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Cell segregation via differential collision modes between heterotypic cell populations

Stephani Edwina Lucia, Hyuntae Jeong, Jennifer H. Shin

2022Molecular Biology of the Cell13 citationsDOIOpen Access PDF

Abstract

In tissue development and regeneration, the establishment of sharp boundaries between heterotypic cells is essential for the differentiation of tissue functions. During the dynamic rearrangements of constituent cells that result from cell division and collective migration, the segregation boundary encounters various challenges. Several studies have suggested that cortical actomyosin structures play a crucial role in the maintenance of the boundary interface of segregated cell populations, implicating actin-mediated stresses. Examining physical cellular properties such as motility, traction, and intercellular stress, we investigated the formation and maintenance of the stable segregation between epithelial and mesenchymal cell populations devoid of heterotypic adhesions. At the contact boundary, the homotypic adhesion-mediated epithelial aggregates exerted collision-mediated compression against the surrounding mesenchymal cells. Our results demonstrated that heterotypic cell populations established a robust interfacial boundary by accumulating stress from active collisions and repulsions between two dissimilar cell types. Furthermore, the moment of the heterotypic collisions was identified by the existence of a sharp rise in maximum shear stress within the cell cluster.

Topics & Concepts

BiologyCell biologyMotilityActinCellMesenchymal stem cellCell divisionIntracellularCell adhesionCell migrationBiophysicsGeneticsCellular Mechanics and Interactions3D Printing in Biomedical ResearchSpaceflight effects on biology
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