variety of toxic insults. Protection studies in Swiss-Webster mice used acetaminophen (575 mg/kg), a well-documented hepatotoxin which depletes GSH at overdose. Three prodrugs performed exceptionally well against acetaminophen-induced hepatotoxicity, as measured by increased survival and improved histological profiles of liver tissue after 48 h. In further experimentation, two of the disaccharide-based prodrugs, prepared from alpha- and beta-lactose, were compared with the monosaccharide-based compound prepared from ribose. Co-administration of the selected prodrugs with a 400 mg/kg dose of acetaminophen to Swiss-Webster mice prevented the short-term depletion in hepatic GSH and also reduced hepatotoxicity as determined by histological damage and serum levels of alanine aminotransferase. A single dose of the prodrugs alone had no effect on hepatic drug metabolizing enzymes [glutathione S-transferase (GST), NAD(P)H:quinone oxidoreductase (QOR), UDP-glucuronosyltransferase (UGT), and cytochrome P450], but, concordant with the reduction of hepatotoxicity, the latentiated forms prevented the significant elevation in QOR activity and mRNA and GST mRNA elicited by acetaminophen itself. GST activity, UGT activity and mRNA, and cytochrome P450 concentration were all unaffected by acetaminophen or the prodrugs. These studies identified novel L-cysteine prodrugs with potentially useful hepatoprotective activity. However, no structure-activity relationships were obvious. In addition, the occurrence of targeted delivery to hepatocytes remains ambiguous.
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PMID:Differential chemoprotection against acetaminophen-induced hepatotoxicity by latentiated L-cysteines. 981 87

Oltipraz [5-(2-pyrazinyl)-4-methyl-1,2-dithiole-3-thione] is a synthetic dithiolethione with chemopreventive activity against carcinogen-induced neoplasia of liver, lung, and colon in several animal model systems. Protection from tumor formation is associated with elevation of Phase II enzymes, including glutathione (GSH) transferase and NAD(P)H:quinone oxidoreductase (DT-diaphorase) in experimental carcinogenesis models in vivo. To investigate the time and dose relationships of the pharmacological action of oltipraz and to develop a model for its investigation, a human colon adenocarcinoma HT29 cell line was primarily used. In this cell line, oltipraz resulted in increased activity of both GSH transferase and DT-diaphorase. At the maximum effective concentration (100 microM), the elevation of GSH transferase was 3-fold and that of DT-diaphorase was 2-fold. The optimal duration of oltipraz exposure to HT29 cells was 24 h, following which the peak in enzyme activity was observed at 24 h after removal of the drug, and activity had almost returned to control levels after 72 h in drug-free media. Steady-state mRNA levels for DT-diaphorase were observed to increase during the period of drug exposure and remained elevated, even as catalytic activities declined to control levels, suggesting additional mechanisms for control of the activity of this enzyme. More prolonged drug exposure was associated with less induction of the detoxication enzymes, prompting an investigation of the possible toxicity of oltipraz to these cells. Although the 3-(4, 5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay revealed inhibition of proliferation (IC50, 100 microM oltipraz), a clonogenic assay demonstrated no loss of clonogenicity. Oltipraz is known to be extensively metabolized in many species; two major metabolites include a 3-ketone (metabolite 2, M2) and a molecular rearrangement to a pyrrolopyrazine derivative (metabolite 3, M3), numerous conjugates of which are formed in vivo. To investigate the potential cause of the lag in response, we synthesized two major oltipraz metabolites (M2 and M3) and tested their efficacy in enzyme induction. The activity of DT-diaphorase was induced similarly by both oltipraz and M2 (2.6- versus 2.8-fold baseline) at 100 microM, whereas M3 was inactive at all concentrations. M2 also resulted in a 5.8-fold elevation of steady-state DT-diaphorase mRNA levels. Both enzyme activity and steady-state mRNA peaked at 24 h as with the parent compound. Thus, the oxidative desulfuration of oltipraz results in the formation of an active metabolite, but this process is not rate limiting for the induction of detoxicating enzymes. These data support the use of intermittent schedules in oltipraz in clinical trials of chemoprevention because of evidence of attenuation of response. The metabolite M2, but not M3, is as active as the parent compound and may be considered for clinical development in its own right.
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PMID:Cellular kinetics of induction by oltipraz and its keto derivative of detoxication enzymes in human colon adenocarcinoma cells. 981 50

