DNA methylation in rat tissues by a series of homologous aliphatic nitrosamines ranging from <i>N</i>-nitrosodimethylamine to <i>N</i>-nitrosomethyldodecylamine

Hofe, Eric von; Schmerold, Ivo; Lijinsky, William; Jeltsch, Willy; Kleihues, Paul

doi:10.1093/carcin/8.9.1337

Cited by 42 publications

(15 citation statements)

References 12 publications

(18 reference statements)

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“…The first such experiment involved the coadministration of ethanol with NMEA which decreased the liver/esophagus ratio of 7-methylguanine adducts present 4 h after dosing (von Hole et al 1986b), which may have been due to the known inhibitory effects of ethanol on hepatic cytochrome P-450 enzyme activity (Sohn et al 1987). The other in vivo study (von Hofe et al 1987) showed that the levels of methylation of hepatic DNA decreased progressively in the homo-logous series from NDMA to N-nitrosomethylpentylamine while methylation in the esophagus increased, suggesting that enzymes in the esophagus may receive larger amounts of certain compounds. However, based on the present observations it seems that alternative mechanisms should be considered.…”

Section: Discussionmentioning

confidence: 96%

Single-dose toxicokinetics ofN-nitrosomethylethylamine andN-nitrosomethyl (2,2,2-trideuterioethyl)amine in the rat

et al. 1990

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To investigate the origins of an organotropic shift toward increasing esophageal carcinogenicity and DNA alkylation caused by beta-trideuteration of the hepatocarcinogen, N-nitrosomethylethylamine (NMEA), the single-dose toxicokinetics of NMEA and N-nitrosomethyl(2,2,2-trideuterioethyl)amine (NMEA-d3) has been characterized in 8-week-old male Fischer 344 rats by analysis using high performance liquid chromatography of serial blood samples. An i.v. bolus dose of 0.6 mumol/kg to rats revealed biphasic first order elimination with a terminal half-life of 9.46 +/- 0.69 min for unchanged NMEA and 28.9 +/- 2.4 min for total radioactivity. Extensive conversion to polar metabolites was observed in the chromatograms. The systemic blood clearance and apparent steady-state volume of distribution for unchanged NMEA were 39.9 +/- 4.6 ml/min/kg and 496 +/- 36 ml/kg, respectively. There was negligible plasma protein binding and no detectable NMEA was excreted unchanged in the urine. Larger doses given by gavage indicated a systemic bioavailability of 25 +/- 1%. Similar doses of NMEA-d3 given to other groups of rats revealed no significant differences in any of the toxicokinetic parameters. No N-nitrosomethyl(2-hydroxyethyl)amine was found as a detectable metabolite of NMEA or NMEA-d3 in any of the blood or urine samples which were analyzed. When considered together, the data suggest that previously observed differences in organ specificity for the carcinogens, NMEA and NMEA-d3, are not due to differences in the total amounts of nitrosamine reaching particular tissues, but may have other localized causes such as differences in the enzymes responsible for metabolism which are present in each tissue.(ABSTRACT TRUNCATED AT 250 WORDS)

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Section: Discussionmentioning

confidence: 96%

Single-dose toxicokinetics ofN-nitrosomethylethylamine andN-nitrosomethyl (2,2,2-trideuterioethyl)amine in the rat

et al. 1990

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“…( 24 ) In contrast, curcumin increased large intestinal CYP2B1 and the mutagenic activation of NMBA and DMN. Together with the findings that high levels of esophageal DNA alkylation are induced by NOC, ( 8,12,13 ) and DNA methylation by NMBA and N ‐nitrosomethyl‐ n ‐butylamine in rats occurs to a higher extent in esophagus than in liver, ( 66 ) it suggests that modification of metabolic activation of NOC by the target organ plays a critical role in chemoprevention of NOC‐induced carcinogenesis in rats. It has been reported that curcumin inhibits the expression of c‐Jun and c‐Fos/AP‐1, ( 67 ) a transcriptional factor that plays an important role in the expressions of CYP2B1/2 ( 68 ) and CYP2E1, ( 69 ) but not CYP1A, ( 70 ) and 3 A, suggesting that the suppression of AP‐1‐induced transcription by curcumin might produce a decrease in CYP2B1 and 2E1 expressions in the esophagus and stomach.…”

Section: Discussionmentioning

confidence: 73%

“…( 11 ) These findings indicate the importance of metabolic activation of NMBA by the target organ and/or liver during the initiation phase, and some NOC are known to be metabolized in the esophagus at a relatively high rate, often leading to high levels of esophageal DNA alkylation. ( 8,12,13 ) The total CYP content of the esophagus microsomes is only 7% of that of liver microsomes, ( 14 ) but little is known about the expression of CYP species in rat esophagus; CYP1A1 and 2A3 proteins are constitutively expressed in rat esophagus microsomes, but CYP2B1/2, 2E1 and 3A2 proteins are not. ( 14–16 ) We have recently shown that NMBA is mutagenetically activated by hepatic CYP2B1 and 2B2, but not CYP2E1, in rats.…”

