Replication Stress Shapes a Protective Chromatin Environment across Fragile Genomic Regions

Jeongkyu Kim, David Sturgill, Robin Sebastian, Simran Khurana, Andy D. Tran, Garrett B. Edwards, Alex Kruswick, Sandra Burkett, Eri K. Hosogane, William W. Hannon, Sossou Weyemi, William M. Bonner, Karolin Luger, Philipp Oberdoerffer

Research output: Contribution to journalArticlepeer-review

31 Scopus citations


Recent integrative epigenome analyses highlight the importance of functionally distinct chromatin states for accurate cell function. How these states are established and maintained is a matter of intense investigation. Here, we present evidence for DNA damage as an unexpected means to shape a protective chromatin environment at regions of recurrent replication stress (RS). Upon aberrant fork stalling, DNA damage signaling and concomitant H2AX phosphorylation coordinate the FACT-dependent deposition of macroH2A1.2, a histone variant that promotes DNA repair by homologous recombination (HR). MacroH2A1.2, in turn, facilitates the accumulation of the tumor suppressor and HR effector BRCA1 at replication forks to protect from RS-induced DNA damage. Consequently, replicating primary cells steadily accrue macroH2A1.2 at fragile regions, whereas macroH2A1.2 loss in these cells triggers DNA damage signaling-dependent senescence, a hallmark of RS. Altogether, our findings demonstrate that recurrent DNA damage contributes to the chromatin landscape to ensure the epigenomic integrity of dividing cells. Kim et al. show that replication-stress-associated DNA damage can help create a protective chromatin environment to ensure efficient repair of fragile genomic regions in subsequent cell divisions. This involves the histone variant macroH2A1.2 and depends on both DNA damage signaling and replication-fork-associated chromatin remodeling.

Original languageEnglish (US)
Pages (from-to)36-47.e7
JournalMolecular cell
Issue number1
StatePublished - Jan 4 2018


  • DNA repair
  • FACT
  • chromatin
  • macro-histone
  • macroH2A1.2
  • replication stress
  • senescence

ASJC Scopus subject areas

  • Molecular Biology
  • Cell Biology


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