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Snail determines the therapeutic response to mTOR kinase inhibitors by transcriptional repression of 4E-BP1

Author

Listed:
  • Jun Wang

    (University of Kentucky College of Medicine
    University of Kentucky College of Medicine)

  • Qing Ye

    (University of Kentucky College of Medicine
    University of Kentucky College of Medicine)

  • Yanan Cao

    (University of Kentucky College of Medicine
    University of Kentucky College of Medicine)

  • Yubin Guo

    (University of Kentucky College of Medicine
    Nanfang Hospital, Southern Medical University)

  • Xiuping Huang

    (University of Kentucky College of Medicine
    Nanfang Hospital, Southern Medical University)

  • Wenting Mi

    (University of Kentucky College of Medicine
    Nanfang Hospital, Southern Medical University)

  • Side Liu

    (Nanfang Hospital, Southern Medical University)

  • Chi Wang

    (University of Kentucky College of Medicine
    University of Kentucky College of Public Health)

  • Hsin-Sheng Yang

    (University of Kentucky College of Medicine
    University of Kentucky College of Medicine)

  • Binhua P. Zhou

    (University of Kentucky College of Medicine
    University of Kentucky College of Medicine)

  • B. Mark Evers

    (University of Kentucky College of Medicine
    University of Kentucky College of Medicine)

  • Qing-Bai She

    (University of Kentucky College of Medicine
    University of Kentucky College of Medicine)

Abstract

Loss of 4E-BP1 expression has been linked to cancer progression and resistance to mTOR inhibitors, but the mechanism underlying 4E-BP1 downregulation in tumors remains unclear. Here we identify Snail as a strong transcriptional repressor of 4E-BP1. We find that 4E-BP1 expression inversely correlates with Snail level in cancer cell lines and clinical specimens. Snail binds to three E-boxes present in the human 4E-BP1 promoter to repress transcription of 4E-BP1. Ectopic expression of Snail in cancer cell lines lacking Snail profoundly represses 4E-BP1 expression, promotes cap-dependent translation in polysomes, and reduces the anti-proliferative effect of mTOR kinase inhibitors. Conversely, genetic and pharmacological inhibition of Snail function restores 4E-BP1 expression and sensitizes cancer cells to mTOR kinase inhibitors by enhancing 4E-BP1-mediated translation-repressive effect on cell proliferation and tumor growth. Our study reveals a critical Snail-4E-BP1 signaling axis in tumorigenesis, and provides a rationale for targeting Snail to improve mTOR-targeted therapies.

Suggested Citation

  • Jun Wang & Qing Ye & Yanan Cao & Yubin Guo & Xiuping Huang & Wenting Mi & Side Liu & Chi Wang & Hsin-Sheng Yang & Binhua P. Zhou & B. Mark Evers & Qing-Bai She, 2017. "Snail determines the therapeutic response to mTOR kinase inhibitors by transcriptional repression of 4E-BP1," Nature Communications, Nature, vol. 8(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-02243-3
    DOI: 10.1038/s41467-017-02243-3
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