Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.6.5.2 (NQO1)
 6,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oltipraz [5-(2-pyrazinyl)-4-methyl-1,2-dithiole-3-thione], a substituted 1,2-dithiole-3-thione, protects against the acute and chronic toxicities of many xenobiotics and prevents chemically induced carcinogenicity in several target organs of rodents. The effects of dietary oltipraz, fed during the initiation and postinitiation stages, on azoxymethane-induced colon carcinogenesis and on the levels of several detoxifying enzymes, namely, glutathione S-transferase, NAD(P)H:quinone reductase, and UDP-glucurinyl transferase activities, were studied in male F344 rats. At 5 weeks of age, groups of animals were fed the control diet (modified AIN-76A diet) or a diet containing 200 ppm (40% maximum tolerated dose) of oltipraz. At 7 weeks of age, all animals except those in the vehicle (normal saline solution)-treated groups were given two weekly s.c. injections of azoxymethane at a dose of 15 mg/kg body weight. Three days after the second injection of azoxymethane, the groups of animals fed the oltipraz diet were transferred to the control diet (termed the initiation period) and the groups of animals receiving the control diet were transferred to the oltipraz diet (termed the postinitiation period). All groups were continued on this regimen until the termination of the experiment at 52 weeks after the carcinogen treatment. Intestinal tumors were evaluated histopathologically using routine procedures. Liver, colonic mucosa, and tumors were analyzed for glutathione S-transferase, NAD(P)H:quinone reductase, and UDP-glucurinyl transferase activities. The results indicate that oltipraz administered during the initiation stage significantly inhibited the incidence and multiplicity of invasive adenocarcinomas of the colon (P < 0.001), as well as the multiplicity of invasive and noninvasive adenocarcinomas (P < 0.01). Feeding of oltipraz during the postinitiation phase completely suppressed the formation of invasive adenocarcinomas (P < 0.0001) and significantly inhibited the formation of noninvasive and total adenocarcinomas, as well as the multiplicity (tumors/tumor-bearing animal, P < 0.001). Furthermore, oltipraz significantly suppressed the tumor volume when administered during the initiation phase (> 80%) or the postinitiation (> 93%) phase. Animals fed the oltipraz diet during the postinitiation stage showed increased levels of glutathione S-transferase, NAD(P)H:quinone reductase, and UDP-glucurinyl transferase activities (2-6-fold). Although the precise mechanism by which oltipraz inhibits colon tumor initiation and/or promotion remains to be elucidated, it is likely that the effect during the initiation stage may be due to an alteration of carcinogen metabolism.
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PMID:Chemopreventive effect of oltipraz during different stages of experimental colon carcinogenesis induced by azoxymethane in male F344 rats. 849 12

One of the major mechanism of chemical protection against mutagenesis, carcinogenesis and other forms of toxicity is the induction of phase-II metabolizing enzymes such as UDP-glucuronosyl transferases, glutathione S-transferases and NAD(P)H quinone reductase, or inhibition of typical phase-I reactions. The use of selective inducers of conjugating enzymes or inhibitors of CYP- and FAD-dependent monooxygenases revealed the possibility of reducing the expression of certain forms of malignancy. However, the use of some anti-initiating entities devised to reduce tumor initiation, seems to receive invalidated justification. Indeed, considering the double edge-sword nature (activating or detoxifying) of drug metabolizing enzymes as well as the myriad of xenobiotics to which human is exposed, any attempt to modulate such catalysts by dietary components (including drugs) could lead to an increased cancer risk. Paradoxically, it has been recently proposed the use of metabolizing liver preparations, isolated from phase-II induced rodents, as a novel bioactivating model in the field of genetic toxicology. Exogenous microsomal (S9) fraction prepared from 2-(3)-tert-butyl-4-hydroxyanisole (BHA) (monofunctional post-oxidative inducer) treated mice are able to increase the DNA binding and genotoxic response of pre-mutagens. On the whole, the use of enzyme modulators in cancer chemoprevention, for their ability to simultaneously reduce or increase pre-carcinogen bioactivation, should be carefully reconsidered.
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PMID:The pitfall of detoxifying enzymes. 967 74

Resveratrol (Resv), a natural occurring phytolexin present in grapes and other foods, possesses chemopreventive effects revealed by its striking modulation of diverse cellular events associated with tumor initiation, promotion, and progression. Catechol estrogens generated in the metabolism of estrogens are oxidized to catechol quinones that react with DNA to form predominantly depurinating estrogen-DNA adducts. This event can generate the mutations responsible for cancer initiation. In this regard, Resv acts as both an antioxidant and an inducer of the phase II enzyme NAD(P)H:quinone oxidoreductase 1 (NQO1). In this report, we present the effects of Resv on the metabolism of estrogens in normal breast epithelial cells (MCF-10F) treated with 4-hydroxyestradiol (4-OHE(2)) or estradiol-3,4-quinone (E(2)-3,4-Q). Resv induced NQO1 in a dose- and time-dependent manner, but did not affect the expression of catechol-O-methyltransferase. Ultraperformance liquid chromatography/tandem mass spectrometry was used to determine the effects of Resv on estrogen metabolism. Preincubation of the cells with Resv for 48 h decreased the formation of depurinating estrogen-DNA adducts from 4-OHE(2) or E(2)-3,4-Q and increased formation of methoxycatechol estrogens. When Resv was also present with the 4-OHE(2) or E(2)-3,4-Q, even greater increases in methoxycatechol estrogens were observed, and the DNA adducts were undetectable. We conclude that Resv can protect breast cells from carcinogenic estrogen metabolites, suggesting that it could be used in breast cancer prevention.
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PMID:Prevention of estrogen-DNA adduct formation in MCF-10F cells by resveratrol. 1842 13

