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)

Antioxidant response elements (AREs) containing 12-O-tetradecanoylphorbol-13-acetate response element (TRE) (perfect AP1) and TRE-like (imperfect AP1) elements mediate high basal transcription of the NAD(P)H:quinone oxidoreductase1 (NQO1) and glutathione S-transferase Ya genes in tumor cells and its induction in response to xenobiotics and antioxidants. Mutations in the human NQO1 gene ARE (hARE) revealed the requirement for two TRE or TRE-like elements arranged in inverse orientation at the interval of three base pairs and a GC box for optimal expression and beta-naphthoflavone induction of the NQO1 gene. A single TRE element from the human collagenase gene failed to respond to beta-naphthoflavone. These results demonstrate that ARE (2 x TRE or TRE-like elements)-containing detoxifying enzyme genes and not genes that contain 1 x TRE are responsive to xenobiotics and antioxidants. Bandshift assays showed shifting of a complex of more or less similar mobility with hARE and TRE that could be competed by each other. Mutations in the 3'-TRE of the NQO1 gene hARE eliminated binding of nuclear proteins to the hARE and resulted in the loss of basal and induced expression, indicating that 3'-TRE is the most important element within the hARE. 5'-TRE-like element within the NQO1 gene hARE is required for xenobiotic response but may not bind to the nuclear proteins by itself. The GC box located immediately following the 3'-TRE is required for optimal expression and induction of the NQO1 gene. The comparison of AREs from several different genes indicated the requirement for specific arrangement and spacing of two TRE and TRE-like elements within the AREs.
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PMID:ARE- and TRE-mediated regulation of gene expression. Response to xenobiotics and antioxidants. 789 38

The human bladder carcinoma cell line RT112 and the mitomycin C-resistant cell line RT112MMC, derived from RT112 cells, were examined for their expression of NAD(P)H:quinone oxidoreductase (NQOR) and glutathione S-transferases (GSTs). RT112 cells were 40-fold more sensitive towards mitomycin C than RT112MMC cells. The NQOR mRNA level in RT112MMC cells was decreased to 15% as compared to RT112 cells. NQOR enzyme activity was 391 +/- 140 mU/mg protein in RT112 cells, whereas NQOR activity in RT112MMC cells was not measurable. As shown by a fast PCR-based assay and DNA-sequencing, the cell line RT112 is heterozygous, whereas RT112MMC is homozygous for a null allele of the NQOR gene without enzymatic activity. Accordingly, both wild-type and null allele mRNAs were present in RT112 cells, whereas only null allele mRNA was found in RT112MMC. The lack of NQOR enzyme activity in RT112MMC cells was thus associated with loss of heterozygosity at the NQOR locus. By a PCR-RFLP assay, three kidney carcinoma patients without measurable NQOR enzyme activity were shown to be homozygous for the null allele. The PCR assay described here is useful for examination of large numbers of samples. The relative amount of GST-Pi mRNA was decreased by 30% in RT112MMC as compared to RT112, contributing to a diminished level of GST enzyme activity, using CDNB as a substrate, from 95 +/- 62 mU/mg protein in RT112 to 26 +/- 6 mU/mg protein in RT112MMC.
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PMID:Loss of heterozygosity at the NAD(P)H: quinone oxidoreductase locus associated with increased resistance against mitomycin C in a human bladder carcinoma cell line. 794 92

The effects of 1,2,4-trichlorodibenzo-p-dioxin (1,2,4-TrCDD) on drug-metabolizing-enzymes have been studied in male Wistar rats. 1,2,4-TrCDD (0.1 mmol/kg per day) was administered by i.p. injection for 3 days. Among the cytochrome P-450 (P450)-mediated monooxygenase activities tested, 7-ethoxyresorufin O-deethylase, which is associated with CYP1A1, was remarkably induced by 1,2,4-TrCDD (0.1 mmol/kg). The relative induction to control activity was 32.9-fold. Also, 1,2,4-TrCDD increased other CYP1A-mediated monooxygenase activities such as 7-ethoxycoumarin O-deethylase, 4-nitroanisole O-demethylase, 7-methoxyresorufin O-demethylase and caffeine N-demethylase from 5.7- to 1.9-fold. Western immunoblotting showed that the levels of CYP1A1 and CYP1A2 proteins in liver microsomes were increased by 1,2,4-TrCDD. On the other hand, 7-pentoxyresorufin O-depentylase activity was induced 2.6-fold whereas aniline 4-hydroxylase, nitrosodimethylamine N-demethylase and erythromycin N-demethylase activities were increased slightly (1.3-, 1.6- and 1.3-fold, respectively) by 1,2,4-TrCDD. However, aminopyrine N-demethylase was not significantly induced by 1,2,4-TrCDD. Of the Phase II drug-metabolizing enzymes, DT-diaphorase and glutathione S-transferase (GST) activities towards 1-chloro-2,4-dinitrobenzene and 1,2-dichloro-4-nitrobenzene, and those of UDP-glucuronyltransferase (UGT) towards 4-nitrophenol and 7-hydroxycoumarin were increased from 2.7 to 1.4-fold by 1,2,4-TrCDD. These results indicate that 1,2,4-TrCDD induces both Phase I and Phase II drug-metabolizing enzymes in the rat liver.
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PMID:Effect of 1,2,4-trichlorodibenzo-p-dioxin on drug-metabolizing enzymes in the rat liver. 795 69

