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Human embryo polarization requires PLC signaling to mediate trophectoderm specification

by Sozen, Berna , Paulson, Richard J , Scott, Richard T , Gradinaru, Viviana , de los Santos, Maria J , Zernicka Goetz, Magdalena , Chen, Zi-Jiang , Seli, Emre , Martin, Angel , Mandelbaum, Rachel S , Zhao, Han , Esbert, Marga , Zhang, Chuanxin , Titus, Shiny , Fishel, Simon , Zhu, Meng , Shahbazi, Marta , Wu, Keliang , Mole, Matteo A , Campbell, Alison , Borsos, Mate

in Actin / Actins - metabolism / Adult / Body Patterning / Cell Biology / Cell cycle / Cell Differentiation / Cell Lineage / Cell Polarity / Developmental Biology / Embryo / Embryo Culture Techniques / Embryo, Mammalian - enzymology / Embryogenesis / Embryonic development / Embryos / Experiments / Female / Fetuses / GATA-3 protein / GATA3 Transcription Factor - metabolism / Gene Expression Regulation, Developmental / Gene Expression Regulation, Enzymologic / human embryo / Humans / Localization / Molecular modelling / Muscle proteins / Phosphoinositide Phospholipase C / Phospholipase C / Phospholipase C beta / Polarization / Pregnancy / preimplantation / RNA-mediated interference / Signal Transduction / Time Factors / Transcription factors / Trophectoderm / Young Adult

2021

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2021

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2021

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Journal Article

Human embryo polarization requires PLC signaling to mediate trophectoderm specification

Sozen, Berna,

Paulson, Richard J,

Scott, Richard T,

Gradinaru, Viviana,

de los Santos, Maria J,

Zernicka Goetz, Magdalena,

Chen, Zi-Jiang,

Seli, Emre,

Martin, Angel,

Mandelbaum, Rachel S,

Zhao, Han,

Esbert, Marga,

Zhang, Chuanxin,

Titus, Shiny,

Fishel, Simon,

Zhu, Meng,

Shahbazi, Marta,

Wu, Keliang,

Mole, Matteo A,

Campbell, Alison,

Borsos, Mate

2021

Overview

Apico-basal polarization of cells within the embryo is critical for the segregation of distinct lineages during mammalian development. Polarized cells become the trophectoderm (TE), which forms the placenta, and apolar cells become the inner cell mass (ICM), the founding population of the fetus. The cellular and molecular mechanisms leading to polarization of the human embryo and its timing during embryogenesis have remained unknown. Here, we show that human embryo polarization occurs in two steps: it begins with the apical enrichment of F-actin and is followed by the apical accumulation of the PAR complex. This two-step polarization process leads to the formation of an apical domain at the 8–16 cell stage. Using RNA interference, we show that apical domain formation requires Phospholipase C (PLC) signaling, specifically the enzymes PLCB1 and PLCE1, from the eight-cell stage onwards. Finally, we show that although expression of the critical TE differentiation marker GATA3 can be initiated independently of embryo polarization, downregulation of PLCB1 and PLCE1 decreases GATA3 expression through a reduction in the number of polarized cells. Therefore, apical domain formation reinforces a TE fate. The results we present here demonstrate how polarization is triggered to regulate the first lineage segregation in human embryos.

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Publisher

eLife Science Publications, Ltd,eLife Sciences Publications Ltd,eLife Sciences Publications, Ltd

Subject

Actin

/ Actins - metabolism

/ Adult

/ Body Patterning

/ Cell Biology

/ Cell cycle

/ Cell Differentiation