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BRAFE600-associated senescence-like cell cycle arrest of human naevi

Author

Listed:
  • Chrysiis Michaloglou

    (Division of Molecular Genetics)

  • Liesbeth C. W. Vredeveld

    (Division of Molecular Genetics)

  • Maria S. Soengas

    (University of Michigan)

  • Christophe Denoyelle

    (University of Michigan)

  • Thomas Kuilman

    (Division of Molecular Genetics)

  • Chantal M. A. M. van der Horst

    (Academic Medical Centre)

  • Donné M. Majoor

    (The Netherlands Cancer Institute)

  • Jerry W. Shay

    (The University of Texas Southwestern Medical Center)

  • Wolter J. Mooi

    (Free University Medical Centre)

  • Daniel S. Peeper

    (Division of Molecular Genetics)

Abstract

Cell senescence and cancer Cellular senescence, a growth-arrest program that limits the lifespan of mammalian cells and prevents unlimited cell proliferation, is attracting considerable interest because of its links to tumour suppression. Using a mouse model in which the oncogene Ras is activated in the haematopoietic compartment of bone marrow, Braig et al. show that cellular senescence can block lymphoma development. Genetic inactivation of the histone methyltransferase Suv39h1 that controls senescence by ‘epigenetic’ modification of DNA-associated proteins, or a pharmacological approach that mimics loss of this enzyme, allow the formation of malignant lymphomas in response to oncogenic Ras. This work has important implications for both tumour development and tumour therapy. Michaloglou et al. report that oncogene-induced senescence may be a physiologically important process in humans, keeping moles in a benign state for many years: unchecked they develop into malignant melanomas. Chen et al. also find that cellular senescence blocks tumorigenesis in vivo: they show that acting together, the p53 tumour suppressor and the cellular senescence system can prevent prostate cancer induction in mice by the PTEN mutation. Collado et al. show that cellular senescence is a defining feature of Ras-initiated premalignant tumours; this could prove valuable in the diagnosis and prognosis of cancer. See the web focus .

Suggested Citation

  • Chrysiis Michaloglou & Liesbeth C. W. Vredeveld & Maria S. Soengas & Christophe Denoyelle & Thomas Kuilman & Chantal M. A. M. van der Horst & Donné M. Majoor & Jerry W. Shay & Wolter J. Mooi & Daniel , 2005. "BRAFE600-associated senescence-like cell cycle arrest of human naevi," Nature, Nature, vol. 436(7051), pages 720-724, August.
    • Handle: RePEc:nat:nature:v:436:y:2005:i:7051:d:10.1038_nature03890
    DOI: 10.1038/nature03890
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    Citations

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    Cited by:

    1. Simone Ribero & Daniel Glass & Abraham Aviv & Timothy David Spector & Veronique Bataille, 2015. "Height and Bone Mineral Density Are Associated with Naevus Count Supporting the Importance of Growth in Melanoma Susceptibility," PLOS ONE, Public Library of Science, vol. 10(1), pages 1-11, January.
    2. Marc A. Vittoria & Nathan Kingston & Kristyna Kotynkova & Eric Xia & Rui Hong & Lee Huang & Shayna McDonald & Andrew Tilston-Lunel & Revati Darp & Joshua D. Campbell & Deborah Lang & Xiaowei Xu & Crai, 2022. "Inactivation of the Hippo tumor suppressor pathway promotes melanoma," Nature Communications, Nature, vol. 13(1), pages 1-17, December.
    3. Yukinari Haraoka & Yuki Akieda & Yuri Nagai & Chihiro Mogi & Tohru Ishitani, 2022. "Zebrafish imaging reveals TP53 mutation switching oncogene-induced senescence from suppressor to driver in primary tumorigenesis," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    4. Jaskaren Kohli & Chen Ge & Eleni Fitsiou & Miriam Doepner & Simone M. Brandenburg & William J. Faller & Todd W. Ridky & Marco Demaria, 2022. "Targeting anti-apoptotic pathways eliminates senescent melanocytes and leads to nevi regression," Nature Communications, Nature, vol. 13(1), pages 1-12, December.
    5. Jean-Philippe Coppé & Christopher K Patil & Francis Rodier & Yu Sun & Denise P Muñoz & Joshua Goldstein & Peter S Nelson & Pierre-Yves Desprez & Judith Campisi, 2008. "Senescence-Associated Secretory Phenotypes Reveal Cell-Nonautonomous Functions of Oncogenic RAS and the p53 Tumor Suppressor," PLOS Biology, Public Library of Science, vol. 6(12), pages 1-1, December.

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