The relationship between histone posttranslational modification and DNA damage signaling and repair.

PURPOSE: The cellular response to DNA damage occurs in the context of an organized chromatin environment in order to maintain genome integrity. Immediately after DNA damage, an array of histone modifications are induced to relieve the physical constraints of the chromatin environment, mark the site as damaged, and function as a platform for the assembly of mediator and effector proteins of DNA damage response signaling pathway. Changes in chromatin structure in the vicinity of the DNA double-strand break (DSB) facilitates the efficient initiation of the DNA damage signaling cascade. Failure of induction of DNA damage responsive histone modifications may lead to genome instability and cancer. Here we will discuss our current understanding of the DNA damage responsive histone modifications and their role in DNA repair as well as their implications for genome stability. We further discuss recent studies which highlight not only how histone modification has involved in the signaling and remodeling at the DSB but also how it influences the DNA repair pathway choice.
CONCLUSIONS: Histone modifications pattern alter during the induction of DNA DSBs induction as well as during the repair and recovery phase of DNA damage response. It will be interesting to understand more precisely, how DSBs within chromatin are repaired by HR and NHEJ. The emergence of proteomic and genomic technologies in combination with advanced microscopy and imaging methods will help in better understanding the role of chromatin environment in the regulation of genome stability.