Project description:It is challenging to derive totipotent stem cells in vitro that functionally and molecularly resemble cells from totipotent embryos. Here, we report that a chemical cocktail enables the derivation of totipotent-like stem cells, designated as totipotent potential stem (TPS) cells, from 2-cell mouse embryos and extended pluripotent stem cells that can be stably maintained long-term in vitro. TPS cells shared transcriptomic features with 2-cell mouse embryos and express totipotent markers. In vivo chimeric assays show that these cells have embryonic and extraembryonic developmental potentials at the single cell level. Moreover, we show that TPS cells can be induced into blastocyst-like structures resembling preimplantation mouse blastocysts. Our study demonstrates the feasibility of capturing and maintaining totipotency in vitro.

Project description:It is challenging to derive totipotent stem cells in vitro that functionally and molecularly resemble cells from totipotent embryos. Here, we report that a chemical cocktail enables the derivation of totipotent-like stem cells, designated as totipotent potential stem (TPS) cells, from 2-cell mouse embryos and extended pluripotent stem cells that can be stably maintained long-term in vitro. TPS cells shared features with 2-cell mouse embryos in terms of totipotency markers, transcriptome, chromatin accessibility and DNA methylation patterns. In vivo chimeric assays show that these cells have embryonic and extraembryonic developmental potentials at the single cell level. Moreover, TPS cells can be induced into blastocyst-like structures resembling preimplantation mouse blastocysts. Mechanistically, inhibition of HDAC1/2 and DOT1L activity and activation of RARγ signaling are important for inducing and maintaining totipotent features of TPS cells. Our study opens up a path toward fully capturing totipotent stem cells in vitro.

Project description:It is challenging to derive totipotent stem cells in vitro that functionally and molecularly resemble cells from totipotent embryos. Here, we report that a chemical cocktail enables the derivation of totipotent-like stem cells, designated as totipotent potential stem (TPS) cells, from 2-cell mouse embryos and extended pluripotent stem cells that can be stably maintained long-term in vitro. TPS cells shared features with 2-cell mouse embryos in terms of totipotency markers, transcriptome, chromatin accessibility and DNA methylation patterns. In vivo chimeric assays show that these cells have embryonic and extraembryonic developmental potentials at the single cell level. Moreover, TPS cells can be induced into blastocyst-like structures resembling preimplantation mouse blastocysts. Mechanistically, inhibition of HDAC1/2 and DOT1L activity and activation of RARγ signaling are important for inducing and maintaining totipotent features of TPS cells. Our study opens up a path toward fully capturing totipotent stem cells in vitro.

Project description:Global transcriptional analysis of mouse totipotent potential stem cells and extended pluripotent stem cells

Project description:It is challenging to derive totipotent stem cells in vitro that functionally and molecularly resemble cells from totipotent embryos. Here, we report that a chemical cocktail enables the derivation of totipotent-like stem cells, designated as totipotent potential stem (TPS) cells, from 2-cell mouse embryos and extended pluripotent stem cells that can be stably maintained long-term in vitro. TPS cells shared features with 2-cell mouse embryos in terms of totipotency markers, transcriptome, chromatin accessibility and DNA methylation patterns. In vivo chimeric assays show that these cells have embryonic and extraembryonic developmental potentials at the single cell level. Moreover, TPS cells can be induced into blastocyst-like structures resembling preimplantation mouse blastocysts. Mechanistically, inhibition of HDAC1/2 and DOT1L activity and activation of RARγ signaling are important for inducing and maintaining totipotent features of TPS cells. Our study opens up a path toward fully capturing totipotent stem cells in vitro.

Project description:Global DNA methylation analysis of mouse totipotent potential stem cells, extended pluripotent stem cells and mouse embryonic stem cells

Project description:Global transcriptional, ATAC-sequencing, and methylation analyses of mouse totipotent potential stem cells and extended pluripotent stem cells

Project description:Global transcriptional analysis of human extended pluripotent stem cells, human primed pluripotent stem cells, mouse extended pluripotent stem cells, and mouse embryonic stem cells by RNA-seq

Project description:Single-cell RNA sequencing analysis of mouse totipotent potential stem cells, extended pluripotent stem cells, embryonic stem cells, E17.5 TPS-derived chimeric placental cells, TPS-derived teratomas and TPS-derived blastoids

Project description:Generation of functional hepatocytes from extended pluripotent stem cells