Abstract
The cohesin complex plays a central role in genome maintenance by regulation of chromosome segregation in mitosis and DNA damage response (DDR) in other phases of the cell cycle. The ATM/ATR phosphorylates SMC1 and SMC3, two core components of the cohesin complex to regulate checkpoint signaling and DNA repair. In this report, we show that the genome-wide binding of SMC1 and SMC3 after ionizing radiation (IR) is enhanced by reinforcing pre-existing cohesin binding sites in human cancer cells. We demonstrate that ATM and SMC3 phosphorylation at Ser(1083) regulate this process. We also demonstrate that acetylation of SMC3 at Lys(105) and Lys(106) is induced by IR and this induction depends on the acetyltransferase ESCO1 as well as the ATM/ATR kinases. Consistently, both ESCO1 and SMC3 acetylation are required for intra-S phase checkpoint and cellular survival after IR. Although both IR-induced acetylation and phosphorylation of SMC3 are under the control of ATM/ATR, the two forms of modification are independent of each other and both are required to promote reinforcement of SMC3 binding to cohesin sites. Thus, SMC3 modifications is a mechanism for genome-wide reinforcement of cohesin binding in response to DNA damage response in human cells and enhanced cohesion is a downstream event of DDR.
Highlights
Sister chromatid cohesion is a fundamental biological process that the sister chromatids once generated in S-phase are always paired and linked to ensure equal distribution to daughter cells until mitosis
SMC3 modifications is a mechanism for genome-wide reinforcement of cohesin binding in response to DNA damage response in human cells and enhanced cohesion is a downstream event of DDR
Cohesion Sites in Response to ionizing radiation (IR)—Because double strand DNA Importantly, cohesin binding was increased at all existing cohebreak can trigger genome-wide re-establishment of cohesion in sion sites (Fig. 1C) and peaked at 2 h after IR, and binding after IR demonstrated excellent ing sites are generated in mammalian cells in response to DSB. linearity to the original binding before IR (Fig. 1D); about a 25%
Summary
Sister chromatid cohesion is a fundamental biological process that the sister chromatids once generated in S-phase are always paired and linked to ensure equal distribution to daughter cells until mitosis. Both IR-induced acetylation and phosphorylation of SMC3 are under the control of ATM/ATR, the two forms of modification are independent of each other and both are required to promote reinforcement of SMC3 binding to cohesin sites.
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