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Letter
Nature 436, 725-730 (4 August 2005) | doi:10.1038/nature03918; Received 23 February 2005; Accepted 15 June 2005
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Crucial role of p53-dependent cellular senescence in suppression of Pten-deficient tumorigenesis
Zhenbang Chen1,2, Lloyd C. Trotman1,2, David Shaffer1,3, Hui-Kuan Lin1,2, Zohar A. Dotan1,2, Masaru Niki1,2, Jason A. Koutcher3, Howard I. Scher3, Thomas Ludwig4, William Gerald2, Carlos Cordon-Cardo2 & Pier Paolo Pandolfi1,2
- Cancer Biology and Genetics Program,
- Department of Pathology, and
- Departments of Medicine, Radiology and Medical Physics, Memorial Sloan-Kettering Cancer Center, Sloan-Kettering Institute, 1275 York Avenue, New York, New York 10021, USA
- Department of Anatomy and Cell Biology, Institute of Cancer Genetics, Columbia University, 1150 St Nicholas Avenue, New York, New York 10032, USA
Correspondence to: Pier Paolo Pandolfi1,2 Correspondence and requests for materials should be addressed to P.P.P. (Email: p-pandolfi@ski.mskcc.org).
Abstract
Cellular senescence has been theorized to oppose neoplastic transformation triggered by activation of oncogenic pathways in vitro1, 2, 3, but the relevance of senescence in vivo has not been established. The PTEN and p53 tumour suppressors are among the most commonly inactivated or mutated genes in human cancer including prostate cancer4, 5. Although they are functionally distinct, reciprocal cooperation has been proposed, as PTEN is thought to regulate p53 stability, and p53 to enhance PTEN transcription6, 7, 8, 9, 10. Here we show that conditional inactivation of Trp53 in the mouse prostate fails to produce a tumour phenotype, whereas complete Pten inactivation in the prostate triggers non-lethal invasive prostate cancer after long latency. Strikingly, combined inactivation of Pten and Trp53 elicits invasive prostate cancer as early as 2 weeks after puberty and is invariably lethal by 7 months of age. Importantly, acute Pten inactivation induces growth arrest through the p53-dependent cellular senescence pathway both in vitro and in vivo, which can be fully rescued by combined loss of Trp53. Furthermore, we detected evidence of cellular senescence in specimens from early-stage human prostate cancer. Our results demonstrate the relevance of cellular senescence in restricting tumorigenesis in vivo and support a model for cooperative tumour suppression in which p53 is an essential failsafe protein of Pten-deficient tumours.
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