Intercellular adhesion stiffness moderates cell decoupling on stiff substrates

Abstract: The interplay between cell-cell and cell-substrate interactions is complex yet necessary for the formation and well-functioning of tissues. The same mechanosensing mechanisms used by the cell to sense its extracellular matrix, also play a role in intercellular interactions. We used the discrete element method to develop a computational model of a deformable cell that includes subcellular components responsible for mechanosensing. We modeled a cell pair in 3D on a patterned substrate, a simple laboratory setup … Show more

“…Vargas et. al [ 68 ] hypothesize that the point at which substrate stiffness becomes as high as that of the cell–cell interface corresponds to configurations where cell–substrate biophysics may dominate. (d) Atomic force microscopy (AFM) indentation measurements of cells that were cultured on deformable substrates suggest that cells adapt their stiffness to that of their surroundings.…”

Matrix Stiffness Modulates Mechanical Interactions and Promotes Contact between Motile Cells

“…Vargas et. al [ 68 ] hypothesize that the point at which substrate stiffness becomes as high as that of the cell–cell interface corresponds to configurations where cell–substrate biophysics may dominate. (d) Atomic force microscopy (AFM) indentation measurements of cells that were cultured on deformable substrates suggest that cells adapt their stiffness to that of their surroundings.…”

Matrix Stiffness Modulates Mechanical Interactions and Promotes Contact between Motile Cells