Humans ingest about 1 g of flavonoids daily in their diet, and they are increasingly being associated with cytoprotective antitumour properties. The mechanism(s) responsible for these effects have not yet been elucidated but may involve interaction with xenobiotic metabolising enzymes to alter the metabolic activation of potential carcinogens. We have investigated the effect of the flavonoids, quercetin (Q), myricetin (M) and epicatechin (E) on the growth, morphology and enzyme activities of MCF7 human breast cancer cells. Of the three flavonoids studied only Q caused a decrease in cell protein content and decreased the reduction of MTT (3-[4,5-dimethylthiazol-2-yl]-2,5-diphenyltetrazolium). It also inhibited protein, DNA and RNA synthesis to the greatest extent. Q and M increased intracellular reduced glutathione (GSH) content, and Q altered the morphology of the cells after 24 h exposure to 25 microM. E and Q inhibited the O-deethylation of ethoxyresorufin (EROD) catalysed by cytochrome P450 CYPIA. In contrast, M increased the EROD reaction 2-fold. Q increased the activity of DT-diaphorase, NADPH cytochrome c reductase and glutathione reductase, while E increased only NADPH cytochrome c reductase activity. The effects on enzyme activities in vitro suggest that there is not only the potential for flavonoids to alter metabolic activation of carcinogens but also of therapeutically administered drugs in vivo. We are at present investigating the synergy between anti-cancer drugs and flavonoids in terms of anti-tumour efficacy.
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PMID:The effect of the flavonoids, quercetin, myricetin and epicatechin on the growth and enzyme activities of MCF7 human breast cancer cells. 992 Apr 63

A network composed of activation and inactivation pathways to regulate mitomycin C (MMC) action is suggested to exist in human cancer cells. COLO201 colon cancer cells were stably transfected with human NQO1 cDNA that encodes NAD(P)H:quinone oxidoreductase (DT-diaphorase, DTD), and a clonal cell line with about 57-fold elevated DTD activity was obtained. Northern analysis revealed that expression of the NADPH:cytochrome P450 reductase (P450 reductase) gene was decreased in the transfectant, COLO201/NQO1, associated with the increase of NQO1 expression. Biochemical characterization of the cells showed a significant increase of the glutathione (GSH) content concomitantly with the decrease of the P450 reductase activity. As a result of these coordinated modulations, sensitivity of COLO201/NQO1 to MMC was not increased as compared to the parent cells. Analyses of inhibition by specific inhibitors of DTD, P450 reductase and glutathione S-transferase (GST) in 5 human colon cancer cell lines including the transfectant showed that DTD and P450 reductase play significant roles in MMC activation in cells with sufficiently high DTD activity and with marginal DTD activity, respectively. In contrast, GST appeared to participate in MMC inactivation in cells with a high level of GST activity. These results indicated that DTD, P450 reductase, GSH and GST may act together compensatively or competitively, depending on their levels in cells, to determine the cellular sensitivity to MMC.
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PMID:Regulatory network of mitomycin C action in human colon cancer cells. 1039 Oct 98

