Abstract
Amnion, germline and mesoderm specification at the posterior end of the human embryo occur around the same time in vivo . Similarly, in vitro generation of germline and amnion is associated with mesoderm induction regardless of differentiation platform. Yet, the lineage relationships between amnion, germline and mesoderm remains unresolved. By adding Basement Membrane Extract (BME) to the media, we demonstrate emergence of TFAP2A+/SOX2-epithelial progenitor cells which develop in response to BMP receptor signaling. We track the order of embryonic events that take place from this progenitor pool revealing that amnion-like cells (AMLCs) and primordial germ cell (PGC)-like cells (PGCLCs) are specified first. Shortly after, gastrulating mesoderm-like cells (MeLCs) arise that undergo an epithelial to mesenchymal transition (EMT). These results highlight the interconnected role of basement membrane deposition and BMP receptor signaling in the specification of human germline, amnion and mesoderm from TFAP2A+ embryonic progenitors.
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Abstract
Amnion, germline and mesoderm specification at the posterior end of the human embryo occur around the same time in vivo. Similarly, in vitro generation of germline and amnion is associated with mesoderm induction regardless of differentiation platform. Yet, the lineage relationships between amnion, germline and mesoderm remains unresolved. By adding Basement Membrane Extract (BME) to the media, we demonstrate emergence of TFAP2A+/SOX2-epithelial progenitor cells which develop in response to BMP receptor signaling. We track the order of embryonic events that take place from this progenitor pool revealing that amnion-like cells (AMLCs) and primordial germ cell (PGC)-like cells (PGCLCs) are specified first. Shortly after, gastrulating mesoderm-like cells (MeLCs) arise that undergo an epithelial to mesenchymal transition (EMT). These results highlight the interconnected role of basement membrane deposition and BMP receptor signaling in the specification of human germline, amnion and mesoderm from TFAP2A+ embryonic progenitors.
Competing Interest Statement
Amander T. Clark is on the Board of Directors of the International Society for Stem Cell Research.
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