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MYOD-SKP2 axis boosts tumorigenesis in fusion negative rhabdomyosarcoma by preventing differentiation through p57Kip2 targeting

Author

Listed:
  • Silvia Pomella

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS
    University of Rome Tor Vergata)

  • Matteo Cassandri

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS
    Sapienza University of Rome)

  • Lucrezia D’Archivio

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS)

  • Antonella Porrazzo

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS
    Sapienza University of Rome)

  • Cristina Cossetti

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS)

  • Doris Phelps

    (UT Health Science Center)

  • Clara Perrone

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS)

  • Michele Pezzella

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS)

  • Antonella Cardinale

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS)

  • Marco Wachtel

    (University Children’s Hospital)

  • Sara Aloisi

    (Case Western Reserve University
    University of Bologna)

  • David Milewski

    (Genetics Branch, National Cancer Institute, NIH,)

  • Marta Colletti

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS)

  • Prethish Sreenivas

    (UT Health Science Center)

  • Zoë S. Walters

    (Divisions of Molecular Pathology, The Institute of Cancer Research
    University of Southampton)

  • Giovanni Barillari

    (University of Rome Tor Vergata)

  • Angela Giannatale

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS)

  • Giuseppe Maria Milano

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS)

  • Cristiano Stefanis

    (Bambino Gesu’ Children’s Hospital, IRCCS)

  • Rita Alaggio

    (Bambino Gesù Children’s Hospital, IRCCS)

  • Sonia Rodriguez-Rodriguez

    (City of Hope National Medical Center)

  • Nadia Carlesso

    (City of Hope National Medical Center)

  • Christopher R. Vakoc

    (Cold Spring Harbor Laboratory)

  • Enrico Velardi

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS)

  • Beat W. Schafer

    (University Children’s Hospital)

  • Ernesto Guccione

    (Tisch Cancer Institute, Icahn School of Medicine at Mount Sinai)

  • Susanne A. Gatz

    (University of Birmingham)

  • Ajla Wasti

    (Children and Young People’s Unit, The Royal Marsden NHS Foundation Trust and Institute of Cancer Research)

  • Marielle Yohe

    (National Cancer Institute, NIH)

  • Myron Ignatius

    (UT Health Science Center)

  • Concetta Quintarelli

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS
    University of Naples Federico II)

  • Janet Shipley

    (Divisions of Molecular Pathology, The Institute of Cancer Research)

  • Lucio Miele

    (Louisiana State University Health Sciences Center)

  • Javed Khan

    (Genetics Branch, National Cancer Institute, NIH,)

  • Peter J. Houghton

    (UT Health Science Center)

  • Francesco Marampon

    (Sapienza University of Rome)

  • Berkley E. Gryder

    (Case Western Reserve University)

  • Biagio Angelis

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS)

  • Franco Locatelli

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS
    Catholic University of the Sacred Heart)

  • Rossella Rota

    (Cell and Gene Therapy, Bambino Gesù Children’s Hospital, IRCCS)

Abstract

Rhabdomyosarcomas (RMS) are pediatric mesenchymal-derived malignancies encompassing PAX3/7-FOXO1 Fusion Positive (FP)-RMS, and Fusion Negative (FN)-RMS with frequent RAS pathway mutations. RMS express the master myogenic transcription factor MYOD that, whilst essential for survival, cannot support differentiation. Here we discover SKP2, an oncogenic E3-ubiquitin ligase, as a critical pro-tumorigenic driver in FN-RMS. We show that SKP2 is overexpressed in RMS through the binding of MYOD to an intronic enhancer. SKP2 in FN-RMS promotes cell cycle progression and prevents differentiation by directly targeting p27Kip1 and p57Kip2, respectively. SKP2 depletion unlocks a partly MYOD-dependent myogenic transcriptional program and strongly affects stemness and tumorigenic features and prevents in vivo tumor growth. These effects are mirrored by the investigational NEDDylation inhibitor MLN4924. Results demonstrate a crucial crosstalk between transcriptional and post-translational mechanisms through the MYOD-SKP2 axis that contributes to tumorigenesis in FN-RMS. Finally, NEDDylation inhibition is identified as a potential therapeutic vulnerability in FN-RMS.

Suggested Citation

  • Silvia Pomella & Matteo Cassandri & Lucrezia D’Archivio & Antonella Porrazzo & Cristina Cossetti & Doris Phelps & Clara Perrone & Michele Pezzella & Antonella Cardinale & Marco Wachtel & Sara Aloisi &, 2023. "MYOD-SKP2 axis boosts tumorigenesis in fusion negative rhabdomyosarcoma by preventing differentiation through p57Kip2 targeting," Nature Communications, Nature, vol. 14(1), pages 1-23, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-44130-0
    DOI: 10.1038/s41467-023-44130-0
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    References listed on IDEAS

    as
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