In the present study, we investigated the effects of high dietary fat on the growth of MX-1 heterotransplanted in athymic mice and its response to mitomycin C (MC) treatment. We found that high fat intake (25% corn oil, w/w) significantly increased tumor growth, but at the same time it also increased the tumor response to MC treatment compared to the control low fat diet (5% corn oil, w/w). In the tumors from mice fed either low (5% w/w) or high (25% w/w) fat, MC treatment induced oxidative challenge, indicated by significantly increased tumor total superoxide dismutase, catalase, glutathione peroxidase, and glutathione S-transferase peroxidase activities, as well as increased tumor lipid peroxidation. On the other hand, glutathione reductase activity was inhibited by MC treatment. Some of the enzymes which are known to activate MC, such as cytochrome b5 reductase and DT-diaphorase, were also induced in the tumor by high dietary fat intake. The enzyme activities in hepatic tissues were also altered by dietary fat and MC treatment but to a lesser extent. We conclude that high dietary fat intake could enhance the chemotherapeutic effect of MC by increasing MC-activating enzyme activities. The observed increase in lipid peroxidation after MC treatment in MX-1 human mammary carcinoma implanted in the nude mice could result from the observed inhibited glutathione reductase activity. It is tempting to speculate that this might be another antineoplastic mechanism for MC in addition to its known role as a bioreductive alkylating agent. Alternatively, glutathione reductase may be a target for bioreductive alkylation.
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PMID:Enhancement of the antineoplastic effect of mitomycin C by dietary fat. 798 42

The effects of Metanil yellow, Orange II and their blend on hepatic xenobiotic metabolizing enzymes were compared. Parenteral administration of Metanil yellow and Orange II to rats at a dose of 80 mg/kg body weight for 3 days caused a significant induction of ethoxyresorufin-O-deethylase (40-190%), aniline hydroxylase (27-92%), aryl hydrocarbon hydroxylase (50-62%) and aminopyrine N-demethylase (42-49%) activities. Metanil yellow and Orange II brought about a substantial increase in cytosolic quinone reductase (34-82%) and glutathione S-transferase (23-43%) activities and significant depletion of glutathione levels with a concomitant increase in lipid peroxide formation. A blend (1:1) of Metanil yellow and Orange II showed a synergistic or additive effect on these hepatic parameters, suggesting that the addition of these two prohibited dyes together in foodstuffs may give rise to more toxic effects than are produced by each dye individually.
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PMID:Effect of metanil yellow, orange II and their blend on hepatic xenobiotic metabolizing enzymes in rats. 804 63

Mitomycin C (MC), a clinically used natural antitumor agent, was shown to form three monoconjugates (11a-13a) and two bisconjugates (14a, 15a) with GSH upon reductive activation by rat liver microsomes, purified NADPH-cytochrome c reductase, or NADH-cytochrome c reductase or chemical reduction using H2/PtO2. Rat liver cytosol/NADH activated MC only at acidic pH (5.8), resulting in the formation of a single GSH-MC monoconjugate, 13a. The reductase responsible for cytosolic activation of MC to form this conjugate was DT-diaphorase. GSH itself did not reduce MC, and unreduced MC did not form conjugates with GSH. A moderate catalytic effect by glutathione S-transferase was demonstrated on the cytosol-activated reaction. Mercaptoethanol and N-acetylcysteine gave analogous sets of five MC-thiol conjugates under cytochrome c reductase or H2/PtO2 activation conditions. The structures of all 15 MC-thiol conjugates (five each with GSH, mercaptoethanol, and N-acetylcysteine, respectively) were determined, using 1H-NMR, UV, and mass spectroscopies, combined with analytical chemical and radiolabeling methods. The mechanism of formation of the conjugates features SN2 displacement of the carbamate of the reduced MC by GS-. The MC-GSH conjugates were noncytotoxic to the tumor cells tested. The conjugation of GSH with activated MC is likely to represent detoxication in mammalian cells. As another effect, GSH accelerates the rate of reduction of MC by "slow" reducing agents such as cytochrome c reductases and H2/PtO2. A mechanism is proposed to explain this effect, which involves further reduction of the initially formed MC semiquinone free radical by GSH.
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PMID:Conjugation of glutathione and other thiols with bioreductively activated mitomycin C. Effect of thiols on the reductive activation rate. 807 71

