Double strand break metabolism and cancer susceptibility: Lessons from the Mre11 complex

Abstract

Hypomorphic mutants affecting the Mre11 complex components Mre11 (Mre11ATLD1/ATLD1) and Nbs1 (Nbs1ΔB/ΔB) have been established in the mouse. These mutations recapitulate those inherited in human chromosome fragility syndromes, the ataxia-telangiectasia like disorder and Nijmegen breakage syndrome. At the cellular level, the human and murine mutants exhibit defects in the intra S and G2/M checkpoints and marked chromosome instability. Whereas these outcomes are associated with predisposition to malignancy in humans, similar predisposition was not observed in either Mre11ATLD1/ATLD1 or Nbs1ΔB/ΔB mice. These data demonstrate that chromosome breakage per se is insufficient to significantly enhance the initiation of tumorigenesis. However, these mutations greatly enhanced the risk of malignancy in p53+/- mice. We propose that proper metabolism of chromosome breaks arising during DNA replication is uniquely important for suppressing loss of heterozygosity and thus the penetrance of recessive oncogenic lesions.