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Plakoglobin is a mechanoresponsive regulator of naive pluripotency

Timo N. Kohler, Joachim De Jonghe, Anna L. Ellermann, Ayaka Yanagida, Michael Herger, Erin Slatery, Antonia Weberling, Clara Munger, Katrin Fischer, Carla Mulas, Alexander Winkel, Connor Ross, Sophie Bergmann, Kristian Franze, Kevin J. Chalut, Jennifer Nichols, Thorsten Boroviak, Florian Hollfelder

2023Nature Communications13 citationsDOIOpen Access PDF

Abstract

Biomechanical cues are instrumental in guiding embryonic development and cell differentiation. Understanding how these physical stimuli translate into transcriptional programs will provide insight into mechanisms underlying mammalian pre-implantation development. Here, we explore this type of regulation by exerting microenvironmental control over mouse embryonic stem cells. Microfluidic encapsulation of mouse embryonic stem cells in agarose microgels stabilizes the naive pluripotency network and specifically induces expression of Plakoglobin (Jup), a vertebrate homolog of β-catenin. Overexpression of Plakoglobin is sufficient to fully re-establish the naive pluripotency gene regulatory network under metastable pluripotency conditions, as confirmed by single-cell transcriptome profiling. Finally, we find that, in the epiblast, Plakoglobin was exclusively expressed at the blastocyst stage in human and mouse embryos - further strengthening the link between Plakoglobin and naive pluripotency in vivo. Our work reveals Plakoglobin as a mechanosensitive regulator of naive pluripotency and provides a paradigm to interrogate the effects of volumetric confinement on cell-fate transitions.

Topics & Concepts

EpiblastEmbryonic stem cellBiologyCell biologyBlastodermPlakoglobinGastrulationGerm layerRegulatorInduced pluripotent stem cellGeneticsEmbryoEmbryogenesisWnt signaling pathwayGeneCateninSignal transductionPluripotent Stem Cells Research3D Printing in Biomedical ResearchCRISPR and Genetic Engineering
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