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A single-cell atlas of pig gastrulation as a resource for comparative embryology

Luke Simpson, A. Strange, Doris Klisch, Sophie Kraunsoe, Takuya Azami, Daniel E. Goszczynski, Triet Le Minh, Benjamín Planells, Nadine Holmes, Fei Sang, Sonal Henson, Matthew Loose, Jennifer Nichols, Ramiro Alberio

2024Nature Communications24 citationsDOIOpen Access PDF

Abstract

Cell-fate decisions during mammalian gastrulation are poorly understood outside of rodent embryos. The embryonic disc of pig embryos mirrors humans, making them a useful proxy for studying gastrulation. Here we present a single-cell transcriptomic atlas of pig gastrulation, revealing cell-fate emergence dynamics, as well as conserved and divergent gene programs governing early porcine, primate, and murine development. We highlight heterochronicity in extraembryonic cell-types, despite the broad conservation of cell-type-specific transcriptional programs. We apply these findings in combination with functional investigations, to outline conserved spatial, molecular, and temporal events during definitive endoderm specification. We find early FOXA2 + /TBXT- embryonic disc cells directly form definitive endoderm, contrasting later-emerging FOXA2/TBXT+ node/notochord progenitors. Unlike mesoderm, none of these progenitors undergo epithelial-to-mesenchymal transition. Endoderm/Node fate hinges on balanced WNT and hypoblast-derived NODAL, which is extinguished upon endodermal differentiation. These findings emphasise the interplay between temporal and topological signalling in fate determination during gastrulation.

Topics & Concepts

EndodermGastrulationMesodermBiologyZebrafishCell fate determinationFate mappingNODALCell biologyNotochordEmbryonic stem cellProgenitor cellNodal signalingBlastulaEmbryoEpibolyEmbryogenesisAnatomyStem cellGeneticsTranscription factorGeneSingle-cell and spatial transcriptomicsPluripotent Stem Cells ResearchCongenital heart defects research
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