The modulating effect of thymoquinone (TQ) on benzo(a)pyrene (BP)-induced forestomach tumours was investigated in female Swiss albino mice, receiving oral administration of BP at a dose of 1 mg twice weekly for 4 weeks. Administration of 0.01% of TQ in drinking water 1 week before, during and after BP treatment until the end of the experiment resulted in significant suppression of BP-induced tumourigenesis when compared with the group receiving BP alone. TQ inhibited both BP-induced forestomach tumour incidence and multiplicity by 70% and 67%, respectively. Lipid peroxide accumulation and decreased glutathione (GSH) content and glutathione-S-transferase (GST) and DT diaphorase activities were observed in the liver of BP-treated tumour-bearing mice. TQ alone showed a significant induction in the enzyme activities of hepatic GST and DT diaphorase. Mice treated with TQ along with BP showed almost normal hepatic lipid peroxides and GSH levels, and normal enzyme activities compared to the control group. The present data may indicate the potential of TQ, the main constituent of the volatile oil of Nigella sativa seed, as a powerful chemopreventive agent against BP-induced forestomach tumours in mice. The possible modes of action of TQ may be through its antioxidant and anti-inflammatory activities, coupled with enhancement of detoxification processes.
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PMID:Inhibition of benzo(a)pyrene-induced forestomach carcinogenesis in mice by thymoquinone. 1054 99

The reduced glutathione (GSH)/oxidized glutathione (GSSG) redox state is thought to function in signaling of detoxification gene expression, but also appears to be tightly regulated in cells under normal conditions. Thus it is not clear that the magnitude of change in response to physiologic stimuli is sufficient for a role in redox signaling under nontoxicologic conditions. The purpose of this study was to determine the change in 2GSH/GSSG redox during signaling of differentiation and increased detoxification enzyme activity in HT29 cells. We measured GSH, GSSG, cell volume, and cell pH, and we used the Nernst equation to determine the changes in redox potential Eh of the 2GSH/GSSG pool in response to the differentiating agent, sodium butyrate, and the detoxification enzyme inducer, benzyl isothiocyanate. Sodium butyrate caused a 60-mV oxidation (from -260 to -200 mV), an oxidation sufficient for a 100-fold change in protein dithiols:disulfide ratio. Benzyl isothiocyanate caused a 16-mV oxidation in control cells but a 40-mV oxidation (to -160 mV) in differentiated cells. Changes in GSH and mRNA for glutamate:cysteine ligase did not correlate with Eh; however, correlations were seen between Eh and glutathione S-transferase (GST) and nicotinamide adenine dinucleotide phosphate (NADPH):quinone reductase activities (N:QR). These results show that 2GSH/GSSG redox changes in response to physiologic stimuli such as differentiation and enzyme inducers are of a sufficient magnitude to control the activity of redox-sensitive proteins. This suggests that physiologic modulation of the 2GSH/GSSG redox poise could provide a fundamental parameter for the control of cell phenotype.
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PMID:Glutathione redox potential in response to differentiation and enzyme inducers. 1064 13

Treatment with the antioxidant butylated hydroxyanisole (BHA) or the azo dye Sudan III during two weeks led to changes in the brain enzymatic antioxidant defense of Syrian golden hamsters. BHA was able to induce liver superoxide dismutase (SOD) 2-fold but had no effect on the brain SOD activity, whereas SOD activity was reduced to 50% in brain and remained unchanged in liver with Sudan III. These two substances are known inducers of DT-diaphorase and in fact this enzymatic activity was induced 4- and 6-fold in liver with BHA and Sudan III, respectively. However, BHA promoted a significant 40% reduction, whereas no change was observed with Sudan III in brain DT-diaphorase activity. Glutathione(GSH)-related enzymatic activities were also assayed in brain and liver. No induction was observed with BHA or Sudan III for any of the activities tested in hamster brain: GSH S-transferase (GST), GSH peroxidase (GSH-Px) and glutathione disulfide (GSSG) reductase (GR). Only 1.3- and 1.4-fold increases of GST and GR activities were observed in liver and no change in any of these enzymatic activities in brain with BHA; a partial limitation of permeability to BHA of the blood-brain barrier may explain this results. Furthermore, Sudan III promoted reductions in all these GSH-related enzymatic activities in brain and liver. The possible explanations for these results are discussed.
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PMID:Reduction of brain antioxidant defense upon treatment with butylated hydroxyanisole (BHA) and Sudan III in Syrian golden hamster. 1076 84


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