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 tobacco-specific carcinogen 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK) induces lung tumors in rats, mice, and hamsters, and metabolic activation is required for the carcinogenicity. 2-Phenethyl isothiocyanate (PEITC), whose precursor gluconasturtiin (a glucosinolate) occurs in cruciferous vegetables, has been found to inhibit carcinogenesis by NNK. The purpose of the study was to investigate the enzymes involved in the metabolism of NNK in lung microsomes and to elucidate the mechanisms of inhibition of NNK metabolism by isothiocyanates. NNK metabolism in lung microsomes (isolated from female A/J mice) resulted in the formation of formaldehyde, 4-hydroxy-1-(3-pyridyl)-1-butanone (keto alcohol), 4-oxo-4-(3-pyridyl)butyric acid (keto acid), 4-(methylnitrosamino)-1-(3-pyridyl-N-oxide)-1-butanone, and 4-(methyl-nitrosamino)-1-(3-pyridyl)-1-butanol, displaying apparent Km values of 5.6, 5.6, 9.2, 4.7, and 2540 microM, respectively. Higher Km values in the formation of formaldehyde and keto alcohol were also observed. When cytochrome P-450 inhibitors [2-(diethylamino)ethyl 2,2-diphenylpentenoate] hydrochloride (100 microM), carbon monoxide (90%), and 9-hydroxyellipticine (10 microM) were used, NNK metabolism was inhibited by each 70, 100, and 30%, respectively. Methimazole (1 mM), an inhibitor of the flavin-dependent monooxygenase, inhibited the formation of 4-(methyl-nitrosamino)-1-(3-pyridyl-N-oxide)-1-butanone and 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol by 20%, but had no effect on the formation of keto alcohol. Inhibitory antibodies against cytochromes P-450IIB1 and -2, P-450IA1, and P-450IA2 inhibited the formation of keto alcohol by 25, 15, and 0%, respectively. Administration of PEITC at doses of 5 and 25 mumol/mouse 2 h before sacrifice produced a 40 and 70% decrease in microsomal NNK metabolism, respectively. PEITC and 3-phenylpropyl isothiocyanate exhibited a mixed type of inhibition, and the competitive component of inhibition had apparent Ki values of 90 and 30 nM, respectively. Preincubation of PEITC in the presence of a NADPH-generating system did not result in a further decrease in the formation of NNK metabolites, indicating that the metabolism of PEITC was not required for the inhibition. When a series of isothiocyanates with varying alkyl chain length (phenyl isothiocyanate, benzyl isothiocyanate, PEITC, 3-phenylpropyl isothiocyanate, and 4-phenylbutyl isothiocyanate) were used, the potency of the inhibition increased with the increase in chain length.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metabolism of 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone in mouse lung microsomes and its inhibition by isothiocyanates. 220 46

Rat liver microsomes metabolized the food mutagen 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) to the genotoxic metabolite 2-hydroxamino-1-methyl-6-phenylimidazo[4,5-b]pyridine (2-hydroxamino-PhIP) and to the detoxified product 2-amino-4'-hydroxy-1-methyl-6-phenylimidazo[4,5-b]pyridine (4'-hydroxy-PhIP). A 25-fold higher rate of metabolism was measured in microsomes from polychlorinated-biphenyl-treated rats (94 nmol/mg proteins/30 min) in comparison with those from untreated rats. Other effective inducers of PhIP metabolism were beta-naphthoflavone and isosafrole (ISF), whereas phenobarbital was ineffective. About twice as much 2-hydroxamino-PhIP as 4'-hydroxy-PhIP was formed in microsomes irrespective of the inducer the rats had been treated with. The metabolism was dependent on NADPH and was abolished by the cytochrome P450 inhibitor alpha-naphthoflavone. In a reconstituted enzyme system purified rat cytochrome P450 IA2 (P450ISF-G) had the highest N-hydroxylation rate (30 nmol/nmol P450/30 min) closely followed by the rat cytochrome P450 IA1 (P450BNF-B). Less activity was seen with rat P450 IIC11 (P450UT-A) and rabbit P450 IA2 (P450 LM4). Rat P450 IIE1 (P450j), P450 IIB1 (P450PB-B) and rabbit P450 IIB4 (P450 LM-2) and P450 IIE1 (P450 LM3a) were essentially inactive. Rat P450 IA1 (P450BNF-B) produced five times more 4'-hydroxy-PhIP (32 +/- 2 nmol/nmol P450/30 min) than did P450 IA2 (P450ISF-G). Hence, the measured ratio of activation to detoxication for rat P450 IA2 (P450ISF-G) enzyme was 7-fold higher than that of the other active P450 enzymes.
Carcinogenesis 1990 Mar
PMID:Differential rates of metabolic activation and detoxication of the food mutagen 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine by different cytochrome P450 enzymes. 231 Nov 93

