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ERK activation waves coordinate mechanical cell competition leading to collective elimination via extrusion of bacterially infected cells

Lara Hundsdorfer, Marie Muenkel, Raúl Aparicio-Yuste, Julio César Sánchez-Rendón, María José Gómez‐Benito, Aylin Balmes, Tilman E. Schäffer, Ana Velić, Yi‐Ting Yeh, Iordania Constantinou, Kathryn E. Wright, Gizem Özbaykal Güler, Dominik Brokatzky, Boris Maček, Serge Mostowy, E Bastounis

2025Cell Reports12 citationsDOIOpen Access PDF

Abstract

Epithelial cells respond to infection with the intracellular bacterial pathogen Listeria monocytogenes by altering their mechanics to promote collective infected cell extrusion (CICE) and limit infection spread across cell monolayers. However, the underlying biochemical pathways remain elusive. Here, using in vitro (epithelial monolayers) and in vivo (zebrafish larvae) models of infection with L. monocytogenes or Shigella flexneri, we explored the role of extracellular-signal-regulated kinase (ERK) activity waves in coordinating the mechanical battle between infected and surrounder uninfected cells that leads to CICE. We discovered that when ERK waves are suppressed, cells fail to exhibit alterations in cell shape and kinematics associated with CICE and behave more like quiescent uninfected monolayers. In particular, uninfected cells surrounding infection foci are unable to polarize, reinforce their monolayer stresses, and promote CICE. Our findings reveal that crosstalk between ERK waves and cell mechanics is key to collective elimination of large domains of infected cells.

Topics & Concepts

MAPK/ERK pathwayCell biologyExtrusionCompetition (biology)ChemistryCellBiophysicsBiologySignal transductionMaterials scienceBiochemistryComposite materialEcologyCellular Mechanics and InteractionsBacterial biofilms and quorum sensingAdvanced Fluorescence Microscopy Techniques