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Epiblast  - Development and Stem Cells


Embryonic Development of the Epiblast:

The epiblast is formed as the inner cell mass (ICM) segregates into a bilaminar embryonic disc (bilaminar blastoderm) which consists of two epithelial layers, each of a distinct lineage: the external (dorsal) epiblast and the internal (ventral) hypoblast.

Embryonic Derivatives of the Epiblast:

Gastrulation is the process in which the ICM in converted into the trilaminar embryonic disc, which is comprised of the three germ layers (ectoderm, mesoderm and endoderm). Formation of the primitive streak marks the first event of gastrulation.  The primitive streak originates from the anterior epiblast, and appears as an elongating groove (primitive groove) on the dorsal midsagittal surface of the epiblast, along the anterior-posterior axis of the embryo. The rostro-caudal and medial-lateral axes of the embryo are defined by the primitive streak. The rounded primitive node, or Hensen's node, is situated at the cranial tip of the primitive streak, and contains a depression called the primitive pit. The primitive pit is continuous with the primitive groove. Cells from the epiblast migrate into the interior of the embryo, via the primitive streak, in a process termed ingression, which involves a cellular epithelial-to-mesenchymal transition (EMT). The initial wave of migrating cells streams through the primitive streak, displacing the hypoblast cells to become the definitive endoderm, which ultimately produces the future gut derivatives and gut linings.

The second wave of migrating cells populates a layer between the epiblast and the definitive endoderm, thereby forming the mesoderm layer. The intraembryonic mesoderm cells later give rise to five subpopulations of cells: paraxial mesodermintermediate mesodermlateral plate mesodermcardiogenic mesoderm and a population that forms a midline tube called the notochordal process. The notochordal process originates in the primitive node and is the precursor of the flat-shaped notochordal plate, which after detaching from the endoderm, fuses its free rims together to form a rod that is known as the notochord.

Once the mesoderm has formed, the remaining epiblast cells cease to ingress and form the ectoderm. The ectoderm gives rise to two distinct lineages, namely, the surface ectoderm and the neural ectoderm.