Cell Reports (Oct 2018)

The Cdkn1aSUPER Mouse as a Tool to Study p53-Mediated Tumor Suppression

  • Alessandro Torgovnick,
  • Jan Michel Heger,
  • Vasiliki Liaki,
  • Jörg Isensee,
  • Anna Schmitt,
  • Gero Knittel,
  • Arina Riabinska,
  • Filippo Beleggia,
  • Lucie Laurien,
  • Uschi Leeser,
  • Christian Jüngst,
  • Florian Siedek,
  • Wenzel Vogel,
  • Niklas Klümper,
  • Hendrik Nolte,
  • Maike Wittersheim,
  • Lars Tharun,
  • Roberta Castiglione,
  • Marcus Krüger,
  • Astrid Schauss,
  • Sven Perner,
  • Manolis Pasparakis,
  • Reinhard Büttner,
  • Thorsten Persigehl,
  • Tim Hucho,
  • Grit Sophie Herter-Sprie,
  • Björn Schumacher,
  • Hans Christian Reinhardt

Journal volume & issue
Vol. 25, no. 4
pp. 1027 – 1039.e6

Abstract

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Summary: Cdkn1a, which encodes p21, functions as a major route for p53-mediated cell-cycle arrest. However, the consequence of Cdkn1a gene dosage on tumor suppression has not been systematically investigated. Here, we employed BAC transgenesis to generate a Cdkn1aSUPER mouse, which harbors an additional Cdkn1a allele within its natural genomic context. We show that these mice display enhanced cell-cycle arrest and reduced apoptosis in response to genotoxic stress. Furthermore, using a chemically induced skin cancer model and an autochthonous Kras-driven lung adenocarcinoma model, we show that Cdkn1aSUPER mice display a cancer protection phenotype that is indistinguishable from that observed in Tp53SUPER animals. Moreover, we demonstrate that Tp53 and Cdkn1a cooperate in mediating cancer resistance, using a chemically induced fibrosarcoma model. Overall, our Cdkn1aSUPER allele enabled us to assess the contribution of Cdkn1a to Tp53-mediated tumor suppression. : Torgovnick et al. create a mouse model, carrying a third copy of Cdkn1a (p21), which shows enhanced cell-cycle arrest capacity and protection against DNA damage-induced apoptosis. The Cdkn1aSUPER animals display delayed epithelial regeneration and a robust cancer resistance phenotype, highlighting the importance of p21 in p53-dependent tumor suppression. Keywords: Cdkn1a, p21, p53, mouse model, cancer, tumor suppressor, cell cycle arrest, apoptosis, cancer protection