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The emergence of human primordial germ cell–like cells in stem cell–derived gastruloids

Jitesh Neupane, Gabriele Lubatti, Theresa Groß-Thebing, Mayra L. Ruiz Tejada Segura, Richard Butler, Sargon Gross-Thebing, Sabine Dietmann, Antonio Scialdone, M. Azim Surani

2025Science Advances11 citationsDOIOpen Access PDF

Abstract

Most advances in early human postimplantation development depend on animal studies and stem cell–based embryo models. Here, we present self-organized three-dimensional human gastruloids (hGs) derived from embryonic stem cells. The transcriptome profile of day 3 hGs aligned with Carnegie stage 7 human gastrula, with cell types and differentiation trajectories consistent with human gastrulation. Notably, we observed the emergence of nascent primordial germ cell–like cells (PGCLCs), but without exogenous bone morphogenetic protein (BMP) signaling, which is essential for the PGCLC fate. A mutation in the ISL1 gene affects amnion-like cells and leads to a loss of PGCLCs; the addition of exogenous BMP2 rescues the PGCLC fate, indicating that the amnion may provide endogenous BMP signaling. Our model of early human embryogenesis will enable further exploration of the germ line and other early human lineages.

Topics & Concepts

GastrulationBiologyCell biologyStem cellGerm layerEmbryonic stem cellGerm cellCellular differentiationBone morphogenetic proteinTranscriptomeEmbryoAmnionCell fate determinationGerm line developmentEmbryogenesisGeneticsGeneGene expressionInduced pluripotent stem cellTranscription factorFetusPregnancyRenal and related cancersPluripotent Stem Cells ResearchTissue Engineering and Regenerative Medicine
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