Litcius/Paper detail

Piezo1 regulates the mechanotransduction of soft matrix viscoelasticity

Mariana Azevedo González Oliva, Giuseppe Ciccone, Gotthold Fläschner, Jiajun Luo, Jonah L. Voigt, Patrizia Romani, Paul G. Genever, Oana Dobre, Sirio Dupont, Massimo Vassalli, Pere Roca‐Cusachs, Manuel Salmerón‐Sánchez

2025Nature Communications16 citationsDOIOpen Access PDF

Abstract

Mechanosensitive ion channels such as Piezo1 have fundamental roles in sensing the mechanical properties of the extracellular matrix. However, whether and how Piezo1 senses time-dependent matrix mechanical properties, that is, viscoelasticity, remains unknown. To address this question, we combine an immortalised mesenchymal stem cell line, in which Piezo1 expression can be silenced, with soft and stiff viscoelastic hydrogels that have independently tuneable elastic and viscous moduli. We demonstrate that Piezo1 is a regulator of the mechanotransduction of viscoelasticity in soft matrices, both experimentally and through simulations incorporating Piezo1 into a modified viscoelastic molecular clutch model. Using RNA sequencing, we also identify the transcriptomic responses of mesenchymal stem cells to matrix viscoelasticity and Piezo1 activity, identifying gene signatures that reflect their mechanobiology in soft and stiff viscoelastic hydrogels.

Topics & Concepts

PIEZO1MechanotransductionMechanobiologyMechanosensitive channelsViscoelasticityExtracellular matrixSelf-healing hydrogelsMesenchymal stem cellCell biologyMechanosensationMatrix (chemical analysis)Materials scienceBiophysicsMicrorheologyIon channelRegulatorChemistryStrain (injury)RheometryChondrocyteNanotechnologyBiomedical engineeringErythrocyte Function and PathophysiologyCellular Mechanics and InteractionsBlood properties and coagulation