After the blastocyst stage, once an embryo implanted in endometrium, the inner cell mass (ICM) of a fertilized embryo segregates into two layers: hypoblast and epiblast. The epiblast cells are the functional progenitors of soma and germ cells which later differentiate into three layers: definitive endoderm, mesoderm and ectoderm. Stem cells derived from epiblast are pluripotent. These cells are called epiblast-derived stem cells (EpiSCs) and have several different cellular and molecular characteristics with Embryonic Stem Cells (ESCs). Pluripotency in EpiSCs is essentially different from that of embryonic stem cells. The pluripotency of EpiSCs is primed pluripotency: primed to differentiate into specific cell lineages. Naïve pluripotent stem cells and primed pluripotent stem cells not only sustain the ability to self-renew but also maintain the capacity to differentiate. Since the cell status is primed to differentiate in EpiSCs, however, one copy of the X chromosome in XX cells in EpiSCs is silenced (XaXi). EpiSCs is unable to colonize and is not available to be used to produce chimeras. Conversely, XX cells in ESCs are both active and can produce chimera when inserted into a blastocyst. Both ESC and EpiSC induce teratoma when injected in the test animals which proves pluripotency. EpiSC display several distinctive characteristics distinct from ESCs. The cellular status of human ESCs (hESCs) is similar to primed state mouse stem cells rather than naïve state.