Litcius/Paper detail

Tissue mechanical properties modulate cell extrusion in the <i>Drosophila</i> abdominal epidermis

Marcus Michel, Christian Dahmann

2020Development33 citationsDOIOpen Access PDF

Abstract

pupal abdomen, larval epidermal cells (LECs) are replaced by adult progenitor cells (histoblasts). Previous work showed that interactions between histoblasts and LECs result in apoptotic extrusion of LECs during early pupal development. Extrusion of cells is closely preceded by caspase activation and is executed by contraction of a cortical actomyosin cable. Here, we identify a population of LECs that extrudes independently of the presence of histoblasts during late pupal development. Extrusion of these LECs is not closely preceded by caspase activation, involves a pulsatile medial actomyosin network, and correlates with a developmental time period when mechanical tension and E-cadherin turnover at adherens junctions is particularly high. Our work reveals a developmental switch in the cell extrusion mechanism that correlates with changes in tissue mechanical properties.

Topics & Concepts

BiologyCell biologyAdherens junctionDermisEpidermis (zoology)AnatomyPopulationDevelopmental biologyCellCadherinGeneticsSociologyDemographyCellular Mechanics and InteractionsMarine Biology and Environmental ChemistrySilk-based biomaterials and applications
Tissue mechanical properties modulate cell extrusion in the <i>Drosophila</i> abdominal epidermis | Litcius