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Hypersensitivity to DNA damage in antephase as a safeguard for genome stability

Author

Listed:
  • Femke M. Feringa

    (The Netherlands Cancer Institute)

  • Lenno Krenning

    (The Netherlands Cancer Institute
    Hubrecht Institute, The Royal Netherlands Academy of Arts and Sciences (KNAW) and University Medical Center Utrecht)

  • André Koch

    (The Netherlands Cancer Institute)

  • Jeroen van den Berg

    (The Netherlands Cancer Institute)

  • Bram van den Broek

    (The Netherlands Cancer Institute)

  • Kees Jalink

    (The Netherlands Cancer Institute)

  • René H. Medema

    (The Netherlands Cancer Institute)

Abstract

Activation of the DNA-damage response can lead to the induction of an arrest at various stages in the cell cycle. These arrests are reversible in nature, unless the damage is too excessive. Here we find that checkpoint reversibility is lost in cells that are in very late G2, but not yet fully committed to enter mitosis (antephase). We show that antephase cells exit the cell cycle and enter senescence at levels of DNA damage that induce a reversible arrest in early G2. We show that checkpoint reversibility critically depends on the presence of the APC/C inhibitor Emi1, which is degraded just before mitosis. Importantly, ablation of the cell cycle withdrawal mechanism in antephase promotes cell division in the presence of broken chromosomes. Thus, our data uncover a novel, but irreversible, DNA-damage response in antephase that is required to prevent the propagation of DNA damage during cell division.

Suggested Citation

  • Femke M. Feringa & Lenno Krenning & André Koch & Jeroen van den Berg & Bram van den Broek & Kees Jalink & René H. Medema, 2016. "Hypersensitivity to DNA damage in antephase as a safeguard for genome stability," Nature Communications, Nature, vol. 7(1), pages 1-10, November.
  • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms12618
    DOI: 10.1038/ncomms12618
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    Cited by:

    1. Daan M. K. Soest & Paulien E. Polderman & Wytze T. F. Toom & Janneke P. Keijer & Markus J. Roosmalen & Tim M. F. Leyten & Johannes Lehmann & Susan Zwakenberg & Sasha Henau & Ruben Boxtel & Boudewijn M, 2024. "Mitochondrial H2O2 release does not directly cause damage to chromosomal DNA," Nature Communications, Nature, vol. 15(1), pages 1-16, December.

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