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Traction force and mechanosensitivity mediate species-specific implantation patterns in human and mouse embryos

Amélie Luise Godeau, Anna Seriola, Oren Tchaicheeyan, Marc Casals, Denitza Denkova, Ester Aroca, Ot Massafret, Albert Parra, Maria Demestre, Anna Ferrer‐Vaquer, Shahar Goren, Anna Veiga, Miquel Solé, Montserrat Boada, Jordi Comelles, Elena Martínez, Julien Colombelli, Ayelet Lesman, Samuel Ojosnegros

2025Science Advances10 citationsDOIOpen Access PDF

Abstract

The invasion of human embryos in the uterus overcoming the maternal tissue barrier is a crucial step in embryo implantation and subsequent development. Although tissue invasion is fundamentally a mechanical process, most studies have focused on the biochemical and genetic aspects of implantation. Here, we fill the gap by using a deformable ex vivo platform to visualize traction during human embryo implantation. We demonstrate that embryos apply forces remodeling the matrix with species-specific displacement amplitudes and distinct radial patterns: principal displacement directions for mouse embryos, expanding on the surface while human embryos insert in the matrix generating multiple traction foci. Implantation-impaired human embryos showed reduced displacement, as well as mouse embryos with inhibited integrin-mediated force transmission. External mechanical cues induced a mechanosensitive response, human embryos recruited myosin, and directed cell protrusions, while mouse embryos oriented their implantation or body axis toward the external cue. These findings underscore the role of mechanical forces in driving species-specific invasion patterns during embryo implantation.

Topics & Concepts

EmbryoCell biologyBiologyMechanosensitive channelsTraction (geology)MyosinExtracellular matrixAnatomyEmbryogenesisGeneticsPaleontologyIon channelReceptorReproductive System and PregnancyReproductive Biology and FertilityCellular Mechanics and Interactions
Traction force and mechanosensitivity mediate species-specific implantation patterns in human and mouse embryos | Litcius