PLoS ONE (Jan 2013)

Increased learning and brain long-term potentiation in aged mice lacking DNA polymerase μ.

  • Daniel Lucas,
  • José M Delgado-García,
  • Beatriz Escudero,
  • Carmen Albo,
  • Ana Aza,
  • Rebeca Acín-Pérez,
  • Yaima Torres,
  • Paz Moreno,
  • José Antonio Enríquez,
  • Enrique Samper,
  • Luis Blanco,
  • Alfonso Fairén,
  • Antonio Bernad,
  • Agnès Gruart

DOI
https://doi.org/10.1371/journal.pone.0053243
Journal volume & issue
Vol. 8, no. 1
p. e53243

Abstract

Read online

A definitive consequence of the aging process is the progressive deterioration of higher cognitive functions. Defects in DNA repair mechanisms mostly result in accelerated aging and reduced brain function. DNA polymerase µ is a novel accessory partner for the non-homologous end-joining DNA repair pathway for double-strand breaks, and its deficiency causes reduced DNA repair. Using associative learning and long-term potentiation experiments, we demonstrate that Polµ(-/-) mice, however, maintain the ability to learn at ages when wild-type mice do not. Expression and biochemical analyses suggest that brain aging is delayed in Polµ(-/-) mice, being associated with a reduced error-prone DNA oxidative repair activity and a more efficient mitochondrial function. This is the first example in which the genetic ablation of a DNA-repair function results in a substantially better maintenance of learning abilities, together with fewer signs of brain aging, in old mice.