Human embryonic stem cells (hESCs) are derived from the inner cell mass of the blastocyst. Despite sharing the common property of pluripotency, hESCs are notably distinct from epiblast cells of the preimplantation blastocyst. Here we use a combination of three small-molecule inhibitors to sustain hESCs in a LIF signaling-dependent hESC state (3iL hESCs) with elevated expression of NANOG and epiblast-enriched genes such as KLF4, DPPA3, and TBX3. Genome-wide transcriptome analysis confirms that the expression signature of 3iL hESCs shares similarities with native preimplantation epiblast cells. We also show that 3iL hESCs have a distinct epigenetic landscape, characterized by derepression of preimplantation epiblast genes. Using genome-wide binding profiles of NANOG and OCT4, we identify enhancers that contribute to rewiring of the regulatory circuitry. In summary, our study identifies a distinct hESC state with defined regulatory circuitry that will facilitate future analysis of human preimplantation embryogenesis and pluripotency.
BACKGROUND & AIMS: There are few in vitro models for studying the 3-dimensional interactions among different liver cell types during organogenesis or disease development. We aimed to generate hepatic organoids that comprise different parenchymal liver cell types and have structural features of the liver, using human pluripotent stem cells. METHODS: We cultured H1 human embryonic stem cells (WA-01, passage 27-40) and induced pluripotent stem cells (GM23338) with a series of chemically defined and serum-free media to induce formation of posterior foregut cells, which were differentiated in 3 dimensions into hepatic endoderm spheroids and stepwise into hepatoblast spheroids. Hepatoblast spheroids were reseeded in a high-throughput format and induced to form hepatic organoids; development of functional bile canaliculi was imaged live. Levels of albumin and apolipoprotein B were measured in cell culture supernatants using an enzyme-linked immunosorbent assay. Levels of gamma glutamyl transferase and alkaline phosphatase were measured in cholangiocytes. Organoids were incubated with troglitazone for varying periods and bile transport and accumulation were visualized by live
Intracellular delivery of messenger RNA (mRNA) is a promising approach for experimental and therapeutic manipulation of cellular activity. However, environmental RNase hinders reliable handling of mRNA for experimental and therapeutic use. In this study, biodegradable capsules composed of dextran sulfate and poly-L-arginine in the layer-by-layer (LbL) fashion are employed for the protection and delivery of mRNA.Our results demonstrate that addition of RNase inhibitors to mRNA while co-precipitation with CaCO 3 and subsequent LbL encapsulation are both crucial to preserve the integrity of mRNA. The expression of functional luciferase enzyme in HEK293T human embryonic kidney cells after incubation with synthetic luciferase-encoding mRNA capsules indicates the reliability of the encapsulating system and cellular intake of functional mRNAs. These improvements in mRNA encapsulation should provide essential basis for microcapsule-based mRNA delivery for further applications.
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