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Neurofibromin 1 controls metabolic balance and Notch-dependent quiescence of murine juvenile myogenic progenitors

Author

Listed:
  • Xiaoyan Wei

    (Freie Universität Berlin
    Max Planck Institute for Molecular Genetics)

  • Angelos Rigopoulos

    (Freie Universität Berlin
    Max Planck Institute for Molecular Genetics
    International Max Planck Research School for Biology and Computation IMPRS-BAC)

  • Matthias Lienhard

    (Max Planck Institute for Molecular Genetics)

  • Sophie Pöhle-Kronawitter

    (Freie Universität Berlin)

  • Georgios Kotsaris

    (Freie Universität Berlin)

  • Julia Franke

    (Freie Universität Berlin
    Max Planck Institute for Molecular Genetics)

  • Nikolaus Berndt

    (German Institute of Human Nutrition Potsdam-Rehbruecke (DIfE)
    Deutsches Herzzentrum der Charité (DHZC)
    corporate member of Freie Universität Berlin and Humboldt-Universität zu Berlin)

  • Joy Orezimena Mejedo

    (Freie Universität Berlin)

  • Hao Wu

    (Charité University Medicine Berlin)

  • Stefan Börno

    (Max Planck Institute for Molecular Genetics)

  • Bernd Timmermann

    (Max Planck Institute for Molecular Genetics)

  • Arunima Murgai

    (Freie Universität Berlin)

  • Rainer Glauben

    (Charité University Medicine Berlin)

  • Sigmar Stricker

    (Freie Universität Berlin
    Max Planck Institute for Molecular Genetics
    International Max Planck Research School for Biology and Computation IMPRS-BAC)

Abstract

Patients affected by neurofibromatosis type 1 (NF1) frequently show muscle weakness with unknown etiology. Here we show that, in mice, Neurofibromin 1 (Nf1) is not required in muscle fibers, but specifically in early postnatal myogenic progenitors (MPs), where Nf1 loss led to cell cycle exit and differentiation blockade, depleting the MP pool resulting in reduced myonuclear accretion as well as reduced muscle stem cell numbers. This was caused by precocious induction of stem cell quiescence coupled to metabolic reprogramming of MPs impinging on glycolytic shutdown, which was conserved in muscle fibers. We show that a Mek/Erk/NOS pathway hypersensitizes Nf1-deficient MPs to Notch signaling, consequently, early postnatal Notch pathway inhibition ameliorated premature quiescence, metabolic reprogramming and muscle growth. This reveals an unexpected role of Ras/Mek/Erk signaling supporting postnatal MP quiescence in concert with Notch signaling, which is controlled by Nf1 safeguarding coordinated muscle growth and muscle stem cell pool establishment. Furthermore, our data suggest transmission of metabolic reprogramming across cellular differentiation, affecting fiber metabolism and function in NF1.

Suggested Citation

  • Xiaoyan Wei & Angelos Rigopoulos & Matthias Lienhard & Sophie Pöhle-Kronawitter & Georgios Kotsaris & Julia Franke & Nikolaus Berndt & Joy Orezimena Mejedo & Hao Wu & Stefan Börno & Bernd Timmermann &, 2024. "Neurofibromin 1 controls metabolic balance and Notch-dependent quiescence of murine juvenile myogenic progenitors," Nature Communications, Nature, vol. 15(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-45618-z
    DOI: 10.1038/s41467-024-45618-z
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