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Translational control of breast cancer plasticity

Author

Listed:
  • Michael Jewer

    (University of Western Ontario
    University of Alberta)

  • Laura Lee

    (University of Alberta)

  • Matthew Leibovitch

    (McGill University)

  • Guihua Zhang

    (University of Alberta)

  • Jiahui Liu

    (University of Alberta)

  • Scott D. Findlay

    (University of Western Ontario
    University of Alberta)

  • Krista M. Vincent

    (University of Western Ontario
    University of Alberta)

  • Kristofferson Tandoc

    (McGill University)

  • Dylan Dieters-Castator

    (University of Western Ontario)

  • Daniela F. Quail

    (McGill University)

  • Indrani Dutta

    (University of Alberta)

  • Mackenzie Coatham

    (University of Alberta)

  • Zhihua Xu

    (University of Alberta)

  • Aakshi Puri

    (McGill University)

  • Bo-Jhih Guan

    (Case Western Reserve University)

  • Maria Hatzoglou

    (Case Western Reserve University)

  • Andrea Brumwell

    (University of Guelph)

  • James Uniacke

    (University of Guelph)

  • Christos Patsis

    (McGill University)

  • Antonis Koromilas

    (McGill University)

  • Julia Schueler

    (Charles River Discovery Research Services Germany)

  • Gabrielle M. Siegers

    (University of Alberta)

  • Ivan Topisirovic

    (McGill University)

  • Lynne-Marie Postovit

    (University of Alberta
    Queen’s University)

Abstract

Plasticity of neoplasia, whereby cancer cells attain stem-cell-like properties, is required for disease progression and represents a major therapeutic challenge. We report that in breast cancer cells NANOG, SNAIL and NODAL transcripts manifest multiple isoforms characterized by different 5’ Untranslated Regions (5’UTRs), whereby translation of a subset of these isoforms is stimulated under hypoxia. The accumulation of the corresponding proteins induces plasticity and “fate-switching” toward stem cell-like phenotypes. Mechanistically, we observe that mTOR inhibitors and chemotherapeutics induce translational activation of a subset of NANOG, SNAIL and NODAL mRNA isoforms akin to hypoxia, engendering stem-cell-like phenotypes. These effects are overcome with drugs that antagonize translational reprogramming caused by eIF2α phosphorylation (e.g. ISRIB), suggesting that the Integrated Stress Response drives breast cancer plasticity. Collectively, our findings reveal a mechanism of induction of plasticity of breast cancer cells and provide a molecular basis for therapeutic strategies aimed at overcoming drug resistance and abrogating metastasis.

Suggested Citation

  • Michael Jewer & Laura Lee & Matthew Leibovitch & Guihua Zhang & Jiahui Liu & Scott D. Findlay & Krista M. Vincent & Kristofferson Tandoc & Dylan Dieters-Castator & Daniela F. Quail & Indrani Dutta & M, 2020. "Translational control of breast cancer plasticity," Nature Communications, Nature, vol. 11(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16352-z
    DOI: 10.1038/s41467-020-16352-z
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