Abstract
The domestic pig is an excellent animal model for stem cell research and clinical medicine. There is still no suitable culture condition to generate authentic porcine embryonic stem cells (pESCs) and high quality porcine induced pluripotent stem cells (piPSCs). In this study, we found that culture conditions affected pluripotent and metabolic features of piPSCs. Using defined human embryonic stem cell (hESC) and mouse ESC (mESC) culture conditions, we generated two types of piPSCs, one of which was morphologically similar to hESCs (here called hpiPSCs), the other resembled mESCs (here called mpiPSCs). Transcriptome analysis and signaling pathway inhibition results suggested that mpiPSCs shared more of mESC signaling pathways, such as the BMP pathway and JAK/STAT pathway and hpiPSCs shared more hESC signaling pathways, such as the FGF pathway. Importantly, the mpiPSCs performed embryonic chimera incorporation more efficiently than the hpiPSCs did. In addition, the mpiPSCs showed mitochondrial features of naive ESCs and lipid droplets accumulation. These evidences may facilitate understanding of the gene regulation network and metabolism in piPSCs and promote derivation of bona fide pESCs for translational medicine.
Highlights
Naïve and primed states are the two states of pluripotent stem cells
The naïve state of mouse ESC (mESC) and primed state of human embryonic stem cell (hESC) and mEpiSCs depend on respective suitable culture condition, which was supplemented with growth factors and small molecules that activate special signaling pathways for maintaining self-renewal and pluripotency
The two sets of traditional culture conditions of mESCs and hESCs used for generation pluripotent stem cells (piPSCs) were compared
Summary
Naïve and primed states are the two states of pluripotent stem cells. The naïve mouse embryonic stem cells (mESCs) derived from early embryo are significantly different from primed human ESCs (hESCs) and mouse epiblast stem cells (EpiSCs) in morphology, patterns of gene expression and metabolism[1]. Recent reports have shown that naïve hESCs can be derived from embryo or converted from primed hESCs using defined culture medium containing a series of small molecules [8, 9].
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