Collective cell migration of epithelial cells driven by chiral torque generation
Takaki Yamamoto, Tetsuya Hiraiwa, Tatsuo Shibata
Abstract
Various multicellular tissues show chiral morphology. Experimental studies have suggested that this can originate from the chirality of individual cells. However, no theory has been proposed to connect the cellular chiral torque and multicellular chiral morphogenesis. We propose a model of confluent tissue dynamics with cellular chiral torque. We found that cells migrate unidirectionally under a gradient of cellular chiral torque. While the migration speed varies depending on the tissue's mechanical parameters, it is determined solely by a structural order parameter for the liquid-to-solid transition in confluent tissues.
Topics & Concepts
Multicellular organismChirality (physics)TorqueDynamics (music)BiophysicsPhysicsCell migrationChemistryOrder (exchange)CellExtracellular matrixMaterials scienceMotilityBiological systemCellular Mechanics and InteractionsMathematical Biology Tumor GrowthMicro and Nano Robotics