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Directionality of developing skeletal muscles is set by mechanical forces

Author

Listed:
  • Kazunori Sunadome

    (Karolinska Institutet)

  • Alek G. Erickson

    (Karolinska Institutet)

  • Delf Kah

    (University of Erlangen-Nuremberg)

  • Ben Fabry

    (University of Erlangen-Nuremberg)

  • Csaba Adori

    (Karolinska Institutet
    Stockholm University)

  • Polina Kameneva

    (Medical University Vienna)

  • Louis Faure

    (Medical University Vienna)

  • Shigeaki Kanatani

    (Karolinska Institutet)

  • Marketa Kaucka

    (Max Planck Institute for Evolutionary Biology)

  • Ivar Dehnisch Ellström

    (Spinalis Foundation)

  • Marketa Tesarova

    (Brno University of Technology)

  • Tomas Zikmund

    (Brno University of Technology)

  • Jozef Kaiser

    (Brno University of Technology)

  • Steven Edwards

    (KTH Royal Institute of Technology)

  • Koichiro Maki

    (Kyoto University)

  • Taiji Adachi

    (Kyoto University)

  • Takuya Yamamoto

    (Kyoto University
    Kyoto University)

  • Kaj Fried

    (Karolinska Institutet)

  • Igor Adameyko

    (Karolinska Institutet
    Medical University Vienna)

Abstract

Formation of oriented myofibrils is a key event in musculoskeletal development. However, the mechanisms that drive myocyte orientation and fusion to control muscle directionality in adults remain enigmatic. Here, we demonstrate that the developing skeleton instructs the directional outgrowth of skeletal muscle and other soft tissues during limb and facial morphogenesis in zebrafish and mouse. Time-lapse live imaging reveals that during early craniofacial development, myoblasts condense into round clusters corresponding to future muscle groups. These clusters undergo oriented stretch and alignment during embryonic growth. Genetic perturbation of cartilage patterning or size disrupts the directionality and number of myofibrils in vivo. Laser ablation of musculoskeletal attachment points reveals tension imposed by cartilage expansion on the forming myofibers. Application of continuous tension using artificial attachment points, or stretchable membrane substrates, is sufficient to drive polarization of myocyte populations in vitro. Overall, this work outlines a biomechanical guidance mechanism that is potentially useful for engineering functional skeletal muscle.

Suggested Citation

  • Kazunori Sunadome & Alek G. Erickson & Delf Kah & Ben Fabry & Csaba Adori & Polina Kameneva & Louis Faure & Shigeaki Kanatani & Marketa Kaucka & Ivar Dehnisch Ellström & Marketa Tesarova & Tomas Zikmu, 2023. "Directionality of developing skeletal muscles is set by mechanical forces," Nature Communications, Nature, vol. 14(1), pages 1-24, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38647-7
    DOI: 10.1038/s41467-023-38647-7
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    References listed on IDEAS

    as
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    Cited by:

    1. Caitlin Ford & Carmen Sena-Tomás & Tint Tha Ra Wun & Angelika G. Aleman & Uday Rangaswamy & Jake Leyhr & María I. Nuñez & Cynthia Zehui Gao & Hieu T. Nim & Michael See & Ugo Coppola & Joshua S. Waxman, 2025. "Nkx2.7 is a conserved regulator of craniofacial development," Nature Communications, Nature, vol. 16(1), pages 1-19, December.

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