A gastruloid model of the interaction between embryonic and extra-embryonic cell types

Noémie M.L.P. Bérenger-Currias; Maria Mircea; Esmée Adegeest; Patrick R. van den Berg; Marleen Feliksik; Mazène Hochane; Timon Idema; Sander J. Tans; Stefan Semrau

doi:10.1177/20417314221103042

A gastruloid model of the interaction between embryonic and extra-embryonic cell types

Noémie M.L.P. Bérenger-Currias, Maria Mircea, Esmée Adegeest, Patrick R. van den Berg, Marleen Feliksik, Mazène Hochane, Timon Idema, Sander J. Tans, Stefan Semrau^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

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Abstract

Stem-cell derived in vitro systems, such as organoids or embryoids, hold great potential for modeling in vivo development. Full control over their initial composition, scalability, and easily measurable dynamics make those systems useful for studying specific developmental processes in isolation. Here we report the formation of gastruloids consisting of mouse embryonic stem cells (mESCs) and extraembryonic endoderm (XEN) cells. These XEN-enhanced gastruloids (XEGs) exhibit the formation of neural epithelia, which are absent in gastruloids derived from mESCs only. By single-cell RNA-seq, imaging, and differentiation experiments, we demonstrate the neural characteristics of the epithelial tissue. We further show that the mESCs induce the differentiation of the XEN cells to a visceral endoderm-like state. Finally, we demonstrate that local inhibition of WNT signaling and production of a basement membrane by the XEN cells underlie the formation of the neuroepithelial tissue. In summary, we establish XEGs to explore heterotypic cellular interactions and their developmental consequences in vitro.

Original language	English
Number of pages	18
Journal	Journal of Tissue Engineering
Volume	13
DOIs	https://doi.org/10.1177/20417314221103042
Publication status	Published - 2022

Keywords

Gastruloids
neuroepithelium
single-cell transcriptomics
stem cell engineering

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20417314221103042Final published version, 11 MBLicence: CC BY

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title = "A gastruloid model of the interaction between embryonic and extra-embryonic cell types",

abstract = "Stem-cell derived in vitro systems, such as organoids or embryoids, hold great potential for modeling in vivo development. Full control over their initial composition, scalability, and easily measurable dynamics make those systems useful for studying specific developmental processes in isolation. Here we report the formation of gastruloids consisting of mouse embryonic stem cells (mESCs) and extraembryonic endoderm (XEN) cells. These XEN-enhanced gastruloids (XEGs) exhibit the formation of neural epithelia, which are absent in gastruloids derived from mESCs only. By single-cell RNA-seq, imaging, and differentiation experiments, we demonstrate the neural characteristics of the epithelial tissue. We further show that the mESCs induce the differentiation of the XEN cells to a visceral endoderm-like state. Finally, we demonstrate that local inhibition of WNT signaling and production of a basement membrane by the XEN cells underlie the formation of the neuroepithelial tissue. In summary, we establish XEGs to explore heterotypic cellular interactions and their developmental consequences in vitro.",

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year = "2022",

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language = "English",

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T1 - A gastruloid model of the interaction between embryonic and extra-embryonic cell types

AU - Bérenger-Currias, Noémie M.L.P.

AU - Mircea, Maria

AU - Adegeest, Esmée

AU - van den Berg, Patrick R.

AU - Feliksik, Marleen

AU - Hochane, Mazène

AU - Idema, Timon

AU - Tans, Sander J.

AU - Semrau, Stefan

PY - 2022

Y1 - 2022

N2 - Stem-cell derived in vitro systems, such as organoids or embryoids, hold great potential for modeling in vivo development. Full control over their initial composition, scalability, and easily measurable dynamics make those systems useful for studying specific developmental processes in isolation. Here we report the formation of gastruloids consisting of mouse embryonic stem cells (mESCs) and extraembryonic endoderm (XEN) cells. These XEN-enhanced gastruloids (XEGs) exhibit the formation of neural epithelia, which are absent in gastruloids derived from mESCs only. By single-cell RNA-seq, imaging, and differentiation experiments, we demonstrate the neural characteristics of the epithelial tissue. We further show that the mESCs induce the differentiation of the XEN cells to a visceral endoderm-like state. Finally, we demonstrate that local inhibition of WNT signaling and production of a basement membrane by the XEN cells underlie the formation of the neuroepithelial tissue. In summary, we establish XEGs to explore heterotypic cellular interactions and their developmental consequences in vitro.

AB - Stem-cell derived in vitro systems, such as organoids or embryoids, hold great potential for modeling in vivo development. Full control over their initial composition, scalability, and easily measurable dynamics make those systems useful for studying specific developmental processes in isolation. Here we report the formation of gastruloids consisting of mouse embryonic stem cells (mESCs) and extraembryonic endoderm (XEN) cells. These XEN-enhanced gastruloids (XEGs) exhibit the formation of neural epithelia, which are absent in gastruloids derived from mESCs only. By single-cell RNA-seq, imaging, and differentiation experiments, we demonstrate the neural characteristics of the epithelial tissue. We further show that the mESCs induce the differentiation of the XEN cells to a visceral endoderm-like state. Finally, we demonstrate that local inhibition of WNT signaling and production of a basement membrane by the XEN cells underlie the formation of the neuroepithelial tissue. In summary, we establish XEGs to explore heterotypic cellular interactions and their developmental consequences in vitro.

KW - Gastruloids

KW - neuroepithelium

KW - single-cell transcriptomics

KW - stem cell engineering

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DO - 10.1177/20417314221103042

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SN - 2041-7314

VL - 13

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JF - Journal of Tissue Engineering

ER -

A gastruloid model of the interaction between embryonic and extra-embryonic cell types

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Keywords

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