Add to ORKGCell motility is driven by the sum of asymmetric traction forces exerted on the substrate through adhesion foci that interface with the actin cytoskeleton. Establishment of this asymmetry involves microtubules, which exert a destabilising effect on adhesion foci via targeting events. Here, we demonstrate the existence of a mechano-sensing mechanism that signals microtubule polymerisation and guidance of the microtubules towards adhesion sites under increased stress. Stress was applied either by manipulating the body of cells moving on glass with a microneedle or by stretching a flexible substrate that cells were migrating on. We propose a model for this mechano-sensing phenomenon whereby microtubule polymerisation is stimulated and guided t...
Mechanical forces play a crucial role in controlling the integrity and functionality of cells and ti...
Although it is a central question in biology, how cell shape controls intracellular dynamics largely...
The emerging fields of tissue engineering and regenerative medicine hold enormous promise to fulfill...
Cell motility is driven by the sum of asymmetric traction forces exerted on the substrate through ad...
Mechanical signals play many roles in cell and developmental biology. Several mechanotransduction pa...
International audienceMechanical signals play many roles in cell and developmental biology. Several ...
International audienceMechanical signals play many roles in cell and developmental biology. Several ...
International audienceMechanical signals play many roles in cell and developmental biology. Several ...
International audienceMechanical signals play many roles in cell and developmental biology. Several ...
International audienceMechanical signals play many roles in cell and developmental biology. Several ...
International audienceThe crosstalk between the actin network and microtubules is essential for cell...
International audienceThe crosstalk between the actin network and microtubules is essential for cell...
Microtubules are cytoskeleton components with unique mechanical and dynamic properties. They are rig...
International audienceMicrotubules are cytoskeleton components with unique mechanical and dynamic pr...
Mechanical forces play a crucial role in controlling the integrity and functionality of cells and ti...
Mechanical forces play a crucial role in controlling the integrity and functionality of cells and ti...
Although it is a central question in biology, how cell shape controls intracellular dynamics largely...
The emerging fields of tissue engineering and regenerative medicine hold enormous promise to fulfill...
Cell motility is driven by the sum of asymmetric traction forces exerted on the substrate through ad...
Mechanical signals play many roles in cell and developmental biology. Several mechanotransduction pa...
International audienceMechanical signals play many roles in cell and developmental biology. Several ...
International audienceMechanical signals play many roles in cell and developmental biology. Several ...
International audienceMechanical signals play many roles in cell and developmental biology. Several ...
International audienceMechanical signals play many roles in cell and developmental biology. Several ...
International audienceMechanical signals play many roles in cell and developmental biology. Several ...
International audienceThe crosstalk between the actin network and microtubules is essential for cell...
International audienceThe crosstalk between the actin network and microtubules is essential for cell...
Microtubules are cytoskeleton components with unique mechanical and dynamic properties. They are rig...
International audienceMicrotubules are cytoskeleton components with unique mechanical and dynamic pr...
Mechanical forces play a crucial role in controlling the integrity and functionality of cells and ti...
Mechanical forces play a crucial role in controlling the integrity and functionality of cells and ti...
Although it is a central question in biology, how cell shape controls intracellular dynamics largely...
The emerging fields of tissue engineering and regenerative medicine hold enormous promise to fulfill...