Physics of active jamming during collective cellular motion in a monolayer

Significance

Collective cell motion is very important in many biological processes such as wound healing, embryogenesis, or cancer progression. Nevertheless, it is not clear which parameters control the transition from freely moving single cells to collective jammed motion. In this article, we uncover complex dynamics as a cell monolayer ages, where cell motion is shown to gradually slow down with time, while the distance over which cell displacements are correlated first increases drastically and then decreases. This change of behavior is not controlled by cell density but rather by a maturation of the cell−cell and cell−substrate contacts. By comparing experiments, analytic model, and detailed particle-based simulations, we shed light on this biological amorphous solidification process.