The Hard Life of Soft Cells

P A Janmey, J P Winer, M E Murray, Q Wen

fascia mechanotransduction substrate stiffness cell mechanics

Key takeaways

01Cells are mechanical as well as chemical machines
02Cells create and respond to physical forces
03Substrate stiffness affects cell behavior and differentiation
04Mechanical cues can override chemical signals

A cell's behavior is strongly influenced by the mechanical stiffness of its surrounding tissue, not just by chemical signals.

Abstract

Cells are mechanical as well as chemical machines, and much of the energy they consume is used to apply forces to each other and to the extracellular matrix around them. The cytoskeleton, the cell membrane, and the macromolecules composing the extracellular matrix form networks that in concert with the forces generated by the cell create dynamic materials with viscoelastic properties unique to each tissue. Numerous recent studies suggest that the forces that cells create and are subjected to, as well as the mechanical properties of the materials to which they adhere, can have large effects on cell structure and function that can act in concert with or override signals from soluble stimuli. This brief review summarizes recent studies of the effects of substrate mechanics on cell motility, differentiation, and proliferation, and discusses possible mechanisms by which a cell can probe the stiffness of its surroundings.

Cite this study

APA: P A Janmey, J P Winer, M E Murray, & Q Wen (2009). The Hard Life of Soft Cells. https://fasciaresearchdatabase.com/the-hard-life-of-soft-cells/
MLA: P A Janmey, et al. "The Hard Life of Soft Cells." 2009, https://fasciaresearchdatabase.com/the-hard-life-of-soft-cells/.
Chicago: P A Janmey et al. 2009. "The Hard Life of Soft Cells.". https://fasciaresearchdatabase.com/the-hard-life-of-soft-cells/