Transformation of Pluripotency States during Morphogenesis of Mouse and Human Epiblast

Abstract

The pluripotent status of a cell in vivo is spatio-temporally regulated within embryogenesis and is determined by the processes of self-renewal, endless proliferation and differentiation into all cell types of the body. Previously, the pluripotency was characterized using teratocarcinoma cells. Then this term was applied to the embryonic cells of the preimplantation mouse embryo. Preimplantationally formed mouse and human pluripotent stem cells (PSCs) appear to exist until gastrulation. One of the main events in the early mammalian development is the differentiation of the inner cell mass of the blastocyst (ICM) into a hypoblast and an epiblast, which develops into the embryo itself. Continuous and dynamic transformation of pluripotency states in development coincides with the morphogenetic processes, which are involved in the formation and maturation of the epiblast. Thus, blastocyst ICM cells differ in epigenetic and transcription patterns from their daughter cells forming the peri/post-implantation epiblast. With the onset of gastrulation movements, the maturation of epiblast cells ends with their differentiation into cells of three germ layers. This review considers the historical aspects of the study of cell pluripotency, various sources of PSCs, mechanisms and signaling pathways that support self-renewal and pluripotency in PSC cultures. In addition, we summarize and conceptualize data on morphogenetic processes that are involved in the formation of naive ICM cells in vivo and the subsequent maturation of mouse and human epiblast cells associated with the transformation of their pluripotency states.