A major metabolic fate of 1-methyl-2-nitro-1-nitrosoguanidine (MNNG) and nitrosocimetidine (NC) in rodents is denitrosation to generate the unmodified, parent guanidinium compound. MNNG is a potent, locally-acting carcinogen. NC is the nitrosated derivative of cimetidine, an important clinical drug administered orally for the treatment of stomach ulcers. Contrary to expectations based on the results of various short-term in vitro tests for carcinogenic potential, NC is not a carcinogen when administered to rats or mice. Rat liver microsomal enzymes have been found to be capable of catalyzing the denitrosation of MNNG, NC and an NC analog, 1,3-dimethyl-2-cyano-1-nitrosoguanidine (CyanoDMNG) in an NADPH-dependent reaction. The denitrosated guanidinium compound generated accounts for 50-70% of the nitroso compound metabolized in a microsomal incubate; nitrite is generated with a yield which represents 40-60% of the guanidinium compound produced. The cytochrome P450 inhibitors metyrapone, n-octylamine, 1-n-hexylimidazole and ellipticine inhibit the conversion of CyanoDMNG to 1,3-dimethyl-2-cyanoguanidine (Cyano-DMG) and nitrite. Microsomal NADPH-cytochrome c reductase activity is not perturbed by this series of organic compound inhibitors. Diethyl maleate at high concentrations weakly stimulates the reaction. The rates of production of the CyanoDMNG degradation products CyanoDMG, nitrite and nitrate are markedly diminished in nitrogen-saturated and in carbon dioxide-saturated microsomal incubates. Preincubating microsomes for 1 h at 37 degrees C prior to substrate and NADPH addition has no effect on the denitrosation activity. Kinetic analysis of the conversion of CyanoDMNG to CyanoDMG indicates a Km of 1.0 mM and a Vmax of 2.7 nmol/min/mg protein. Microsomes isolated from rats pretreated with the cytochrome P450 inducers pyrazole or phenobarbital show enhanced denitrosation activity. The denitrosation capacity of hamster liver microsomes is similar to that observed for rat microsomes.
Carcinogenesis 1990 Jul
PMID:Microsomally-mediated denitrosation of nitrosoguanidinium compounds. 237 67

The products formed in the metabolism of 3-methylcholanthrylene (3MCE), either in the presence or in the absence of an epoxide hydrolase inhibitor, 3,3,3-trichloropropylene 1,2-oxide (TCPO), with an NADPH-regenerating system and liver microsomes from 3-methylcholanthrene (3MC)-treated male Sprague-Dawley rats were separated by reversed-phase and normal-phase HPLC. The metabolites were characterized by UV-visible absorption spectral analysis, and by comparing their retention times on reversed-phase and normal-phase HPLC with authentic 3MC derivatives whenever available. In addition to 3MC trans-1,2-diol, 3MC-1-one, and 3MC-2-one reported earlier by other investigators, 3-hydroxymethylcholanthrylene (3-OHMCE), 3-OHMCE trans-11,12-dihydrodiol, 3MCE trans-11,12-dihydrodiol, 3MCE trans-9, 10-dihydrodiol. 9- and 10-hydroxy-3MCE. 3MC-2-one trans-9,10-dihydrodiol, and a chemically unstable 3MCE 1,2-epoxide were identified as metabolites of 3MCE. 3MC cis-1,2-diol, a previously reported metabolite of 3MCE, was not detectable. In the presence of TCPO, metabolites that have been identified include 3-OHMCE, 3-OHMCE 11,12-epoxide. 3MCE 11,12-epoxide, 3MC-2-one, 3MC-1-one, 9-hydroxy-3MCE, 10-hydroxy-3MCE, and an unstable metabolic intermediate 3MCE 1,2-epoxide. The results suggest that 3MCE 1,2-epoxide, 3MCE 9,10-diol-7,8-epoxide, and 3MC-2-one 9,10-diol-7,8-epoxide may be involved in the metabolic activation of 3MCE to carcinogenic form.
Carcinogenesis 1990 Jul
PMID:Metabolism of the potent carcinogen 3-methylcholanthrylene by rat liver microsomes. 237 77

