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: UMLS:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The distribution of 4-nitroquinoline 1-oxide (4-NQO) reductase, assumed to be closely related to the carcinogenesis of 4-NQO, was investigated in the mucosa of canine digestive tract, and its results indicated following points. 1) The activity of 4-NQO reductase was highest in the esophagus, next in the stomach, and remarkably low in the small and large intestines. 2) There is no significant difference in the 4-NQO reductase activity between the upper, middle, and lower portion of the esophagus, but its activity was higher in the female than in the male in its upper and middle portions. 3) Among the esophageal tissue, its activity was high only in the mucous epithelium and very low in all other layers. 4) Most of the enzymic activity in the esophageal mucosa existed in the cytosol fraction and activity of the microsome fraction was remarkably low. Even if NADPH or NADH was used as the hydrogen donor, its activity was not different in the cytosol fraction, but the former was a better hydrogen donor in the microsome fraction. 5) In the gastric mucosa, the enzymic activity was equally high in various portions of the corpus ventriculi; the greater and lesser curvatures, anterior and posterior parietes, and fundus. It was remarkably low only in the pyloric antrum.
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PMID:Distribution of 4-nitroquinoline 1-oxide reductase in the mucosa of canine digestive tract. 9 82

Parenchymal hepatocytes isolated from adult rats were cultured on three types of collagen-containing substrata: collagen-coated plates, collagen membranes and confluent diploid human fibroblasts. Hepatocytes on the latter two substrata maintained characteristic morphology for at least 10 days in culture, whereas degenerative changes (cell death and formation of multinucleated hepatocytes) and growth of nonparenchymal elements were seen after 5 days in cultures on collagen-coated plates. Parallel findings were seen on basal and induced levels of cytochrome P-450 and NADPH-cytochrome C reductase. The basal levels of cytochrome P-450 were not measurable after day 3 in hepatocytes cultured on collagen-coated plates, whereas measurable levels were maintained in the hepatocytes cultured on the other two substrata. Addition of phenobarbital or methylcholanthrene at day 5 in culture caused an increase in cytochromes P-450 and P-448, respectively, only in hepatocytes cultured on collagen membranes and confluent fibroblasts. Analogous results were seen for the enzyme NADPH-cytochrome C reductase. The similarities in performance between hepatocytes on collagen membranes and on human fibroblasts show that a continuous collagen-containing substratum is important for optimal performance of hepatocytes in primary culture. The possible importance of cultures of hepatocytes on human fibroblasts for carcinogenesis studies is discussed.
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PMID:Primary cultures of hepatocytes on human fibroblasts. 11 6

In vivo administration to rats of the mixed-function oxidase modifiers 3-methylcholanthrene (MC), pregnenolone-16 alpha-carbonitrile (PCN) or beta-naphthoflavnoe (beta-f) inhibits the hepatic microsome-catalyzed in vitro binding of dimethylnitrosamine (DMN) to DNA. This parallels their effect on DMN-demethylase I, regarded to be the sole activating step in DMN carcinogenesis and fails to account for the previously observed anomaly that MC and PCN inhibit, while beta-NF enhances, the hepatocarcinogenic activity of DMN. The in vitro binding of DMN is clearly dependent on microsomes and NADPH, and is strongly enhanced by soluble cytoplasmic proteins; the presence of the latter has no effect. however, on the relative response to pretreatment by the modifiers. In mice beta-NF enhances and PCN inhibits DMN-demethylase I; beta-NF has no effect on either the cytochrome P-450 level or on the LD50, while PCN strongly increases the cytochrome P-450 level but without influencing the LD50. Neither of the two modifiers has any effect in mice on the host-mediated mutagenicity of DMN in a dose-response study, except for the highest dose of DMN (200 mg/kg) where PCN pretreatment significantly enhanced mutagenicity. To account for the anomalous observations, other potential pathways of DMN metabolism have been explored. Whole rat liver nuclei or isolated nuclear membrane fractions contain no DMN-demethylase or diethylnitrosamine-deethylase activity. In a microsomal mixed-function amine-oxidase assay system neither purified enzyme preparations nor whole microsomes catalyze NADPH oxidation in the presence of DMN as substrate. In addition, the purified enzyme does not catalyze formaldehyde production in the DMN-demethylase assay system. Benzylamine, a typical inhibitor of mitochondrial monoamine oxidase (MAO), is a potent inhibitor of DMN-demethylase activity, but microsomes are devoid of MAO activity. Furthermore, purified MAO has no DMN-demethylase activity. The differential effect of modifiers on the carcinogenicity of DMN probably involves pathways other than DMN metabolism.
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PMID:Role of dimethylnitrosamine-demethylase in the metabolic activation of dimethylinitrosamine. 49 63

