Chromosome damage in the bone marrow of mice treated with the methylating agents methyl methanesulphonate and N-methyl-N-nitrosourea in the presence or absence of caffeine, and its relationship with thymoma induction.

A single dose (0.8 mmole/kg) of N-methyl-N-nitrosourea (MNUA) causes significantly more chromosome damage in the bone marrow of mice than a dose of equal toxicity to the animals, (1.1 mmole/kg) of methyl methanesulphonate (MMS) 6, 24 and 48 h after treatment. At these doses both agents alkylate bone-marrow DNA to similar extents, but only MNUA induces thymic lymphomata. The greater chromosome-damaging effects of MNUA are ascribed to the known differences in the pattern of DNA alkylation by each agent, in particular the much higher levels of O-6 methylguanine and phosphotriesters produced by MNUA. The greater chromosome-damaging effect of MNUA may account for its higher toxicity to the bone marrow which in turn may be a significant factor in the induction of thymomata. The enhancement by caffeine of chromosome damage seen particularly 48 h after MMS-treatment suggests that post-replication repair protects cells from the effects of DNA-methylation in vivo.