Metabolic deactivation of furylfuramide by human and rat liver microsomal cytochrome P450 enzymes has been investigated in a system measuring induction of umu gene expression response in Salmonella typhimurium TA1535/pSK1002. Both human and rat liver microsomes catalyzed the metabolism of furylfuramide to inactive form(s) that are incapable of inducing umu gene expression in the tester strain. The reaction required an NADPH-generating system and molecular oxygen and was inhibited by carbon monoxide, suggesting that a cytochrome P450-linked mono-oxygenase system is prerequisite for the deactivation reaction. With liver microsomes from variously pretreated rats, 3-methylcholanthrene was found to be a powerful inducer for the furylfuramide-metabolizing activity, and antibodies raised against rat P450IA1(BNF-B, c) and P450IA2(ISF-G, d) inhibited the microsomal activity. Human liver microsomal furylfuramide-metabolizing activity was also inhibited significantly by anti-P450IA2 IgG but weakly by anti-P450IA1 IgG. In liver microsomes prepared from seven different human samples, the activities of deactivation of furylfuramide were found to correlate with the amounts of immunoreactive protein related to rat P450IA2 and with the monooxygenase activities of metabolic activation of 2-amino-3,4-dimethyl-imidazo[4,5-f]quinoline (MeIQ) and of ethoxyresorufin O-deethylation. These results suggest that P450IA1 and P450IA2 in rats, and P450PA (IA2, the phenacetin O-deethylase and ortholog of rat P450IA2) in humans are the major enzymes involved in the deactivation of furylfuramide in liver microsomes. The metabolic studies involving HPLC analysis of products followed by spectrophotometric examination have also suggested that furylfuramide can be degraded very rapidly through the aerobic metabolism by liver microsomes.
Carcinogenesis 1990 Jan
PMID:Metabolic deactivation of furylfuramide by cytochrome P450 in human and rat liver microsomes. 240 55

Dinitropyrenes are mutagenic and carcinogenic environmental pollutants found in diesel emissions and urban air particulates. In Salmonella typhimurium these compounds appear to be activated to mutagens by sequential nitroreduction and acetylation. We have examined whether or not similar activation pathways occur with mammalian nitroreductases and acetylases. When rat liver cytosol, NADPH and calf thymus DNA were incubated with [4,5,9,10(-3)H]1-nitropyrene, [4,5,9,10(-3)H]1,3-, 1,6- or 1,8-dinitropyrene very low levels of nitrated pyrene binding with DNA were detected. Addition of acetyl coenzyme A (AcCoA) to these incubations increased the binding of dinitropyrenes 20- to 40-fold while the binding of 1-nitropyrene was not affected. The extent of AcCoA-dependent binding of dinitropyrenes reflected the amount of nitroreduction, as measured by aminonitropyrene formation. However, the increase in binding of dinitropyrenes to DNA in the presence of AcCoA did not occur with dog liver cytosol which is known to be deficient in N-acetylases. These results suggest that cytosolic nitroreductases catalyze the formation of N-hydroxy arylamine intermediates which in the case of dinitropyrenes are converted to reactive N-acetoxy arylamines by cytosolic AcCoA-dependent acetylases.
Carcinogenesis 1985 Jun
PMID:Acetyl coenzyme A-dependent binding of carcinogenic and mutagenic dinitropyrenes to DNA. 240 75

The distribution of NADPH-dependent quinone reductase and NADPH-cytochrome P-450 reductase activities was determined in the urinary bladders of male and female rabbits. In urinary bladder transitional epithelium (UBTE) and in urinary bladder non-transitional tissue (UBNT) microsomal quinone reductases demonstrated significant (P less than 0.05) sex-dependent differences in the case of both dicoumarol-insensitive (male greater than female) and dicoumarol-sensitive or DT-diaphorase (female greater than male) activities. Microsomal NADPH-cytochrome P-450 reductase activities in UBTE and in UBNT were found to be similar in male and female rabbits. The activities of microsomal and cytosolic quinone reductases and the activity of microsomal NADPH-cytochrome P-450 reductase in UBNT were much lower than those in UBTE. NADPH-cytochrome P-450 reductase and similar flavo-enzymes activate quinones via one-electron reduction into semiquinone free radicals, which then react with molecular oxygen, forming superoxide anions. DT-diaphorase acts as a detoxifying enzyme by converting many quinones via a unique two-electron reduction into less reactive hydroquinones, enabling their excretion as water-soluble conjugates. Since UBTE contains substantial activities of prostaglandin H synthase (PHS) and NADPH-cytochrome P-450 reductase, unlike UBNT, the toxicity and carcinogenicity of xenobiotics which are either quinones or form quinones in situ through the mediation of PHS would be high in UBTE. The risk of carcinogenicity of quinones in UBTE would be higher in male rabbits than in female rabbits due to sex-dependent differences in the relative proportions of the one-electron reduction pathway, represented by NADPH-cytochrome P-450 reductase, and the two-electron reduction pathway, represented by DT-diaphorase (female greater than male).
Carcinogenesis 1986 Mar
PMID:Sex-dependent activities of quinone reductases in rabbits indicate higher risk of bladder cancer in the male. 241 7

