Microhomology-Mediated End Joining: A Back-up Survival Mechanism or Dedicated Pathway?

DNA double-strand breaks (DSBs) disrupt the continuity of chromosomes and their repair by error-free mechanisms is essential to preserve genome integrity. Microhomology-mediated end joining (MMEJ) is an error-prone repair mechanism that involves alignment of microhomologous sequences internal to the broken ends before joining, and is associated with deletions and insertions that mark the original break site, as well as chromosome translocations. Whether MMEJ has a physiological role or is simply a back-up repair mechanism is a matter of debate. Here we review recent findings pertaining to the mechanism of MMEJ and discuss its role in normal and cancer cells.

TrendsMMEJ is a mutagenic DSB repair mechanism that uses 1–16 nt of homology flanking the initiating DSB to align the ends for repair.MMEJ is associated with deletions and insertions that mark the original break site, as well as chromosome translocations.RPA prevents MMEJ by inhibiting annealing between MHs exposed by end resection.Recent studies implicate DNA Polθ (encoded by PolQ) in a subset of MMEJ events, particularly those associated with insertions at the break site.DNA Polθ is a promising therapeutic target to treat homologous recombination deficient tumors.