Cell Reports (Dec 2014)
Activation of DNA Damage Response Signaling by Condensed Chromatin
Abstract
Summary: The DNA damage response (DDR) occurs in the context of chromatin, and architectural features of chromatin have been implicated in DNA damage signaling and repair. Whereas a role of chromatin decondensation in the DDR is well established, we show here that chromatin condensation is integral to DDR signaling. We find that, in response to DNA damage chromatin regions transiently expand before undergoing extensive compaction. Using a protein-chromatin-tethering system to create defined chromatin domains, we show that interference with chromatin condensation results in failure to fully activate DDR. Conversely, forced induction of local chromatin condensation promotes ataxia telangiectasia mutated (ATM)- and ATR-dependent activation of upstream DDR signaling in a break-independent manner. Whereas persistent chromatin compaction enhanced upstream DDR signaling from irradiation-induced breaks, it reduced recovery and survival after damage. Our results demonstrate that chromatin condensation is sufficient for activation of DDR signaling and is an integral part of physiological DDR signaling. : Relaxation of chromatin is important for checkpoint activation and DNA repair, but the role of chromatin condensation has been enigmatic. Burgess et al. show that chromatin condensation is an integral but transient part of the DNA damage response. Whereas condensed chromatin enhances upstream signaling, persistent condensation inhibits downstream repair and recovery.
