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StemBond hydrogels control the mechanical microenvironment for pluripotent stem cells

Author

Listed:
  • Céline Labouesse

    (University of Cambridge)

  • Bao Xiu Tan

    (University of Cambridge
    University of Cambridge)

  • Chibeza C. Agley

    (University of Cambridge)

  • Moritz Hofer

    (University of Cambridge)

  • Alexander K. Winkel

    (University of Cambridge)

  • Giuliano G. Stirparo

    (University of Cambridge)

  • Hannah T. Stuart

    (University of Cambridge)

  • Christophe M. Verstreken

    (University of Cambridge
    University of Cambridge)

  • Carla Mulas

    (University of Cambridge)

  • William Mansfield

    (University of Cambridge)

  • Paul Bertone

    (University of Cambridge
    Brown University)

  • Kristian Franze

    (University of Cambridge
    Friedrich-Alexander University Erlangen-Nuremberg
    Max-Planck-Zentrum für Physik und Medizin)

  • José C. R. Silva

    (University of Cambridge
    Guangzhou International Bio Island)

  • Kevin J. Chalut

    (University of Cambridge
    University of Cambridge
    University of Cambridge)

Abstract

Studies of mechanical signalling are typically performed by comparing cells cultured on soft and stiff hydrogel-based substrates. However, it is challenging to independently and robustly control both substrate stiffness and extracellular matrix tethering to substrates, making matrix tethering a potentially confounding variable in mechanical signalling investigations. Moreover, unstable matrix tethering can lead to poor cell attachment and weak engagement of cell adhesions. To address this, we developed StemBond hydrogels, a hydrogel in which matrix tethering is robust and can be varied independently of stiffness. We validate StemBond hydrogels by showing that they provide an optimal system for culturing mouse and human pluripotent stem cells. We further show how soft StemBond hydrogels modulate stem cell function, partly through stiffness-sensitive ERK signalling. Our findings underline how substrate mechanics impact mechanosensitive signalling pathways regulating self-renewal and differentiation, indicating that optimising the complete mechanical microenvironment will offer greater control over stem cell fate specification.

Suggested Citation

  • Céline Labouesse & Bao Xiu Tan & Chibeza C. Agley & Moritz Hofer & Alexander K. Winkel & Giuliano G. Stirparo & Hannah T. Stuart & Christophe M. Verstreken & Carla Mulas & William Mansfield & Paul Ber, 2021. "StemBond hydrogels control the mechanical microenvironment for pluripotent stem cells," Nature Communications, Nature, vol. 12(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-26236-5
    DOI: 10.1038/s41467-021-26236-5
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    1. Timo N. Kohler & Joachim Jonghe & Anna L. Ellermann & Ayaka Yanagida & Michael Herger & Erin M. Slatery & Antonia Weberling & Clara Munger & Katrin Fischer & Carla Mulas & Alex Winkel & Connor Ross & , 2023. "Plakoglobin is a mechanoresponsive regulator of naive pluripotency," Nature Communications, Nature, vol. 14(1), pages 1-19, December.

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