Polμ deficiency induces moderate shortening of P53 mouse lifespan and modifies tumor spectrum.

Non-homologous end joining (NHEJ) is the main mechanism for double strand break (DSB) DNA repair. The error-prone DNA polymerase mu (Polμ) is involved in immunoglobulin variable region rearrangement and in general, NHEJ in non-lymphoid cells. Deletion of NHEJ factors in P53 mice, which are highly prone to development of T cell lymphoma, generally increases cancer incidence and shifts the tumor spectrum towards aggressive pro-B lymphoma. In contrast, Polμ deletion increased sarcoma incidence, proportionally reducing pro-B lymphoma development on the P53-deficient background. Array comparative genomic hybridization (aCGH) analyses showed DNA copy number alterations in both P53 and PolμP53 lymphomas. Our results also indicate that the increase in sarcoma incidence in PolμP53 mice could be associated with Cdk4 and Kub3 amplification and overexpression. These results identify a role for Polμ in the prevention of sarcomagenesis on a murine P53-deficient background, in contrast to most other NHEJ factors.