Self-Renewing Trophoblast Organoids Recapitulate the Developmental Program of the Early Human Placenta

Haider, Sandra; Meinhardt, Gerold; Saleh, Leila; Kunihs, Victoria; Gamperl, Magdalena; Kaindl, Ulrich; Ellinger, Adolf; Burkard, Thomas R; Fiala, Christian; Pollheimer, Jürgen; Mendjan, Sasha; Latos, Paulina A.; Knöfler, Martin

doi:10.1016/j.stemcr.2018.07.004

Cited by 285 publications

(349 citation statements)

References 62 publications

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“…Recent optimization of culture conditions for primary human first trimester trophoblasts has led to the development of in vitro trophoblast stem cell lines [28][29][30] . Okae et al 29 defined a TSC medium capable of supporting continued proliferation of primary human cytotrophoblasts and blastocyst-derived trophoblasts when cultured on a collagen type IV matrix.…”

Section: Introduction (Main Text Not Including Abstract Methods Refmentioning

confidence: 99%

“…Importantly, under differentiation-specific culture media formulations TSCs could be differentiated to either chorionic gonadotropin (CG)-secreting syncytia or HLA-G positive extravillous trophoblasts (EVTs). In a different approach, Haider et al 28 established a three-dimensional trophoblast organoid model by embedding human cytotrophoblasts, isolated from 6-7 weeks of gestation, into Matrigel and culturing cells in defined medium. The organoid structures formed mononuclear trophoblasts on the outer periphery with an inner layer of CGß expressing multinuclear syncytia.…”

Section: Introduction (Main Text Not Including Abstract Methods Refmentioning

confidence: 99%

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Derivation of macaque trophoblast stem cells

Schmidt

Meyer

Wiepz

et al. 2020

Preprint

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200 words max) Nonhuman primates are excellent models for studying human placentation as experimental manipulations in vitro can be translated to in vivo pregnancy. Our objective was to develop macaque trophoblast stem cells (TSC) as an in vitro platform for future assessment of primate trophoblast development and function. Macaque TSC lines were generated by isolating first trimester placental villous cytotrophoblasts followed by culture in TSC medium to "reprogram" the cells to a proliferative state. TSCs grew as mononuclear colonies, whereas upon induction of syncytiotrophoblast (ST) differentiation multinuclear structures appeared, indicative of syncytium formation. Chorionic gonadotropin secretion was >4,000-fold higher in ST culture media compared to TSC media. Characteristic trophoblast hallmarks were defined in TSCs and ST including expression of C19MC miRNAs and macaque placental nonclassical MHC class I molecule, Mamu-AG. TSC differentiation to extravillous trophoblasts (EVTs) with or without the ALK-5 inhibitor A83-01 resulted in differing morphologies but similar expression of Mamu-AG and CD56 as assessed by flow cytometry, hence further refinement of relevant EVT markers is needed. Our preliminary characterization of macaque TSCs suggests that these cells represent a proliferative, self-renewing TSC population capable of differentiating to STs in vitro thereby establishing an experimental model of primate placentation.

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Section: Introduction (Main Text Not Including Abstract Methods Refmentioning

confidence: 99%

Section: Introduction (Main Text Not Including Abstract Methods Refmentioning

confidence: 99%

Derivation of macaque trophoblast stem cells

Schmidt

Meyer

Wiepz

et al. 2020

Preprint

View full text Add to dashboard Cite

show abstract

“…These improvements will further increase the placental volume of the embryo during post‐implantation . Under 3D in vitro culture conditions, ESCs with self‐assembling properties can develop into natural embryos‐like structures . For example, Harrison et al found that in 3D matrigel, after 96 hours, ESCs can self‐assemble into a cylindrical structure similar to a natural mouse embryo (Figure D).…”

Section: Bioengineered Microenvironment For Early Embryo Culture In Vmentioning

confidence: 99%

“…58 Under 3D in vitro culture conditions, ESCs with self-assembling properties can develop into natural embryos-like structures. 18,34,42,62,63 For example, Harrison et al 41 found that in 3D matrigel, after 96 hours, ESCs can self-assemble into a cylindrical structure similar to a natural mouse embryo ( Figure 3D). The discovery provides a powerful platform for studying the physical and molecular mechanisms of embryonic development.…”

Section: Static Culture Platformsmentioning

confidence: 99%

Bioengineered microenvironment to culture early embryos

Guo

Wang

et al. 2020

Cell Proliferation

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The abnormalities of early post‐implantation embryos can lead to early pregnancy loss and many other syndromes. However, it is hard to study embryos after implantation due to the limited accessibility. The success of embryo culture in vitro can avoid the challenges of embryonic development in vivo and provide a powerful research platform for research in developmental biology. The biophysical and chemical cues of the microenvironments impart significant spatiotemporal effects on embryonic development. Here, we summarize the main strategies which enable researchers to grow embryos outside of the body while overcoming the implantation barrier, highlight the roles of engineered microenvironments in regulating early embryonic development, and finally discuss the future challenges and new insights of early embryo culture.

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“…Embryonic and extraembryonic stem cells have been shown to self-organize in 3D culture (45)(46)(47)(48)(49). When ESCs are cultured in a 3D gel supplemented with ECM, they form an apicalbasal polarized shell that eliminates the boundaries of micropattern culture, allowing control of substrate mechanics and chemistry.…”

Section: Self-organization In Embryonic Stem Cellsmentioning

confidence: 99%

357 Occupational exposure to selenium compounds, its effect on biological parameters and markers of diabetes

Greiner

Feltes

Hildebrand

et al. 2018

Occupational Toxicology

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Embryonic development is orchestrated by robust and complex regulatory mechanisms acting at different scales of organization. In vivo studies are particularly challenging for mammals after implantation, owing to the small size and inaccessibility of the embryo. The generation of stem cell models of the embryo represents a powerful system with which to dissect this complexity. Control of geometry, modulation of the physical environment, and priming with chemical signals reveal the intrinsic capacity of embryonic stem cells to make patterns. Adding the stem cells for the extraembryonic lineages generates three-dimensional models that are more autonomous from the environment and recapitulate many features of the pre-and postimplantation mouse embryo, including gastrulation. Here, we review the principles of self-organization and how they set cells in motion to create an embryo.

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Self-Renewing Trophoblast Organoids Recapitulate the Developmental Program of the Early Human Placenta

Cited by 285 publications

References 62 publications

Derivation of macaque trophoblast stem cells

Derivation of macaque trophoblast stem cells

Bioengineered microenvironment to culture early embryos

357 Occupational exposure to selenium compounds, its effect on biological parameters and markers of diabetes

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