Mutagenic potential of 8-oxo-7,8-dihydroguanine (8-oxoG) is influenced by nearby clustered lesions.

Ionizing radiation causes various different types of DNA damage. If not repaired, DNA damage can have detrimental effects. Previous studies indicate that the spatial distribution of DNA lesions induced by ionizing radiation is highly relevant to the ensuing biological effects. Clustered DNA damage, consisting of DNA lesions in close proximity, has been studied in detail, and has enhanced mutagenic potential depending on the configuration of the lesions. However, it is not known whether clustered DNA damage affects the mutagenic potential of a sufficiently separated, isolated lesion. Using synthetic damage constructs, we investigated the mutagenic potential of an isolated 8-oxo-7,8-dihydroguanine (8-oxoG) separated by at least 7 bp from other lesions. Under the spatial distribution of DNA lesions tested in the present study, neighboring clustered DNA lesions likely retarded the processing of the isolated 8-oxoG and resulted in enhanced mutation frequency. However, the enhanced mutagenic potential was dependent on which strand the isolated 8-oxoG was located. Our results indicate that the processing of a bi-stranded cluster could affect the mutagenic outcome of a nearby isolated lesion, separated up to ∼20 bp.