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Human Molecular Genetics Advance Access published online on April 29, 2009
Human Molecular Genetics, doi:10.1093/hmg/ddp195
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© 2009 The Author(s)
This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/2.0/uk/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

The role of senescence and prosurvival signaling in controlling the oncogenic activity of FGFR2 mutants associated with cancer and birth defects

Sara Ota1, Zi-Qiang Zhou1, Jason M. Link1,2 and Peter J. Hurlin1,2,*

1 Shriners Hospitals for Children, Oregon Health & Science University, Portland, Oregon 2 Department of Cell and Developmental Biology, Oregon Health & Science University, Portland, Oregon

* To whom correspondence should be addressed at: Shriners Hospital, 3101 SW Sam Jackson Park Rd. Portland, OR 97201-3095, USA. Tel: 503-221-3438; FAX 503-221-3438; Email: pjh{at}shcc.org

Received January 9, 2009; Revised April 27, 2009; Accepted April 27, 2009

Mutations in Fibroblast growth factor receptors (FGFRs) cause human birth defect syndromes and are associated with a variety of cancers. While forced expression of mutant activated FGFRs have been shown to oncogenically transform some immortal cell types, their activity in primary cells remains unclear. Here we show that birth defect and cancer-associated FGFR2 mutants promote DNA damage signaling and p53-dependent senescence in primary mouse and human cells. Senescence promoted by FGFR mutants was associated with downregulation of c-Myc and forced expression of c-Myc facilitated senescence escape. Whereas c-Myc expression facilitated senescence bypass, mutant FGFR2 signaling suppressed c-Myc dependent apoptosis and led to oncogenic transformation. Cells transformed by coexpression of a constitutively activated FGFR2 mutant plus c-Myc appeared to be become highly addicted to FGFR-dependent prosurvival activities, as small molecule inhibition of FGFR signaling resulted in robust p53-dependent apoptosis. Our data suggest that senescence-promoting activities of mutant FGFRs may normally limit their oncogenic potential, and may be relevant to their ability to disrupt morphogenesis and cause birth defects. Our results also raise the possibility that cancers originating through a combination of constitutive FGFR activation and deregulated Myc expression may be particularly sensitive to small molecule inhibitors of FGF receptors.


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