EMBO Molecular Medicine (Mar 2017)

Pre‐clinical validation of a selective anti‐cancer stem cell therapy for Numb‐deficient human breast cancers

  • Daniela Tosoni,
  • Sarah Pambianco,
  • Blanche Ekalle Soppo,
  • Silvia Zecchini,
  • Giovanni Bertalot,
  • Giancarlo Pruneri,
  • Giuseppe Viale,
  • Pier Paolo Di Fiore,
  • Salvatore Pece

DOI
https://doi.org/10.15252/emmm.201606940
Journal volume & issue
Vol. 9, no. 5
pp. 655 – 671

Abstract

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Abstract The cell fate determinant Numb is frequently downregulated in human breast cancers (BCs), resulting in p53 inactivation and an aggressive disease course. In the mouse mammary gland, Numb/p53 downregulation leads to aberrant tissue morphogenesis, expansion of the stem cell compartment, and emergence of cancer stem cells (CSCs). Strikingly, CSC phenotypes in a Numb‐knockout mouse model can be reverted by Numb/p53 restoration. Thus, targeting Numb/p53 dysfunction in Numb‐deficient human BCs could represent a novel anti‐CSC therapy. Here, using patient‐derived xenografts, we show that expansion of the CSC pool, due to altered self‐renewing divisions, is also a feature of Numb‐deficient human BCs. In these cancers, using the inhibitor Nutlin‐3 to restore p53, we corrected the defective self‐renewal properties of Numb‐deficient CSCs and inhibited CSC expansion, with a marked effect on tumorigenicity and metastasis. Remarkably, a regimen combining Nutlin‐3 and chemotherapy induced persistent tumor growth inhibition, or even regression, and prevented CSC‐driven tumor relapse after removal of chemotherapy. Our data provide a pre‐clinical proof‐of‐concept that targeting Numb/p53 results in a specific anti‐CSC therapy in human BCs.

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