Comparative analysis of DNA mutations in lacI transgenic mice with age.

Transgenic mice have been developed recently that contain copies of the well-defined mutagenesis reporter gene, lacI, in an integrated bacteriophage-based shuttle vector. The lacI gene, which is present in all cells of the mouse, can be excised specifically from isolated genomic DNA and efficiently packaged into bacteriophage particles after the addition of packaging extracts. Mutations of the lacI gene are easily detected by the derepression of beta-galactosidase resulting in blue plaques in the presence of X-gal. Originally developed as a short-term in vivo mutagenesis assay to screen genotoxic agents, we have used this system to measure naturally occurring DNA mutations as a function of chronological age. There was a linear increase in the presence of phenotypic lacI mutants from birth to 24 months (r = 0.731, P < 0.001), such that 24-month-old mice have accumulated approximately fourfold more mutants than newborn pups. Molecular analysis of these spontaneously arising DNA mutations showed them to result predominantly from base substitutions (80.6-98.5%) that were equally distributed between transitions and transversions. However, lacI mutations in animals > 3 months of age demonstrated a higher percentage of mutations (12-19.4% vs. 1.2%) resulting from discriminable size changes (> 20 bp) than was observed for mice 1-2 months old. Sequence analysis of mutations resulting from a > 20 bp size change revealed them to be due to a duplication of adjacent lacI sequence. These results indicate that there is a gradual accumulation of DNA mutations with age and that the types of mutations also are influenced by the age of the animal.