Control of cell-cell forces and collective cell dynamics by the intercellular adhesome
Rights accessOpen Access
European Commisision's projectGENESFORCEMOTION - Physical Forces Driving Collective Cell Migration: from Genes to Mechanism (EC-FP7-242993)
GRODYNET - Group-based Dynamics on Complex Networks (EC-FP7-277166)
MECPATH - Mechanical pathways in cells: from molecular mechanisms to cell function (EC-FP7-303848)
TENSIONCONTROL - Multiscale regulation of epithelial tension (EC-FP7-616480)
DEDINET - Decomposition and Discovery of Complex Networks (EC-FP7-268342)
Dynamics of epithelial tissues determine key processes in development, tissue healing and cancer invasion. These processes are critically influenced by cell-cell adhesion forces. However, the identity of the proteins that resist and transmit forces at cell-cell junctions remains unclear, and how these proteins control tissue dynamics is largely unknown. Here we provide a systematic study of the interplay between cell-cell adhesion proteins, intercellular forces and epithelial tissue dynamics. We show that collective cellular responses to selective perturbations of the intercellular adhesome conform to three mechanical phenotypes. These phenotypes are controlled by different molecular modules and characterized by distinct relationships between cellular kinematics and intercellular forces. We show that these forces and their rates can be predicted by the concentrations of cadherins and catenins. Unexpectedly, we identified different mechanical roles for P-cadherin and E-cadherin; whereas P-cadherin predicts levels of intercellular force, E-cadherin predicts the rate at which intercellular force builds up.
CitationBazellieres, E., Conte, V., Elosegui, A., Serra-Picamal, X., Bintanel, M., Roca, P., Muñoz, J.J., Sales, M., Guimerà, R., Trepat, X. Control of cell-cell forces and collective cell dynamics by the intercellular adhesome. "Nature cell biology", 01 Abril 2015, núm. 4.