Litcius/Paper detail

Active inter-cellular forces in collective cell motility

Guanming Zhang, Romain Mueller, Amin Doostmohammadi, Julia M. Yeomans

2020Journal of The Royal Society Interface35 citationsDOIOpen Access PDF

Abstract

The collective behaviour of confluent cell sheets is strongly influenced both by polar forces, arising through cytoskeletal propulsion, and by active inter-cellular forces, which are mediated by interactions across cell-cell junctions. We use a phase-field model to explore the interplay between these two contributions and compare the dynamics of a cell sheet when the polarity of the cells aligns to (i) their main axis of elongation, (ii) their velocity and (iii) when the polarity direction executes a persistent random walk. In all three cases, we observe a sharp transition from a jammed state (where cell rearrangements are strongly suppressed) to a liquid state (where the cells can move freely relative to each other) when either the polar or the inter-cellular forces are increased. In addition, for case (ii) only, we observe an additional dynamical state, flocking (solid or liquid), where the majority of the cells move in the same direction. The flocking state is seen for strong polar forces, but is destroyed as the strength of the inter-cellular activity is increased.

Topics & Concepts

Flocking (texture)CytoskeletonCell polarityCollective behaviorMotilityPolarity (international relations)PolarCollective motionBiophysicsPhysicsDynamics (music)Active matterCellChemistryMechanicsClassical mechanicsBiologyCell biologyAnthropologyQuantum mechanicsBiochemistryAstronomySociologyAcousticsCellular Mechanics and Interactions3D Printing in Biomedical ResearchMicrofluidic and Bio-sensing Technologies