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  • Shear-stress sensing by PIEZO1 regulates tendon stiffness in rodents and influences jumping performance in humans.

Shear-stress sensing by PIEZO1 regulates tendon stiffness in rodents and influences jumping performance in humans.

Nature biomedical engineering (2021-05-26)
Fabian S Passini, Patrick K Jaeger, Aiman S Saab, Shawn Hanlon, Nicole A Chittim, Matthias J Arlt, Kim David Ferrari, Dominik Haenni, Sebastiano Caprara, Maja Bollhalder, Barbara Niederöst, Aron N Horvath, Tobias Götschi, Shang Ma, Bettina Passini-Tall, Sandro F Fucentese, Ulrich Blache, Unai Silván, Bruno Weber, Karin Grävare Silbernagel, Jess G Snedeker
ABSTRACT

Athletic performance relies on tendons, which enable movement by transferring forces from muscles to the skeleton. Yet, how load-bearing structures in tendons sense and adapt to physical demands is not understood. Here, by performing calcium (Ca2+) imaging in mechanically loaded tendon explants from rats and in primary tendon cells from rats and humans, we show that tenocytes detect mechanical forces through the mechanosensitive ion channel PIEZO1, which senses shear stresses induced by collagen-fibre sliding. Through tenocyte-targeted loss-of-function and gain-of-function experiments in rodents, we show that reduced PIEZO1 activity decreased tendon stiffness and that elevated PIEZO1 mechanosignalling increased tendon stiffness and strength, seemingly through upregulated collagen cross-linking. We also show that humans carrying the PIEZO1 E756del gain-of-function mutation display a 13.2% average increase in normalized jumping height, presumably due to a higher rate of force generation or to the release of a larger amount of stored elastic energy. Further understanding of the PIEZO1-mediated mechanoregulation of tendon stiffness should aid research on musculoskeletal medicine and on sports performance.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Tamoxifen, ≥99%
Sigma-Aldrich
Anti-Mouse IgG (H+L), highly cross adsorbed-Peroxidase antibody produced in goat, affinity isolated antibody, lyophilized powder