Jakob Metzger scite author profile

Summary The earliest aspects of human embryogenesis remain mysterious. To model patterning events in the human embryo we used colonies of human embryonic stem cells (hESCs) grown on micropatterned substrate and differentiated with BMP4. These gastruloids recapitulate the embryonic arrangement of the mammalian germ layers and provide an assay to assess the structural and signaling mechanisms patterning the human gastrula. Structurally, high-density hESCs lateralize their TGF-β receptors to their lateral side in the center of the colony, while maintaining apical localization of receptors at the edge. This relocalization insulates cells at the center from apically applied ligands while maintaining response to basally presented ones. Additionally, BMP4 directly induces the expression of its own inhibitor, Noggin, generating a reaction-diffusion mechanism that underlies patterning. We develop a quantitative model that integrates edge sensing and inhibitors, to predict human fate positioning in gastruloids, and potentially the human embryo.

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Non-equilibrium steady states of stochastic processes with intermittent resetting

Eule

2016

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Stochastic processes that are randomly reset to an initial condition serve as a showcase to investigate non-equilibrium steady states. However, all existing results have been restricted to the special case of memoryless resetting protocols. Here, we obtain the general solution for the distribution of processes in which waiting times between reset events are drawn from an arbitrary distribution. This allows for the investigation of a broader class of much more realistic processes. As an example, our results are applied to the analysis of the efficiency of constrained random search processes.

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Self-organization of human embryonic stem cells on micropatterns

et al. 2016

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Fate allocation in the gastrulating embryo is spatially organized as cells differentiate to specialized cell types depending on their positions with respect to the body axes. There is a need for in vitro protocols that allow the study of spatial organization associated with this developmental transition. While embryoid bodies and organoids can exhibit some spatial organization of differentiated cells, these methods do not yield consistent and fully reproducible results. Here, we describe a micropatterning approach where human embryonic stem cells are confined to disk-shaped, sub-millimeter colonies. After 42 hours of BMP4 stimulation, cells form self-organized differentiation patterns in concentric radial domains, which express specific markers associated with the embryonic germ layers, reminiscent of gastrulating embryos. Our protocol takes 3 days; it uses commercial microfabricated slides (CYTOO), human laminin-521 (LN-521) as extra-cellular matrix coating, and either conditioned or chemically-defined medium (mTeSR). Differentiation patterns within individual colonies can be determined by immunofluorescence and analyzed with cellular resolution. Both the size of the micropattern and the type of medium affect the patterning outcome. The protocol is appropriate for personnel with basic stem cell culture training. This protocol describes a robust platform for quantitative analysis of the mechanisms associated with pattern formation at the onset of gastrulation.

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Self-organizing neuruloids model developmental aspects of Huntington’s disease in the ectodermal compartment

et al. 2019

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Micropattern differentiation of mouse pluripotent stem cells recapitulates embryo regionalized cell fate patterning

et al. 2018

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During gastrulation epiblast cells exit pluripotency as they specify and spatially arrange the three germ layers of the embryo. Similarly, human pluripotent stem cells (PSCs) undergo spatially organized fate specification on micropatterned surfaces. Since in vivo validation is not possible for the human, we developed a mouse PSC micropattern system and, with direct comparisons to mouse embryos, reveal the robust specification of distinct regional identities. BMP, WNT, ACTIVIN and FGF directed mouse epiblast-like cells to undergo an epithelial-to-mesenchymal transition and radially pattern posterior mesoderm fates. Conversely, WNT, ACTIVIN and FGF patterned anterior identities, including definitive endoderm. By contrast, epiblast stem cells, a developmentally advanced state, only specified anterior identities, but without patterning. The mouse micropattern system offers a robust scalable method to generate regionalized cell types present in vivo, resolve how signals promote distinct identities and generate patterns, and compare mechanisms operating in vivo and in vitro and across species.

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A 3D model of a human epiblast reveals BMP4-driven symmetry breaking

et al. 2019

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Micropattern differentiation of mouse pluripotent stem cells recapitulates embryo regionalized cell fate patterning

Hadjantonakis

Morgani

Siggia

et al. 2017

Preprint

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Universal Statistics of Branched Flows

2010

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Jakob Metzger

A Balance between Secreted Inhibitors and Edge Sensing Controls Gastruloid Self-Organization

Non-equilibrium steady states of stochastic processes with intermittent resetting

Self-organization of human embryonic stem cells on micropatterns

Self-organizing neuruloids model developmental aspects of Huntington’s disease in the ectodermal compartment

Micropattern differentiation of mouse pluripotent stem cells recapitulates embryo regionalized cell fate patterning

A 3D model of a human epiblast reveals BMP4-driven symmetry breaking

Micropattern differentiation of mouse pluripotent stem cells recapitulates embryo regionalized cell fate patterning

Universal Statistics of Branched Flows

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