Phagocytosis reveals a reversible differentiated state early in the development of the mouse embryo

Mural trophectoderm cells of the mouse embryo possess a phagocytic potential as early as 3.5 days post coitum (d.p.c.). This first differentiated function shows a graded variation along the embryonic‐abembryonic axis, from a maximal activity in the non‐dividing cells of the abembryonic pole to a complete lack of activity in the replicating polar trophectoderm overlying the inner cell mass (ICM). This pattern can be explained by a negative control exerted by the ICM. Addition of FGF4, a factor secreted by ICM cells, strongly inhibited phagocytosis while inducing resumption of DNA synthesis in mural trophectoderm cells, revealing a reversible, FGF4‐dependent differentiation state. Under conditions in which a small cluster of mural trophectoderm cells (<10) had internalized large particles, these otherwise morphologically normal embryos could not implant in the uterus, indicating that cells at the abembryonic pole have a critical role in initiating the implantation process. At post‐implantation stages (6.5‐8.5 d.p.c.), the ectoplacental cone and secondary giant cells derived from the polar trophectoderm also contained active phagocytes, but at that stage, differentiation was not reversed by FGF4.