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Cellular contractile forces are nonmechanosensitive.

Lea FeldLior KellermanAbhishek MukherjeeAriel LivneEran BouchbinderHaguy Wolfenson
Published in: Science advances (2020)
Cells' ability to apply contractile forces to their environment and to sense its mechanical properties (e.g., rigidity) are among their most fundamental features. Yet, the interrelations between contractility and mechanosensing, in particular, whether contractile force generation depends on mechanosensing, are not understood. We use theory and extensive experiments to study the time evolution of cellular contractile forces and show that they are generated by time-dependent actomyosin contractile displacements that are independent of the environment's rigidity. Consequently, contractile forces are nonmechanosensitive. We further show that the force-generating displacements are directly related to the evolution of the actomyosin network, most notably to the time-dependent concentration of F-actin. The emerging picture of force generation and mechanosensitivity offers a unified framework for understanding contractility.
Keyphrases
  • smooth muscle
  • skeletal muscle
  • single molecule
  • cell death
  • oxidative stress
  • cell cycle arrest
  • signaling pathway
  • drug induced