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Cell orientation under stretch: A review of experimental findings and mathematical modelling

Chiara Giverso, Nadia Loy, Giulio Lucci, Luigi Preziosi

2023Journal of Theoretical Biology17 citationsDOIOpen Access PDF

Abstract

The key role of electro-chemical signals in cellular processes had been known for many years, but more recently the interplay with mechanics has been put in evidence and attracted substantial research interests. Indeed, the sensitivity of cells to mechanical stimuli coming from the microenvironment turns out to be relevant in many biological and physiological circumstances. In particular, experimental evidence demonstrated that cells on elastic planar substrates undergoing periodic stretches, mimicking native cyclic strains in the tissue where they reside, actively reorient their cytoskeletal stress fibres. At the end of the realignment process, the cell axis forms a certain angle with the main stretching direction. Due to the importance of a deeper understanding of mechanotransduction, such a phenomenon was studied both from the experimental and the mathematical modelling point of view. The aim of this review is to collect and discuss both the experimental results on cell reorientation and the fundamental features of the mathematical models that have been proposed in the literature.

Topics & Concepts

MechanotransductionProcess (computing)MechanicsCytoskeletonOrientation (vector space)MechanobiologyBiological systemMathematical modelNeuroscienceComputer scienceBiophysicsCellBiologyPhysicsAnatomyMathematicsGeometryGeneticsQuantum mechanicsOperating systemCellular Mechanics and InteractionsElasticity and Material ModelingMicrofluidic and Bio-sensing Technologies
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