2-Acetylaminofluorene (AAF) was highly mutagenic to Salmonella typhimurium strain TA98, when activated by a liver post-mitochondrial supernatant fraction (S9 fraction) from guinea-pigs, in spite of the resistance of this species to AAF carcinogenesis and the low capacity of the liver of this species for N-hydroxylation of AAF. The mutagenicity was comparable to or higher than that resulting from activation by mouse- or rat-liver S9 fraction, and was not enchanced by treatment with cytochrome P-450 inducers, a combination of phenobarbital and 5,6-benzoflavone. In an attempt to understand this unexpected result we examined whether a cytochrome P-450 mixed-function oxidase system participated in the mutagenic activation of AAF by guinea-pig liver, as it does in the case of mouse liver. The mutagenic activation was: (1) completely dependent on the addition of a co-factor, NADPH, to the mutation assay system, (2) completely suppressed by antiserum against NADPH--cytochrome c reductase, and (3) sensitive to a cytochrome P-450 inhibitor, 7,8-benzoflavone. These results indicate that the cytochrome P-450 enzyme system is essentially involved even in the mutagenic activation of AAF by guinea-pig-liver S9 fraction. Based on both the present and other data, the mechanism of the mutagenic activation is discussed to explain the observed high mutagenic potential of AAF in the presence of guinea-pig-liver S9 fraction.
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PMID:Mutagenic activation of 2-acetylaminofluorene by guinea-pig liver homogenates: essential involvement of cytochrome P-450 mixed-function oxidases. 57 15

Highly purified cytochrome P-450 reductase (also called cytochrome c reductase; EC 1.6.2.4.) and NADPH were used to generate superoxide radical (O2.-) from 11 different heterocyclic amines (HCAs) as identified by electron spin resonance spectroscopy using the spin trapping method with 5,5-dimethyl-1-pyrroline N-oxide (DMPO). The signal intensity of DMPO-OOH(-O2-) (i.e., the DMPO spin adduct of O2.-) was strongest for 2-amino-3,4-dimethylimidazo[4,5-f]quinoline (MeIQ). The O2.- generation with HCAs decreased in the following order: 2-amino-3,8-dimethyl-imidazo[4,5-f]quinoxaline (MeIQx) = 2-amino-3-methylimidazo[4,5-f]quinoline (IQ) > 2-amino-3,4,8-trimethylimidazo[4,5-f]quinoxaline (diMeIQx) > or = other HCAs; O2.- generation was lowest with 2-amino-3-methyl-9H-pyrido[2,3-b]indole .CH3COOH (MeA alpha C). By using Lineweaver-Burk plots, Km values of cytochrome P-450 reductase for mitomycin C, IQ, and MeIQ were determined to be 1.60 x 10(-6) M, 1.97 x 10(-5) M, and 2.83 x 10(-6) M, respectively. The present findings have important implications for carcinogenesis because of the known effect of oxygen radicals on cell proliferation.
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PMID:Evidence of direct generation of oxygen free radicals from heterocyclic amines by NADPH/cytochrome P-450 reductase in vitro. 133 93

Incubation of rat liver cytosolic or microsomal fractions with chromium(VI) led to a dramatic decrease in chromium(VI) mutagenicity, as determined by the Ames Salmonella assay using the TA100 tester strain. The cytosol-dependent decrease in chromium(VI) mutagenicity was found to be counteracted in the presence of dicumarol, an inhibitor of the cytosolic enzyme NAD(P)H:quinone oxidoreductase (DT-diaphorase). In order to determine whether DT-diaphorase is a significant factor in enzymatic reduction of chromium(VI) in rat liver tissue, cytosolic and microsomal fractions were analyzed for NAD(P)H-dependent chromium (VI) reductase activity leading to chromium(V) formation by using electron paramagnetic resonance (EPR) spectroscopy. Reaction of chromium(VI) with NADH or NADPH in the presence of either cytosolic or microsomal fractions led to the formation of stable chromium(V)--NAD(P)H complexes. When glucose 6-phosphate (G6P) was present in the reaction as part of a NADPH-generating system, stable chromium(V)--G6P complexes were formed in addition to the chromium(V)--NAD(P)H complexes. The chromium(V) complexes had g values of 1.980-1.982 and superhyperfine splitting constants of 0.8-0.9 characteristic of bis(diol)oxochromium(V) complexes. Inhibition of 90% of the cytosolic DT-diaphorase activity by dicumarol led to only partial (20-22%) inhibition of chromium(V) formation. Visible and EPR spectroscopic studies showed that purified DT-diaphorase had no detectable chromium(VI) reductase activity and did not catalyze formation of chromium(V). Inhibition of 69% of microsomal aryl hydrocarbon hydroxylase activity by ketoconazole led to partial (10%) inhibition of chromium(V) formation. These results indicate that intracellular NAD(P)H-dependent enzymatic reduction of chromium(VI) in rat liver cannot be attributed to the activity of any one enzyme in the cytosolic or microsomal fractions. DT-diaphorase appears to play an indirect role in decreasing chromium(VI)-induced mutagenicity in Salmonella, possibly through interaction with other redox active cellular components. The involvement of diols such as sugars and pyridine nucleotides in stabilizing intracellularly generated chromium(V) is discussed.
Carcinogenesis 1992 Jul
PMID:Reduction of chromium(VI) to chromium(V) by rat liver cytosolic and microsomal fractions: is DT-diaphorase involved? 137 26

