RB signaling prevents replication-dependent DNA double-strand breaks following genotoxic insult

doi:10.1093/nar/gkg919

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Published online 2 January 2004

Nucleic Acids Research, 2004, Vol. 32, No. 1 25-34
© 2004 Oxford University Press

RB signaling prevents replication-dependent DNA double-strand breaks following genotoxic insult

Emily E. Bosco¹, Christopher N. Mayhew¹, Robert F. Hennigan¹, Julien Sage², Tyler Jacks²^,3 and Erik S. Knudsen^*^,1

¹ Department of Cell Biology, Vontz Center for Molecular Studies, University of Cincinnati College of Medicine, Cincinnati, OH, USA, ² Department of Biology and Center for Cancer Research, Massachusetts Institute of Technology, Cambridge, MA, USA and ³ Howard Hughes Medical Institute, Cambridge, MA, USA

*To whom correspondence should be addressed. Tel: +1 513 558 8885; Fax: +1 513 558 4454; Email: erik.knudsen{at}uc.edu

Cell cycle checkpoints induced by DNA damage play an integralrole in preservation of genomic stability by allowing cellsto limit the propagation of deleterious mutations. The retinoblastomatumor suppressor (RB) is crucial for the maintenance of theDNA damage checkpoint function because it elicits cell cyclearrest in response to a variety of genotoxic stresses. Althoughsporadic loss of RB is characteristic of most cancers and resultsin the bypass of the DNA damage checkpoint, the consequenceof RB loss upon chemotherapeutic responsiveness has been largelyuninvestigated. Here, we employed a conditional knockout approachto ablate RB in adult fibroblasts. This system enabled us toexamine the DNA damage response of adult cells following acuteRB deletion. Using this system, we demonstrated that loss ofRB disrupted the DNA damage checkpoint elicited by either cisplatinor camptothecin exposure. Strikingly, this bypass was not associatedwith enhanced repair, but rather the accumulation of phosphorylatedH2AX ( ${gamma}$ H2AX) foci, which indicate DNA double-strand breaks. Theformation of ${gamma}$ H2AX foci was due to ongoing replication followingchemotherapeutic treatment in the RB-deficient cells. Additionally,peak ${gamma}$ H2AX accumulation occurred in S-phase cells undergoingDNA replication in the presence of damage, and these ${gamma}$ H2AX focico-localized with replication foci. These results demonstratethat acute RB loss abrogates DNA damage-induced cell cycle arrestto induce ${gamma}$ H2AX foci formation. Thus, secondary genetic lesionsinduced by RB loss have implications for the chemotherapeuticresponse and the development of genetic instability.

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