The class-3 aldehyde dehydrogenase that is overexpressed (> 100-fold) in human breast adenocarcinoma MCF-7/0 cells made resistant (> 30-fold as judged by LC90s) to oxazaphosphorines, such as mafosfamide, by growing them in the presence of polycyclic aromatic hydrocarbons, e.g., methylcholanthrene (3 microM for 5 days), was isolated and characterized. Its physical and catalytic properties were identical to those of the prototypical human stomach mucosa cytosolic class-3 aldehyde dehydrogenase, type-1 ALDH-3, except that it catalyzed, though not very rapidly, the oxidation of aldophosphamide, whereas the stomach mucosa enzyme essentially did not; hence, it was judged to be a slight variant of the prototypical enzyme. Carcinogens that are not ligands for the Ah receptor, barbiturates known to induce hepatic cytochrome P450s, steroid hormones, an antiestrogen, and oxazaphosphorines did not induce the enzyme or the largely oxazaphosphorine-specific acquired resistance. Whereas methylcholanthrene induced (a) resistance to mafosfamide and (b) class-3 aldehyde dehydrogenase activity, as well as glutathione S-transferase and DT-diaphorase activities, in the estrogen receptor-positive MCF-7/0 cells, it did not do so in two other human breast adenocarcinoma cell lines, MDA-MB-231 and SK-BR-3, each of which is estrogen receptor negative. Expression of the class-3 aldehyde dehydrogenase and the loss of sensitivity to mafosfamide by polycyclic aromatic hydrocarbon-treated MCF-7/0 cells were transient; each returned to essentially basal levels within 15 days when the polycyclic aromatic hydrocarbon was removed from the culture medium. Insensitivity to the oxazaphosphorines on the part of polycyclic aromatic hydrocarbon-treated MCF-7/0 cells was not observed when exposure to mafosfamide (30 min) was in the presence of benzaldehyde or octanal, each a relatively good substrate for cytosolic class-3 aldehyde dehydrogenases, whereas it was retained when exposure to mafosfamide was in the presence of acetaldehyde, a relatively poor substrate for these enzymes. These observations demonstrate that ligands for the Ah receptor can induce a transient, largely oxazaphosphorine-specific, acquired cellular resistance, and they are consistent with the notion that elevated levels of a cytosolic class-3 aldehyde dehydrogenase nearly identical to the prototypical type-1 class-3 aldehyde dehydrogenase expressed by human stomach mucosa account for the Ah receptor ligand-induced oxazaphosphorine-specific acquired resistance, most probably by catalyzing the detoxification of aldophosphamide.
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PMID:Identification of a methylcholanthrene-induced aldehyde dehydrogenase in a human breast adenocarcinoma cell line exhibiting oxazaphosphorine-specific acquired resistance. 817 25

Human NAD(P)H:quinone oxidoreductase2 (NQO2) gene, 1336 base pairs (bp) of the 5'-flanking region and 165 bp of the 3'-flanking region, have been sequenced. NQO2 gene is 20 kilobase pairs in length and have seven exons interrupted by six introns as compared to the previously cloned NQO1 gene which contains six exons. 187 bp of the first exon in the NQO2 gene are noncoding and are absent in the NQO1 gene. 92 bp of the second exon in the NQO2 gene corresponded to the first exon of the NQO1 gene and so on. The sizes and nucleotide sequences of exons 3-6 are highly conserved between NQO2 and NQO1 genes. The last exon in the NQO2 gene is 1603 bp shorter than the last exon of the NQO1 gene and encodes for 58 amino acids as compared to 101 amino acids encoded by the NQO1 gene. This makes NQO2 protein 43 amino acids shorter than the NQO1 protein. The high degree of conservation between NQO2 and NQO1 gene organization and sequence confirmed that NQO2 gene encodes for a second member of the NQO gene family in human. Nucleotide sequence analysis of the 5'-flanking region of the NQO2 gene revealed presence of four SP1 binding sites at positions -214, -170, -106, and -75, a single copy of the antioxidant response element (ARE) at nucleotide -936, and three copies of xenobiotic response element (XRE) at positions -708, -557, and -51. ARE and XRE elements have previously been found in the promoters of the NQO1 and glutathione S-transferase Ya subunit genes and mediate increases in their expression in response to polycyclic aromatic compounds, phenolic antioxidants, and 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), respectively. The NQO2 cDNA-derived protein in monkey kidney COS1 cells efficiently catalyzed nitroreduction of anti-tumor compound CB10-200, an analog of nitrophenylaziridine. Northern blot analysis indicates that NQO2 gene is expressed in human heart, brain, lung, liver, and skeletal muscle but does not express in placenta. In contrast, the NQO1 gene was expressed in all human tissues. Large variations were noticed for expression of the NQO2 and NQO1 genes among various tissues, 1336 bp of the 5'-flanking region of the NQO2 gene containing ARE and XRE was found sufficient to increase expression of the CAT gene in response to beta-naphthoflavone and tCDD in transfected human hepatoblastoma (Hep-G2) cells.
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PMID:Human NAD(P)H:quinone oxidoreductase2. Gene structure, activity, and tissue-specific expression. 818 56