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confidence: 99%

Modification by curcumin of mutagenic activation of carcinogenic N‐nitrosamines by extrahepatic cytochromes P‐450 2B1 and 2E1 in rats

et al. 2006

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To elucidate the mechanism underlying suppression by curcumin of esophageal carcinogenesis induced by NMBA, we evaluated the CYP level and mutagenic activation of environmental carcinogens, by immunoblot analyses and Ames preincubation test, respectively, and bilirubin, 4-nitrophenol and testosterone UDPGT activities in F344 rats treated with curcumin and/or NMBA. No significant alterations in the hepatic levels of constitutive CYP proteins, mutagenic activation by liver S9 or hepatic UDPGT activities were produced by subcutaneous treatment with 0.5 mg/kg NMBA for 5 weeks and/or feeding of 0.05% and 0.2% curcumin for 6 weeks. In contrast, gavage of 0.2% curcumin decreased esophageal CYP2B1 and 2E1 by up to 60%, compared with vehicle control. Similarly, intragastric treatment with 270 mg/kg curcumin decreased esophageal and gastric CYP2B1 and CYP2E1, but not in lung, kidney or intestine. Conversely, large intestinal CYP2B1 was 2.8-fold higher in the treated rats than in control rats. Mutagenic activities of NOC, including NMBA, in the presence of esophagus and stomach S9 were markedly decreased in the treated rats, whereas those in the presence of large intestine S9 were 2.2-3.0-fold above control. These results show that modifying effects of curcumin on esophageal carcinogenesis can be attributed to a decrease in metabolic activation of NMBA by esophageal CYP2B1 during the initiation phase, without the contribution of metabolic activation and inactivation by liver. Further, the present findings suggest the potential of curcumin for modification of gastric and intestinal carcinogenesis initiated with NOC. (Cancer Sci 2006; 97: 896-904) H uman esophageal cancer has been closely associated with exposure to nitrate and nitrite, which are precursors of NOC, and exposure to NMBA is also associated with an increased risk of human cancer in the esophagus in China. (1)(2)(3)(4) In fact, NMBA is known to be the most potent carcinogen for rat esophagus, irrespective of its mode of administration. (5,6 ) It has been shown that esophageal mucosa microsomes from male Sprague-Dawley rats can form benzaldehyde and formaldehyde from NMBA at rates 1/5 and 1/60 of hepatic levels of both metabolites, respectively, and the metabolisms are inhibited more than 95% by CO and 70% by SKF525A, typical CYP inhibitors.(7) O 6 -methylated guanine level in rats given NMBA is six times higher in esophagus DNA than in liver DNA, (8) and isothiocyanates markedly decrease the incidence and multiplicity of NMBA-induced esophageal tumors, with inhibition of esophageal DNA methylation in F344 rats.(9) Further, it has been shown that ethanol has an enhancing effect on DEN-induced esophageal tumorigenesis in F344 rats, (10) with enhancement of metabolic activation of DEN by hepatic CYP2E1.(11) These findings indicate the importance of metabolic activation of NMBA by the target organ and/or liver during the initiation phase, and some NOC are known to be metabolized in the esophagus at a relatively high rate, often leading to high levels of esophageal D...

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“…Since rat esophagus appears to be particularly vulnerable to die carcinogenic effects of this methylating agent (4), the increased potency of NEMA-d 3 relative to NEMA in that organ would be explained if die extent of this deuterium-induced metabolic switching were sufficient to cause increased DNA mediylation in me esophagus. We have previously shown that NEMA mediylates, ethylates and 2-hydroxyediylates DNA of various organs in the rat (4)(5)(6). To test whether (3-deuteration does cause a shift in the profile of DNA adducts, we have now measured the extent of DNA alkylation in various target and nontarget organs of adult male Fischer 344 rats following exposure to single doses of N-nitroso([2-D 3 ]ethyl)methylamine (NEMA-d 3 )…”

Section: Introductionmentioning

confidence: 99%

β-Deuteration of N-nitrosoethylmethylamine causes a shift in DNA methylation from rat liver to esophagus

et al. 1991

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While N-nitrosoethylmethylamine (NEMA) is carcinogenic primarily for the liver, its beta-trideuterated derivative, N-nitroso( [2-D3]ethyl)methylamine (NEMA-d3), also produces a high incidence of tumors in the esophagus. To determine whether this shift in organ specificity is associated with an altered pattern of DNA alkylation, [methyl-14C]- and [1-ethyl-14C]-labeled NEMA-d3 were administered to adult male Fischer 344 rats as a single i.p. dose (0.05 mmol/kg; 4 h survival). Levels of methylated and ethylated purines in the DNA of various organs were determined by radio-chromatography on Sephasorb-HP columns. When compared to previous data using undeuterated NEMA, 7-methylguanine levels were found to be reduced by approximately 30% in liver and kidney, but were 160% greater in esophagus. This resulted in a decrease in the 7-methylguanine ratio for liver/esophagus from 109 to 29. O6-Methylguanine was diminished in liver and kidney, but levels in lung and esophagus were too low for quantitative detection. Similarly, deuteration led to an 18% decrease of 7-ethylguanine in hepatic DNA. The observed increase in esophageal DNA methylation correlates with the increased carcinogenicity of NEMA-d3 relative to undeuterated NEMA in that organ. Since pharmacokinetic studies have shown that beta-trideuteration of NEMA does not alter its bioavailability, the data suggest that the observed shift in target organ results from isotopically-induced changes in the balance among competing metabolic pathways in different rat tissues.

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DNA methylation in rat tissues by a series of homologous aliphatic nitrosamines ranging from N-nitrosodimethylamine to N-nitrosomethyldodecylamine

Cited by 42 publications

References 12 publications

Single-dose toxicokinetics ofN-nitrosomethylethylamine andN-nitrosomethyl (2,2,2-trideuterioethyl)amine in the rat

Single-dose toxicokinetics ofN-nitrosomethylethylamine andN-nitrosomethyl (2,2,2-trideuterioethyl)amine in the rat

Modification by curcumin of mutagenic activation of carcinogenic N‐nitrosamines by extrahepatic cytochromes P‐450 2B1 and 2E1 in rats

β-Deuteration of N-nitrosoethylmethylamine causes a shift in DNA methylation from rat liver to esophagus

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