Mechanotransduction – a field pulling together?

Christopher S Chen

fascia stiffness mechanobiology cell adhesion mechanical force traction force rigidity

Key takeaways

01This review article explores mechanotransduction
02Cells respond to both external and internal mechanical forces
03Cell adhesions may play a key role in sensing force
04Different mechanical cues might use shared signaling pathways

Cells may use common machinery, especially at adhesion sites, to translate diverse mechanical forces into biochemical signals.

Abstract

Mechanical stresses are ever present in the cellular environment, whether through external forces that are applied to tissues or endogenous forces that are generated within the active cytoskeleton. Despite the wide array of studies demonstrating that such forces affect cellular signaling and function, it remains unclear whether mechanotransduction in different contexts shares common mechanisms. Here, I discuss possible mechanisms by which applied forces, cell-generated forces and changes in substrate mechanics could exert changes in cell function through common mechanotransduction machinery. I draw from examples that are primarily focused on the role of adhesions in transducing mechanical forces. Based on this discussion, emerging themes arise that connect these different areas of inquiry and suggest multiple avenues for future studies.

Cite this study

APA: Christopher S Chen (2008). Mechanotransduction – a field pulling together?. https://fasciaresearchdatabase.com/mechanotransduction-a-field-pulling-together/
MLA: Christopher S Chen. "Mechanotransduction – a field pulling together?." 2008, https://fasciaresearchdatabase.com/mechanotransduction-a-field-pulling-together/.
Chicago: Christopher S Chen. 2008. "Mechanotransduction – a field pulling together?.". https://fasciaresearchdatabase.com/mechanotransduction-a-field-pulling-together/