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The Wnt/TCF7L1 transcriptional repressor axis drives primitive endoderm formation by antagonizing naive and formative pluripotency

Author

Listed:
  • Paraskevi Athanasouli

    (KU Leuven, Department of Development and Regeneration, Stem Cell Institute)

  • Martina Balli

    (KU Leuven, Department of Development and Regeneration, Stem Cell Institute)

  • Anchel Jaime-Soguero

    (KU Leuven, Department of Development and Regeneration, Stem Cell Institute)

  • Annekatrien Boel

    (Ghent University Hospital)

  • Sofia Papanikolaou

    (University of Crete
    Computational Genomics Group, Institute of Bioinnovation, Biomedical Sciences Research Center “Alexander Fleming”)

  • Bernard K. Veer

    (KU Leuven, Department of Development and Regeneration, Stem Cell Institute)

  • Adrian Janiszewski

    (KU Leuven, Department of Development and Regeneration, Stem Cell Institute)

  • Tijs Vanhessche

    (KU Leuven, Department of Development and Regeneration, Stem Cell Institute)

  • Annick Francis

    (Department of Cardiovascular Sciences, KU Leuven)

  • Youssef El Laithy

    (KU Leuven, Department of Development and Regeneration, Stem Cell Institute)

  • Antonio Lo Nigro

    (KU Leuven, Department of Development and Regeneration, Stem Cell Institute)

  • Francesco Aulicino

    (Centre for Genomic Regulation (CRG), Dr Aiguader 88)

  • Kian Peng Koh

    (KU Leuven, Department of Development and Regeneration, Stem Cell Institute)

  • Vincent Pasque

    (KU Leuven, Department of Development and Regeneration, Stem Cell Institute
    KU Leuven Institute for Single-Cell Omics (LISCO))

  • Maria Pia Cosma

    (Centre for Genomic Regulation (CRG), Dr Aiguader 88
    ICREA, Pg. Lluis Companys 23
    Universitat Pompeu Fabra (UPF))

  • Catherine Verfaillie

    (KU Leuven, Department of Development and Regeneration, Stem Cell Institute)

  • An Zwijsen

    (Department of Cardiovascular Sciences, KU Leuven)

  • Björn Heindryckx

    (Ghent University Hospital)

  • Christoforos Nikolaou

    (Computational Genomics Group, Institute of Bioinnovation, Biomedical Sciences Research Center “Alexander Fleming”)

  • Frederic Lluis

    (KU Leuven, Department of Development and Regeneration, Stem Cell Institute)

Abstract

Early during preimplantation development and in heterogeneous mouse embryonic stem cells (mESC) culture, pluripotent cells are specified towards either the primed epiblast or the primitive endoderm (PE) lineage. Canonical Wnt signaling is crucial for safeguarding naive pluripotency and embryo implantation, yet the role and relevance of canonical Wnt inhibition during early mammalian development remains unknown. Here, we demonstrate that transcriptional repression exerted by Wnt/TCF7L1 promotes PE differentiation of mESCs and in preimplantation inner cell mass. Time-series RNA sequencing and promoter occupancy data reveal that TCF7L1 binds and represses genes encoding essential naive pluripotency factors and indispensable regulators of the formative pluripotency program, including Otx2 and Lef1. Consequently, TCF7L1 promotes pluripotency exit and suppresses epiblast lineage formation, thereby driving cells into PE specification. Conversely, TCF7L1 is required for PE specification as deletion of Tcf7l1 abrogates PE differentiation without restraining epiblast priming. Taken together, our study underscores the importance of transcriptional Wnt inhibition in regulating lineage specification in ESCs and preimplantation embryo development as well as identifies TCF7L1 as key regulator of this process.

Suggested Citation

  • Paraskevi Athanasouli & Martina Balli & Anchel Jaime-Soguero & Annekatrien Boel & Sofia Papanikolaou & Bernard K. Veer & Adrian Janiszewski & Tijs Vanhessche & Annick Francis & Youssef El Laithy & Ant, 2023. "The Wnt/TCF7L1 transcriptional repressor axis drives primitive endoderm formation by antagonizing naive and formative pluripotency," Nature Communications, Nature, vol. 14(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36914-1
    DOI: 10.1038/s41467-023-36914-1
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    References listed on IDEAS

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    1. Timo N. Kohler & Joachim Jonghe & Anna L. Ellermann & Ayaka Yanagida & Michael Herger & Erin M. Slatery & Antonia Weberling & Clara Munger & Katrin Fischer & Carla Mulas & Alex Winkel & Connor Ross & , 2023. "Plakoglobin is a mechanoresponsive regulator of naive pluripotency," Nature Communications, Nature, vol. 14(1), pages 1-19, December.

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