FIG. 2.

Instability of repeated DNA as a cause of replicative aging in S. cerevisiae. The yeast rDNA locus is the most highly repetitive locus in the organism, consisting of ∼150 tandem 9.1-kb repeats. These repeats are stabilized, in part, by the NAD⁺-dependent HDAC Sir2. The initiating event is the generation of an ERC by homologous recombination between repeats within the rDNA array on chromosome XII. ERCs have a high probability of replicating and are segregated almost exclusively to the mother cell. They accumulate exponentially in mother cells, resulting in fragmented nucleoli, cessation of cell division, and cellular senescence. Stabilization of the rDNA locus or inhibition of ERC replication extends the life span. Daughters from very old mothers inherit ERCs due to the breakdown in the asymmetry of inheritance, explaining why daughters of old mothers are prematurely old. Ectopic release of an ERC in a young cell accelerates aging. Overexpression of SIR2 or deletion of FOB1 (encoding a replication fork block protein specific to the rDNA) reduces rDNA recombination and ERC formation, and the life span is extended by 30 to 50%. Reprinted from reference 180 with permission.