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Notch3-dependent β-catenin signaling mediates EGFR TKI drug persistence in EGFR mutant NSCLC

Author

Listed:
  • Rajeswara Rao Arasada

    (The Ohio State University Medical Center)

  • Konstantin Shilo

    (The Ohio State University Medical Center)

  • Tadaaki Yamada

    (Kanazawa University Cancer Research Institute)

  • Jianying Zhang

    (The Ohio State University Medical Center)

  • Seiji Yano

    (Kanazawa University Cancer Research Institute)

  • Rashelle Ghanem

    (The Ohio State University Medical Center)

  • Walter Wang

    (The Ohio State University Medical Center)

  • Shinji Takeuchi

    (Kanazawa University Cancer Research Institute)

  • Koji Fukuda

    (Kanazawa University Cancer Research Institute)

  • Nobuyuki Katakami

    (Institute of Biomedical Research and Innovation)

  • Keisuke Tomii

    (Kobe City Medical Center General Hospital)

  • Fumitaka Ogushi

    (National Hospital Organization National Kochi Hospital)

  • Yasuhiko Nishioka

    (Tokushima University)

  • Tiffany Talabere

    (The Ohio State University Medical Center)

  • Shrilekha Misra

    (The Ohio State University Medical Center)

  • Wenrui Duan

    (The Ohio State University Medical Center)

  • Paolo Fadda

    (The Ohio State University Medical Center)

  • Mohammad A. Rahman

    (The Ohio State University Medical Center)

  • Patrick Nana-Sinkam

    (The Ohio State University Medical Center)

  • Jason Evans

    (The Ohio State University Medical Center)

  • Joseph Amann

    (The Ohio State University Medical Center)

  • Elena E. Tchekneva

    (The Ohio State University Medical Center)

  • Mikhail M. Dikov

    (The Ohio State University Medical Center)

  • David P. Carbone

    (The Ohio State University Medical Center)

Abstract

EGFR tyrosine kinase inhibitors cause dramatic responses in EGFR-mutant lung cancer, but resistance universally develops. The involvement of β-catenin in EGFR TKI resistance has been previously reported, however, the precise mechanism by which β-catenin activation contributes to EGFR TKI resistance is not clear. Here, we show that EGFR inhibition results in the activation of β-catenin signaling in a Notch3-dependent manner, which facilitates the survival of a subset of cells that we call “adaptive persisters”. We previously reported that EGFR-TKI treatment rapidly activates Notch3, and here we describe the physical association of Notch3 with β-catenin, leading to increased stability and activation of β-catenin. We demonstrate that the combination of EGFR-TKI and a β-catenin inhibitor inhibits the development of these adaptive persisters, decreases tumor burden, improves recurrence free survival, and overall survival in xenograft models. These results supports combined EGFR-TKI and β-catenin inhibition in patients with EGFR mutant lung cancer.

Suggested Citation

  • Rajeswara Rao Arasada & Konstantin Shilo & Tadaaki Yamada & Jianying Zhang & Seiji Yano & Rashelle Ghanem & Walter Wang & Shinji Takeuchi & Koji Fukuda & Nobuyuki Katakami & Keisuke Tomii & Fumitaka O, 2018. "Notch3-dependent β-catenin signaling mediates EGFR TKI drug persistence in EGFR mutant NSCLC," Nature Communications, Nature, vol. 9(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-05626-2
    DOI: 10.1038/s41467-018-05626-2
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