Article Synopsis
- Embryonic stem cells (ESCs) can mimic natural embryo development through self-organization and cell interactions, but engineering these processes with regulatory elements is still being explored.
- Using CRISPR activation (CRISPRa) on certain regulatory elements leads to patterns similar to pre-gastrulation mouse embryos and reveals that collective cell movement aids in this self-patterning.
- The developed 3D CRISPRa-programmed embryo models (CPEMs) show significant similarities to actual embryos and allow for various modifications, demonstrating their potential in researching early embryonic development.
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Article Abstract
Embryonic stem cells (ESCs) can self-organize into structures with spatial and molecular similarities to natural embryos. During development, embryonic and extraembryonic cells differentiate through activation of endogenous regulatory elements while co-developing via cell-cell interactions. However, engineering regulatory elements to self-organize ESCs into embryo models remains underexplored. Here, we demonstrate that CRISPR activation (CRISPRa) of two regulatory elements near Gata6 and Cdx2 generates embryonic patterns resembling pre-gastrulation mouse embryos. Live single-cell imaging revealed that self-patterning occurs through orchestrated collective movement driven by cell-intrinsic fate induction. In 3D, CRISPRa-programmed embryo models (CPEMs) exhibit morphological and transcriptomic similarity to pre-gastrulation mouse embryos. CPEMs allow versatile perturbations, including dual Cdx2-Elf5 activation to enhance trophoblast differentiation and lineage-specific activation of laminin and matrix metalloproteinases, uncovering their roles in basement membrane remodeling and embryo model morphology. Our findings demonstrate that minimal intrinsic epigenome editing can self-organize ESCs into programmable pre-gastrulation embryo models with robust lineage-specific perturbation capabilities.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC12234254 | PMC |
| http://dx.doi.org/10.1016/j.stem.2025.02.015 | DOI Listing |
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