The hepatocarcinogens 2-nitropropane and acetoxime have previously been found to induce a specific and qualitatively identical pattern of base damage in rat liver DNA and RNA, including the induction of increased levels of 8-hydroxyguanine. Because both 2-nitropropane and acetoxime are weaker carcinogens in female rats than male rats, we examined the ability of these chemicals to induce this pattern of damage in liver and kidney nucleic acids of male and female Sprague-Dawley rats 6 and 18 h after administration. Significantly lower levels of 8-hydroxydeoxyguanosine, 8-hydroxyguanosine and other presumed modified nucleosides discernible by high-performance liquid chromatography with electrochemical detection were found in liver nucleic acids of female rats at both time points. In addition, minimal alteration of nucleic acids was observed in the kidney, which is not a target organ for the carcinogenicity of either 2-nitropropane (2-NP) or acetoxime (ACO). These results support the hypothesis that the specific DNA alterations observed are relevant to the hepatocarcinogenicity of 2-NP and ACO.
Acetoxime (ACO) and 2-nitropropane (2-NP), both industrially important chemicals and known hepatocarcinogens in rats, induced increased levels of 8-hydroxy-guanine in liver DNA and RNA of male Sprague-Dawley and F344 rats after either oral or i.p. administration. Both compounds also produced qualitatively the same patterns of other apparent modifications of liver DNA and RNA nucleosides, discernible by HPLC with electrochemical detection. Six hours after administration, the effects of 2-NP on liver nucleic acids were more pronounced in F344 rats than in Sprague-Dawley rats, suggesting that 2-NP may prove to be a stronger carcinogen in the F344 strain. The effects of ACO, a weaker carcinogen than 2-NP, were less than those of the nitroalkane in both rat strains. These results suggest that the hepatocarcinogenicity of ACO, like that of 2-NP, may depend on increased generation of reactive oxygen species capable of producing DNA and RNA base damage in rat liver. In addition, the data support the hypothesis that the hepatocarcinogenicity of ACO depends on its partial in vivo N-oxidation to 2-NP.
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