Abstract
Mutagenesis in S. typhimurium and in vitro induction of DNA single-strand breaks in primary rat hepatocytes (DNA-SSB) have been investigated for two new N-nitroso compounds, mononitrosocaffeidine (MNC) and dinitrosocaffeidine (DNC). Mononitrosamidocaffeidine (MNAC) and tert.-(butyloxy)carbonyl-mononitrosamidocaffeidine (t-BOC-MNAC), both nitrosated derivatives of caffeidine with nitrosation at methylcarboxamide- N only, were also similarly studied. MNC, an asymmetric nitrosamine, failed to show mutagenicity in any of the tester strains used, and also did not induce DNA-SSB in rat hepatocytes. DNC, having both N-nitrosamide and N-nitrosamine groups in the molecule, showed direct mutagenicity in TA100, TA1535 and TA102. The mutagenic potential of the compound was found to increase on S9 activation. However, it was non-mutagenic in TA98 and TA1537. DNC also exhibited a high potential for inducing alkali-labile DNA-SSB in rat hepatocytes (70–78% C-T value) and was cytotoxic at concentrations over 0.1 μmole/ml. Both MNC and DNC were found to produce formaldehyde on S9 activation. MNAC was not mutagenic directly but showed weak mutagenicity on metabolic activation, whereas t-BOC-MNAC was mutagenic both with and without S9 activation in TA100, TA1535 and TA102. t-BOC-MNAC was more cytotoxic to hepatocytes than MNAC, though both caused DNA-SSB to the same extent (62% C-T value). On the basis of the presented data it is inferred that while DNC is a direct-acting mutagen in TA100, TA1535 and TA102 due to the presence of a reactive N-methylnitrosamido group, its mutagenic potential is greatly enhanced in the presence of S9 possibly due to the synergistic influence of an activated N-methylnitrosamino group in the molecule. Additionally, the study shows a qualitative consistency between Salmonella mutagenicity, genotoxicity in hepatocytes and the reactivity of the methyl group at the nitrosamido- N in nitrosated caffeidine compounds.
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More From: Mutation Research/Environmental Mutagenesis and Related Subjects
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