Characterization of enzymes mediating the formation of catecholestrogens (CE) by hamster kidney is of importance because of the proposed role of CE in renal cancer induced in this species by estrogens. We have reexamined the potential of hamster kidney to convert estradiol (E2) to 2- and 4-hydroxylated CE because of recent evidence of the limitations of assays used in previous studies, in particular in measuring 4-hydroxylation of estrogens. Under conditions optimized for NADPH-dependent activity, hamster kidney microsomes exhibited high levels of both E2-2- and E2-4-hydroxylase activities. Evidence that the two activities depend on different forms of cytochrome P-450 was obtained by the demonstration that 2- and 4-hydroxylation of E2 were affected differentially 1) by chronic treatment of hamsters with E2 and 2) by fadrozole hydrochloride, a selective cytochrome P-450 inhibitor. NADPH-dependent 2-hydroxylation of E2 from control and E2-treated hamsters, measured by a direct product isolation assay, was 1 order of magnitude higher (apparent maximum velocity, 24-32 and 6-12.5 pmol/mg protein.min in control and E2-treated hamsters, respectively) than that reported previously using radioenzymatic assays. NADPH-dependent 4-hydroxylation of E2 in controls approached and in E2-treated hamsters exceeded 2-hydroxylation of E2 (apparent maximum velocity, 17-21 and 7.5-19 pmol/mg protein.min in control and E2-treated hamsters, respectively). Thus, estrogen treatment reversed the ratios of NADPH-dependent E2-2-/4-hydroxylase activities by causing a much greater decline in 2- than 4-hydroxylation of E2 (P less than 0.007, by analysis of variance). Fadrozole hydrochloride caused a marked dose-dependent decrease in 2-hydroxylation of E2, in contrast to a small nondose-dependent inhibition of 4-hydroxylation. Under conditions optimized for peroxidatic organic hydroperoxide-dependent activity, hamster kidney microsomes generated 2- and 4-hydroxylated CE in similar amounts. The amounts of the two CE and, consequently, the ratios remained unaffected by estrogen treatment (1:0.9 and 1:1.0 in control and E2-treated hamsters, respectively). Thus, this study establishes that CE can be generated in the same tissue by three different pathways, i.e. NADPH-dependent E2-2-hydroxylase, NADPH-dependent E2-4-hydroxylase, and organic hydroperoxide-dependent E2-2/4-hydroxylase activities. We also show that these three activities can be regulated differentially and are, thus, probably mediated by different forms of cytochrome P-450. In hamster kidney, the potential to generate 4-hydroxylated CE metabolites with distinct properties could be a factor in this tissue's vulnerability to estrogen-induced carcinogenesis.
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PMID:Elevated 4-hydroxylation of estradiol by hamster kidney microsomes: a potential pathway of metabolic activation of estrogens. 138 3

Dihydrodiol dehydrogenase (DD; EC 1.3.1.20) purified to homogeneity from rat liver cytosol will catalyze the NAD(P)(+)-dependent oxidation of (+/-)-trans-7,8-dihydroxy-7,8-dihydrobenzo[a]pyrene (B[a]P-diol) to yield benzo[a]pyrene-7,8-dione (BPQ). To verify that BPQ is a metabolite of B[a]P-diol in rat liver, an S100 fraction was supplemented with NAD+ and NADP+, and the formation of BPQ was followed by reverse-phase HPLC. The identity of BPQ was established by co-chromatography with an authentic standard (under different solvent conditions) and by RP-HPLC using a diode-array detector which established that the metabolite shared spectral identity with BPQ. The formation of BPQ in the S100 fraction was blocked by either a competitive inhibitor (indomethacin) or a suicide substrate [1-(4-nitrophenyl)-propen-1-ol] for DD, indicating that BPQ was being formed by this enzyme. To assess the contribution of DD to the metabolism of [3H]B[a]P-diol, subcellular fractions obtained from uninduced rat liver were fortified with co-factors to optimize the activity of enzymes that would compete for this proximate carcinogen. Under these conditions, S100 fractions fortified with NAD+ and NADP+ metabolized 25% of the B[a]P-diol, producing 731 +/- 154 pmol of BPQ. In contrast, rat liver microsomes fortified with an NADPH generating system metabolize 75% of the B[a]P-diol producing 2614 +/- 379 pmoles of benzo[a]pyrene-tetrahydrotetrols. Rat liver homogenates (S10) fortified with either uridine diphosphoglucuronic acid or phosphoadenosine phosphosulfate produced 180 +/- 56 and 95 +/- 31 pmoles of conjugates respectively, which were recovered as B[a]P-diol after treatment of the aqueous phase with either beta-glucuronidase or aryl sulfatase. Of the metabolites analyzed BPQ was formed in the second largest amount. These studies show that in uninduced rat liver DD may play a significant role in the metabolism of B[a]P-diol. The metabolic fate of BPQ remains to be determined.
Carcinogenesis 1992 Sep
PMID:Contribution of dihydrodiol dehydrogenase to the metabolism of (+/-)-trans-7,8-dihydroxy-7,8-dihydrobenzo[a]pyrene in fortified rat liver subcellular fractions. 139 42

