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Abstract
In cancer cells, loss of G1/S control is often accompanied by p53 pathway inactivation, the latter usually rationalized as a necessity for suppressing cell cycle arrest and apoptosis. However, we found an unanticipated effect of p53 loss in mouse and human G1-checkpoint-deficient cells: reduction of DNA damage. We show that abrogation of the G1/S-checkpoint allowed cells to enter S-phase under growth-restricting conditions at the expense of severe replication stress manifesting as decelerated DNA replication, reduced origin firing and accumulation of DNA double-strand breaks (DSBs). In this system, loss of p53 allowed mitogen-independent proliferation, not by suppressing apoptosis, but rather by restoring origin firing and reducing DNA breakage. Loss of G1/S control also caused DNA damage and activation of p53 in an in vivo retinoblastoma model. Moreover, in a teratoma model, loss of Trp53 reduced DNA breakage. Thus, loss of p53 may promote growth of incipient cancer cells by reducing replication-stress-induced DNA damage.
Original language | English |
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Article number | e37868 |
Journal | eLife |
Volume | 7 |
Early online date | 16 Oct 2018 |
DOIs | |
Publication status | Published - 16 Oct 2018 |
Keywords
- replication stress
- DNA double strand breaks
- retinoblastoma
- p53
- origin firing
- G1/S phase checkpoint
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Symposium Replication stress and chromosomal instability
Petermann, E. (Speaker)
8 Jan 2014Activity: Academic and Industrial events › Guest lecture or Invited talk
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