The process of chemical hepatocarcinogenesis is characterized by the appearance of preneoplastic lesions showing changes in the expression of various marker enzymes. We have analyzed the phenotype of small preneoplastic foci and expansively growing nodules in liver sections obtained from rats treated with various carcinogens. Changes within the lesions in canalicular adenosine triphosphatase, gamma-glutamyl transpeptidase, NADPH-(cytochrome P-450) reductase, cytochrome P-450 PB2, epoxide hydrolase, and glycogen content were detected by means of enzyme histochemical and immunohistochemical staining procedures. In parallel sections the expression of albumin messenger RNA was investigated by in situ hybridization using a 35S-labeled albumin specific complementary DNA probe. In general, small preneoplastic lesions showed unchanged levels of albumin messenger RNA. In contrast, the expression of albumin messenger RNA was found to be reduced to varying degrees in large hepatic nodules. An expression of alpha-fetoprotein messenger RNA could not be detected in any of the nodules. No direct correlation between the enzyme phenotype of the lesions and the degree in reduction of albumin messenger RNA could be established except that the reduction was most pronounced in nodules which had lost their ability to store glycogen. Since the synthesis and excretion of albumin is a typical function of the differentiated hepatocyte in the adult animal, the observed decrease in albumin messenger RNA expression in large hepatic nodules is in accordance with the hypothesis of a gradual dedifferentiation or retrodifferentiation of the cell population during carcinogenesis. Hyperplastic nodules produced by continuous treatment of rats with 4-dimethylaminoazobenzene showed increased rather than decreased albumin levels. The analysis of albumin messenger RNA expression might therefore be used as a tool to discriminate between nodules of differing biological nature and fate.
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PMID:Expression of albumin messenger RNA detected by in situ hybridization in preneoplastic and neoplastic lesions in rat liver. 242 87

Carcinomas of the ethmoidal region of the nose are observed relatively frequently in cattle in several countries in tropical and subtropical latitudes. Viruses have been implicated as causative agents, but it has been observed that affected animals sometimes suffer from aflatoxicosis, and a role of aflatoxin B1 (AFB1) in the aetiology has also been proposed. We have examined whether the bovine nasal olfactory mucosa has a capacity to metabolize AFB1. The contents of cytochrome P-450 and cytochrome b5, and the NADPH cytochrome c reductase activity in the nasal olfactory mucosa have also been determined. Comparative experiments have been performed with the liver. Incubations with 3H-labelled AFB1 showed that the nasal olfactory mucosa has a much higher capacity than the liver to form lipid-soluble, water-soluble and tissue-bound AFB1-metabolites. High-resolution microautoradiography showed a strong localization of tissue-bound metabolites in the sustentacular cells in the apical portion of the olfactory surface epithelium and in Bowman's glands in the olfactory lamina propria mucosae. Especially in the sustentacular cells the labelling was preferentially located in the nuclei of the cells. Liquid chromatography of chloroform extracts of the nasal olfactory mucosa and the liver incubated with 3H-AFB1 showed formation of several metabolites. The dominating peak in both tissues was aflatoxin M1 (AFM1). However, the amount of AFM1 was higher in the nasal olfactory mucosa than in the liver, and the amounts and proportions of several other metabolites also differed markedly between the two tissues. The level of cytochrome P-450 in the nasal olfactory mucosa was found to be about one quarter of that in the liver, but the NADPH cytochrome c reductase activity was much higher in the nasal olfactory mucosa than in the liver. In addition, the cytochrome b5: cytochrome P-450 ratio was higher in the nasal olfactory mucosa than in the liver. The higher metabolism of AFB1 in the nasal olfactory mucosa than in the liver may be related to differences in the cytochrome P-450 isoenzyme profile. In addition, the microsomal electron transport to cytochrome P-450 may be facilitated by the high reductase: cytochrome P-450 ratio and the high cytochrome b5: cytochrome P-450 ratio in the nasal olfactory mucosa.(ABSTRACT TRUNCATED AT 400 WORDS)
Carcinogenesis 1989 Jun
PMID:Metabolism of aflatoxin B1 in the bovine olfactory mucosa. 249

A novel route for the microsomal generation of nitrogen mustard from its N-oxide nitromin is demonstrated. The mustard was trapped as an adduct with diethyldithiocarbamate and estimated by capillary GLC. The enzyme responsible for this reduction could utilize either NADPH or NADH. Reduction occurred preferentially under anaerobic conditions. Purified cytochrome P450 reductase could carry out this reaction. Similar activities were seen using microsomal fractions from rat liver or liver derived BL8, JB1 or Walker 256 carcinoma cells, when these were expressed on a per mg of protein basis. Unscheduled DNA synthesis (UDS) was used as an index of activation of nitromin in these cell systems. In all instances, greater induction of UDS occurred in cells incubated with nitromin under anaerobic conditions.
Carcinogenesis 1989 Nov
PMID:Reduction of nitromin to nitrogen mustard: unscheduled DNA synthesis in aerobic or anaerobic rat hepatocytes, JB1, BL8 and Walker carcinoma cell lines. 250 92


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