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Light-driven biological actuators to probe the rheology of 3D microtissues

Adrien Méry, Artur Ruppel, Jean Revilloud, Martial Balland, Giovanni Cappello and Thomas Boudou ()
Additional contact information
Adrien Méry: University Grenoble Alpes
Artur Ruppel: University Grenoble Alpes
Jean Revilloud: University Grenoble Alpes
Martial Balland: University Grenoble Alpes
Giovanni Cappello: University Grenoble Alpes
Thomas Boudou: University Grenoble Alpes

Nature Communications, 2023, vol. 14, issue 1, 1-12

Abstract: Abstract The mechanical properties of biological tissues are key to their physical integrity and function. Although external loading or biochemical treatments allow the estimation of these properties globally, it remains difficult to assess how such external stimuli compare with cell-generated contractions. Here we engineer microtissues composed of optogenetically-modified fibroblasts encapsulated within collagen. Using light to control the activity of RhoA, a major regulator of cellular contractility, we induce local contractions within microtissues, while monitoring microtissue stress and strain. We investigate the regulation of these local contractions and their spatio-temporal distribution. We demonstrate the potential of our technique for quantifying tissue elasticity and strain propagation, before examining the possibility of using light to create and map local anisotropies in mechanically heterogeneous microtissues. Altogether, our results open an avenue to guide the formation of tissues while non-destructively charting their rheology in real time, using their own constituting cells as internal actuators.

Date: 2023
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DOI: 10.1038/s41467-023-36371-w

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