The glucosinolate hydrolysis product 1-isothiocyanato-3-(methylsulfinyl)-propane (IMSP), also known as iberin, is consumed in the average human (US) diet at approximately 1 mumol/kg/day. The chemoprotective effects observed with the consumption of cruciferous vegetables may be due to the presence of specific glucosinolate hydrolysis products either within the crucifers, or formed after ingestion of the crucifers. The mechanism of chemoprotection may be through selective induction of components of Phase II xenobiotic metabolizing enzymes. The influence of repeated administration of low concentrations of IMSP by gavage on components of Phase I and Phase II xenobiotic metabolizing systems was examined in the liver and small intestine of male Fischer 344 rats. Doses of 1, 10 and 100 mumol IMSP/kg, administered by gavage for 7 days, did not alter weight gain, or hepatic and renal weights, relative to body weight, and did not cause any histological lesions. Intestinal glutathione S-transferase (GST) activity and NAD(P)H:quinone reductase (QR) activities were significantly elevated to 3.1 and 8.1 times control values, respectively, at the 100 mumol/kg dose only. The administration of IMSP at 1, 10 or 100 mumol/kg had no significant effect on hepatic Phase I enzymes activities (cytochrome P-450 concentrations, ethoxycoumarin O-deethylase [ECD] and aminopyrine N-demethylase [AND] activities) or Phase II enzyme activities (GST, QR and UDP-glucuronosyltransferase [UDP-GT] activities towards 1-naphthol or 4-hydroxybiphenyl), at any of the doses tested and no effect on intestinal enzyme activities at doses below 100 mumol IMSP/kg. It is concluded that IMSP does not have a significant influence on induction of the Phase I or Phase II xenobiotic metabolizing enzymes in rats when tested at doses approximating those found in the human diet.
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PMID:Effects of 1-isothiocyanato-3-(methylsulfinyl)-propane on xenobiotic metabolizing enzymes in rats. 822 30

Induction of glutathione S-transferase Ya and NAD(P)H:quinone reductase gene expression by a variety of chemical agents is mediated by regulatory elements, EpRE and ARE, composed of two adjacent AP-1-like binding sites and activated by Fos/Jun heterodimeric complex (AP-1). Recent studies show that chemical induction of glutathione S transferase Ya and quinone reductase gene expression is associated with an induction of c-fos and c-jun gene expression and AP-1 binding activity. In this report we present evidence that the AP-1 binding activity and the expression of chloramphenicol acetyltransferase activity from an EpRE Ya-cat gene construct are induced by an increase in intracellular oxidant levels. We observe that lowering the glutathione levels with buthionine sulfoximine, an inhibitor of gamma-glutamylcysteine synthetase, or diamide, a thiol-oxidizing agent, stimulates both basal and chemical-inducible expression of chloramphenicol acetyltransferase activity from EpRE Ya-cat and the AP-1 binding activity. Furthermore, we observe that the induction of these activities by a variety of chemical agents is inhibited by thiol compounds N-acetylcysteine and glutathione. These findings suggest that diverse chemicals that induce the AP-1 complex, leading to the AP-1-mediated transcriptional activation of glutathione S-transferase Ya gene expression, may act through a common mechanism involving the production of reactive oxygen species and depletion of reduced glutathione.
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PMID:Intracellular glutathione levels regulate Fos/Jun induction and activation of glutathione S-transferase gene expression. 826 58


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