Generating human blastoids modeling blastocyst-stage embryos and implantation

doi:10.1038/s41596-023-00802-1

Review

. 2023 May;18(5):1584-1620.

doi: 10.1038/s41596-023-00802-1. Epub 2023 Feb 15.

Generating human blastoids modeling blastocyst-stage embryos and implantation

Affiliations

¹ Institute of Molecular Biotechnology of the Austrian Academy of Sciences (IMBA), Vienna BioCenter (VBC), Vienna, Austria.
² Université de Nantes, CHU Nantes, Inserm, CR2TI, UMR 1064, Nantes, France.
³ Université de Nantes, CHU Nantes, Inserm, CNRS, BioCore, Nantes, France.
⁴ Institute of Molecular Biotechnology of the Austrian Academy of Science (IMBA), IMBA Stem Cell Core Facility (ISCCF), Vienna BioCenter (VBC), Vienna, Austria.
⁵ Institute of Molecular Pathology (IMP), Vienna Biocenter (VBC), Vienna, Austria.
⁶ Institute of Molecular Biotechnology of the Austrian Academy of Sciences (IMBA), Vienna BioCenter (VBC), Vienna, Austria. nicolas.rivron@imba.oeaw.ac.at.

^# Contributed equally.

PMID: 36792779
DOI: 10.1038/s41596-023-00802-1

Review

Generating human blastoids modeling blastocyst-stage embryos and implantation

Heidar Heidari Khoei et al. Nat Protoc. 2023 May.

. 2023 May;18(5):1584-1620.

doi: 10.1038/s41596-023-00802-1. Epub 2023 Feb 15.

Authors

Affiliations

¹ Institute of Molecular Biotechnology of the Austrian Academy of Sciences (IMBA), Vienna BioCenter (VBC), Vienna, Austria.
² Université de Nantes, CHU Nantes, Inserm, CR2TI, UMR 1064, Nantes, France.
³ Université de Nantes, CHU Nantes, Inserm, CNRS, BioCore, Nantes, France.
⁴ Institute of Molecular Biotechnology of the Austrian Academy of Science (IMBA), IMBA Stem Cell Core Facility (ISCCF), Vienna BioCenter (VBC), Vienna, Austria.
⁵ Institute of Molecular Pathology (IMP), Vienna Biocenter (VBC), Vienna, Austria.
⁶ Institute of Molecular Biotechnology of the Austrian Academy of Sciences (IMBA), Vienna BioCenter (VBC), Vienna, Austria. nicolas.rivron@imba.oeaw.ac.at.

^# Contributed equally.

PMID: 36792779
DOI: 10.1038/s41596-023-00802-1

Abstract

Human early development sets the stage for embryonic and adult life but remains difficult to investigate. A solution came from the ability of stem cells to organize into structures resembling preimplantation embryos-blastocysts-that we termed blastoids. This embryo model is available in unlimited numbers and could thus support scientific and medical advances. However, its predictive power depends on how faithfully it recapitulates the blastocyst. Here, we describe how we formed human blastoids that (1) efficiently achieve the morphology of the blastocyst and (2) form lineages according to the pace and sequence of blastocyst development, (3) ultimately forming cells that transcriptionally reflect the blastocyst (preimplantation stage). We employ three different commercially available 96- and 24-well microwell plates with results similar to our custom-made ones, and show that blastoids form in clinical in vitro fertilization medium and can be cryopreserved for shipping. Finally, we explain how blastoids replicate the directional process of implantation into endometrial organoids, specifically when these are hormonally stimulated. It takes 4 d for human blastoids to form and 10 d to prepare the endometrial implantation assay, and we have cultured blastoids up to 6 d (time-equivalent of day 13). On the basis of our experience, we anticipate that a person with ~1 year of human pluripotent stem cell culture experience and of organoid culture should be able to perform the protocol. Altogether, blastoids offer an opportunity to establish scientific and biomedical discovery programs for early pregnancy, and an ethical alternative to the use of embryos.

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References

1. Stamatiadis, P. et al. TEAD4 regulates trophectoderm differentiation upstream of CDX2 in a GATA3-independent manner in the human preimplantation embryo. Hum. Reprod. 37, 1760–1773 (2022).
1. Gerri, C. et al. Initiation of a conserved trophectoderm program in human, cow and mouse embryos. Nature 587, 443–447 (2020).
1. Ma, H. et al. In vitro culture of cynomolgus monkey embryos beyond early gastrulation. Science 366, eaax7890 (2019). - PubMed - DOI
1. O’Leary, T. et al. Tracking the progression of the human inner cell mass during embryonic stem cell derivation. Nat. Biotechnol. 30, 278–282 (2012). - PubMed - DOI
1. Sunde, A. et al. Time to take human embryo culture seriously. Hum. Reprod. 31, 2174–2182 (2016). - PubMed - DOI

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[1] Stamatiadis, P. et al. TEAD4 regulates trophectoderm differentiation upstream of CDX2 in a GATA3-independent manner in the human preimplantation embryo. Hum. Reprod. 37, 1760–1773 (2022).

[2] Stamatiadis, P. et al. TEAD4 regulates trophectoderm differentiation upstream of CDX2 in a GATA3-independent manner in the human preimplantation embryo. Hum. Reprod. 37, 1760–1773 (2022).

[3] Gerri, C. et al. Initiation of a conserved trophectoderm program in human, cow and mouse embryos. Nature 587, 443–447 (2020).

[4] Gerri, C. et al. Initiation of a conserved trophectoderm program in human, cow and mouse embryos. Nature 587, 443–447 (2020).

[5] Ma, H. et al. In vitro culture of cynomolgus monkey embryos beyond early gastrulation. Science 366, eaax7890 (2019). - PubMed - DOI

[6] Ma, H. et al. In vitro culture of cynomolgus monkey embryos beyond early gastrulation. Science 366, eaax7890 (2019). - PubMed - DOI

[7] O’Leary, T. et al. Tracking the progression of the human inner cell mass during embryonic stem cell derivation. Nat. Biotechnol. 30, 278–282 (2012). - PubMed - DOI

[8] O’Leary, T. et al. Tracking the progression of the human inner cell mass during embryonic stem cell derivation. Nat. Biotechnol. 30, 278–282 (2012). - PubMed - DOI

[9] Sunde, A. et al. Time to take human embryo culture seriously. Hum. Reprod. 31, 2174–2182 (2016). - PubMed - DOI

[10] Sunde, A. et al. Time to take human embryo culture seriously. Hum. Reprod. 31, 2174–2182 (2016). - PubMed - DOI

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Generating human blastoids modeling blastocyst-stage embryos and implantation

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Generating human blastoids modeling blastocyst-stage embryos and implantation

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Abstract

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