Abstract
Human induced pluripotent stem (hiPS) cells are feasible materials for studying the biological mechanisms underlying human embryogenesis. In early embryogenesis, definitive endoderm and mesoderm are differentiated from their common precursor, mesendoderm. Bone morphogenetic protein (BMP) signaling is responsible for regulating mesendoderm and mesoderm formation. Micro RNAs (miRNAs), short non-coding RNAs, broadly regulate biological processes via post-transcriptional repression. The expression of miR-27b, which is enriched in somatic cells, has been reported to increase through definitive endoderm and hepatic differentiation, but little is known about how miR-27b acts during early differentiation. Here, we used miR-27b-inducible hiPS cells to investigate the roles of miR-27b in the undifferentiated and early-differentiated stages. In undifferentiated hiPS cells, miR-27b suppressed the expression of pluripotency markers [alkaline phosphatase (AP) and nanog homeobox (NANOG)] and cell proliferation. Once differentiation began, miR-27b expression repressed phosphorylated SMAD1/5, the mediators of the BMP signaling, throughout definitive endoderm differentiation. Consistent with the above findings, miR-27b overexpression downregulated BMP-induced mesendodermal marker genes [Brachyury, mix paired-like homeobox 1 (MIXL1) and eomesodermin (EOMES)], suggesting that miR-27b had an inhibitory effect on early differentiation. Collectively, our findings revealed a novel antagonistic role of miR-27b in the BMP signaling pathway in the early differentiation of hiPS cells.
Highlights
Signaling in early differentiation of human induced pluripotent stem cells Jaeeun Lim[1], Eiko Sakai[1], Fuminori Sakurai1 & Hiroyuki Mizuguchi1,2,3,4*
Human embryonic stem and human induced pluripotent stem cells are widely used as alternative materials for studying human embryogenesis and its underlying signaling pathways, its features recapitulating the developmental processes of human embryos in vitro
Using the CRISP/Cas[9] system, we previously generated a Human induced pluripotent stem (hiPS) cell line that expresses miR-27b in a dox-inducible manner[18]. We used this inducible system to demonstrate that miR-27b negatively regulated the pluripotency of undifferentiated hiPS cells when they were cultured on mouse embryonic fibroblasts (MEFs)
Summary
Signaling in early differentiation of human induced pluripotent stem cells Jaeeun Lim[1], Eiko Sakai[1], Fuminori Sakurai1 & Hiroyuki Mizuguchi1,2,3,4*. Our findings revealed a novel antagonistic role of miR-27b in the BMP signaling pathway in the early differentiation of hiPS cells. Human embryonic stem (hES) and human induced pluripotent stem (hiPS) cells are widely used as alternative materials for studying human embryogenesis and its underlying signaling pathways, its features recapitulating the developmental processes of human embryos in vitro. When epiblast cells start gastrulation and form mesoderm and endoderm, the activation of the nodal growth differentiation factor (NODAL), Wnt, bone morphogenetic protein (BMP), and other signaling pathways and transcription factors contribute to embryogenesis in a strictly controlled m anner[1,2,3].
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