Identifying agents that block tumor initiation is a goal of cancer prevention. The ability of a chemically varied group of agents to induce various drug metabolizing genes in livers of rats was examined. Sprague-Dawley rats were treated for 7 days with various agents in the diet or by gavage. The agents examined, which might be expected to respond via specific nuclear receptors (CAR, AhR) as well as antioxidant response elements (AREs), included Phase I/II inducers [5,6-benzoflavone (BF, 5000mg/kg diet), diallyl sulfide (DAS, 500mg/kg BW/day), ethoxyquin (EXO, 300mg/kg BW/day) and phenobarbital (PB, 500mg/kg diet)] or pure Phase II inducers [1,2-dithiol-3-thione (DTT, 500mg/kg diet), and cyclopentadithiolthione (CPDTT, 175mg/kg BW/day)]. Liver RNA expression was analyzed employing oligonucleotide microarrays. The agents yielded unique expression profiles. In genes with known AREs, the induction ratios (Levels Treated/Levels Controls) were: quinone oxidoreductase (BF, 8:1; DTT, 3.2:1; CPDTT, 3:1; DAS, 1.8:1; Exo, 1.7:1), glutatione transferase Pi (DTT, 36:1; CPDTT, 34:1; EXO, 8:1; DAS, 5:1; BF, 2.5:1), and aldehyde keto reductase 7A3 (AFAR) (DTT and CPDTT, 14:1; DAS, 6:1; EXO, 4:1; PB, 1.5:1). When the search included a wider variety of Phase II drug metabolizing enzymes, no clear pattern was observed. Agent induced gene expression and preventive activity in published carcinogen induced tumor models showed limited correlation; questioning whether measuring the induction of one or two genes (e.g., quinone reductase) is a surrogate for overall Phase II inducing (antioxidant) and potential anti-tumor activity.
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PMID:Induced expression of drug metabolizing enzymes by preventive agents: role of the antioxidant response element. 1969 38

Cancer chemoprevention is thought to occur either by blocking the initiation of or suppressing the promotion of carcinogenesis. Phase II detoxification enzymes are known to play important roles in cancer chemoprevention because they enhance cytoprotection through detoxification and elimination of activated carcinogens at tumor initiation. Apoptosis is one of the most important inhibitory targets for tumor promotion. In this study, we have investigated the cancer chemopreventive activity of the ethanolic extract of Carpesium abrotanoides (CAE). We found that CAE induced quinone reductase [also known as NAD(P)H:quinone oxidoreductase (NQO1)] activity, increased NQO1 mRNA and protein expression, and had a relatively high chemoprevention index (12.04). CAE also significantly activated the antioxidant response element through the nuclear accumulation of NF-E2-related factor 2 in HCT116. Interestingly, we also found that CAE induced apoptosis, as evidenced by the externalization of phosphatidylserine, increased sub-G(0)/G(1) content, chromatin condensation, poly(ADP-ribose) polymerase cleavage, and p53. These data suggest that the chemopreventive effects of C. abrotanoides can result from both the induction of phase II detoxification enzymes and from apoptosis. Thus, CAE could potentially be developed as a cancer chemopreventive agent for prevention or treatment of human cancers.
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PMID:The chemopreventive effects of Carpesium abrotanoides are mediated by induction of phase II detoxification enzymes and apoptosis in human colorectal cancer cells. 2013 34

Phase II detoxification enzymes are known to play essential roles in the detoxification and elimination of activated carcinogens during tumor initiation, while apoptosis is one of the most important chemopreventive targets for inhibiting tumor promotion in cancer. In this study, we investigated the cancer chemopreventive activity of two plant extracts, the ethanolic extract of Adenocaulon himalaicum (AHE) and the butanolic fraction of AHE (AHB). Both, the AHE and AHB induced NQO1 activity and had relatively high chemoprevention indices (CI=12.4). The AHE and AHB were associated with increased NQO1 and HO-1 mRNA levels via Nrf2-ARE pathway activation. In addition, the AHB increased CYP1A1 activity through AhR-XRE pathway activation. We also found that the AHE and AHB induced apoptosis, as evidenced by phosphatidylserine externalization, an increase in the sub-G0/G1 content, chromatin condensation, poly(ADP-ribose) polymerase cleavage, and p53 induction. These data suggest that AHE and AHB act as bifunctional inducers and that their chemopreventive effects result from the biphasic induction of phase II detoxification enzymes and apoptosis. Therefore, these results suggest that A. himalaicum plant extracts have potential for use as chemopreventive agents for the prevention and/or treatment of human cancers.
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PMID:Bifunctional chemopreventive effects of Adenocaulon himalaicum through induction of detoxification enzymes and apoptosis. 2395 54