It has been previously reported that the reactive metabolites phenylsemiquinone and phenylbenzoquinone are generated during microsomal cytochrome P450-catalyzed redox cycling of o-phenylphenol (OPP). However, covalent modification of DNA by OPP-reactive metabolites has yet not been demonstrated. In the present study we have investigated the covalent binding in DNA by OPP-reactive metabolites using 32P-postlabeling. Analysis of adducts by 32P-postlabeling in products of chemical reaction of DNA with phenylbenzoquinone revealed four major and several minor adducts. The chemical reaction of deoxyguanosine 3'-phosphate with phenylbenzoquinone also showed four major adducts. The chromatographic mobility of major adducts of deoxyguanosine 3'-phosphate-phenylbenzoquinone was identical to that of major adducts of DNA-phenylbenzoquinone. The major adducts are demonstrated to be stable. The total covalent binding in deoxyguanosine 3'-phosphate by phenylbenzoquinone (686,000-687,000 amol/nmol nucleotide) was higher than that observed in DNA (26,500-28,000 amol/nmol nucleotides). Reaction of DNA with OPP or a hydroxylated metabolite of OPP, phenylhydroquinone, in the presence of microsomes and NADPH or cumene hydroperoxide showed four major adducts. Adduct formation in DNA by OPP or phenylhydroquinone in the presence of the microsomal activation system was drastically decreased by known inhibitors of cytochrome P450. The chromatographic mobility of major adducts in DNA by OPP or phenylhydroquinone in the presence of microsomal activation system matched with those major adducts observed in deoxyguanosine 3'-phosphate or DNA reacted with pure phenylbenzoquinone. These data demonstrate that OPP or phenylhydroquinone, a hydroxylated metabolite of OPP, is able to bind covalently to DNA in the presence of a microsomal cytochrome P450 activation system. Phenylbenzoquinone is one of the DNA-binding metabolite(s) of OPP. It is concluded that OPP is genotoxic in an in vitro system and genotoxicity produced by OPP-reactive metabolites may play a role in OPP-induced cellular toxicity or cancer.
Carcinogenesis 1992 Sep
PMID:Examination of microsomal cytochrome P450-catalyzed in vitro activation of o-phenylphenol to DNA binding metabolite(s) by 32P-postlabeling technique. 139 45

The significance of the nonspecific esterases of human mononuclear leukocytes (HMLs) in arylamine carcinogenesis is suggested by data showing that the metabolically formed hydroxamic acid derivative of 2-acetylaminofluorene, N-hydroxy-2-acetylaminofluorene, is a substrate for this class of enzymes. A viable cell assay for the nonspecific esterases using alpha-naphthyl acetate as substrate is described, and data showing this activity to be sensitive to already known substrates for HML esterases as measured by three previously described assays are presented. All four assays of the same esterase activity are shown to be highly sensitive to up- and down-regulation by addition of NADPH or NADP to viable HML cultures. Selective activation of a purified rabbit nonspecific esterase by NADPH, but not by the other cellular reductants, NADH and glutathione, was demonstrated. Cytosols prepared from normal human tissue samples of liver, breast, colon, and brain were also activated by the presence of NADPH. These data do not indicate that steroidal nonspecific esterases are redox-modulated by the presence of mixed disulfides in their structure. Instead, they support the direct and specific influence of NADPH as a widespread activator of esterase activity by a mechanism not yet understood.
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PMID:Steroidal nonspecific esterase metabolism of N-hydroxy-2-acetylaminofluorene: evidence for selective activation by the cellular reductant NADPH. 143 49


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