DNA repair and aging in mouse liver: 8-oxodG glycosylase activity increase in mitochondrial but not in nuclear extracts

Abstract

8-oxo-deoxyguanosine (8-oxodG) is one of the major DNA lesions formed upon oxidative attack of DNA. It is a mutagenic adduct that has been associated with pathological states such as cancer and aging. Base excision repair (BER) is the main pathway for the repair of 8-oxodG. There is a great deal of interest in the question about age-associated accumulation of this DNA lesion and its intracellular distribution, particularly with respect to mitochondrial or nuclear localization. We have previously shown that 8-oxodG-incision activity increases with age in rat mitochondria obtained from both liver and heart. In this study, we have investigated the age-associated changes in DNA repair activities in both mitochondrial and nuclear extracts obtained from mouse liver. We observed that 8-oxodG incision activity of mitochondrial extracts increases significantly with age, from 13.4 + or - 2.2 fmoles of oligomer/100 microg of protein/16 h at 6 to 18.6 + or - 4.9 at 14 and 23.7 + or - 3.8 at 23 months of age. In contrast, the nuclear 8-oxodG incision activity showed no significant change with age, and in fact slightly decreased from 11.8 + or - 3 fmoles/50 microg of protein/2 h at 6 months to 9.7 + or - 0.8 at 14 months. Uracil DNA glycosylase and endonuclease G activities did not change with age in nucleus or mitochondria. Our results show that the repair of 8-oxodG is regulated differently in nucleus and mitochondria during the aging process. The specific increase in 8-oxodG-incision activity in mitochondria, rather than a general up-regulation of DNA metabolizing enzymes in those organelles, suggests that this pathway may be up regulated during aging in mice.