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A comprehensive model of Drosophila epithelium reveals the role of embryo geometry and cell topology in mechanical responses

Mohamad Ibrahim Cheikh, Joël Tchoufag, Miriam Osterfield, Kevin M. Dean, Swayamdipta Bhaduri, Chuzhong Zhang, Kranthi K. Mandadapu, Konstantin Doubrovinski

2023eLife16 citationsDOIOpen Access PDF

Abstract

embryo as a model, we describe a novel cantilever-based technique which allows for the simultaneous quantification of applied force and tissue displacement in a living embryo. By analyzing data from a series of experiments in which embryonic epithelium is subjected to developmentally relevant perturbations, we conclude that the response to applied force is adiabatic and is dominated by elastic forces and geometric constraints, or system size effects. Crucially, computational modeling of the experimental data indicated that the apical surface of the epithelium must be softer than the basal surface, a result which we confirmed experimentally. Further, we used the combination of experimental data and comprehensive computational model to estimate the elastic modulus of the apical surface and set a lower bound on the elastic modulus of the basal surface. More generally, our investigations revealed important general features that we believe should be more widely addressed when quantitatively modeling tissue mechanics in any system. Specifically, different compartments of the same cell can have very different mechanical properties; when they do, they can contribute differently to different mechanical stimuli and cannot be merely averaged together. Additionally, tissue geometry can play a substantial role in mechanical response, and cannot be neglected.

Topics & Concepts

EpitheliumMorphogenesisElastic modulusFinite element methodBiological systemSurface (topology)Displacement (psychology)GeometryBiophysicsMechanicsMaterials scienceBiologyPhysicsMathematicsEngineeringStructural engineeringComposite materialBiochemistryGeneticsPsychologyPsychotherapistGeneCellular Mechanics and InteractionsSpaceflight effects on biologyPlanarian Biology and Electrostimulation
A comprehensive model of Drosophila epithelium reveals the role of embryo geometry and cell topology in mechanical responses | Litcius