Human primed pluripotent stem cells are capable of generating all the embryonic lineages.However,their extraembryonic trophectoderm potentials are limited.It remains unclear how to expand their developmental potential...Human primed pluripotent stem cells are capable of generating all the embryonic lineages.However,their extraembryonic trophectoderm potentials are limited.It remains unclear how to expand their developmental potential to trophectoderm lineages.Here we show that transient treatment with a cocktail of small molecule epigenetic modulators imparts trophectoderm lineage potentials to human primed pluripotent stem cells while preserving their embryonic potential.These chemically treated cells can generate trophectoderm-like cells and downstream trophoblast stem cells,diverging into syncytiotrophoblast and extravillous trophoblast lineages.Transcriptomic and CUT&Tag analyses reveal that these induced cells share transcriptional profiles with in vivo trophectoderm and cytotrophoblast,and exhibit reduced H3K27me3 modification at gene loci specific to trophoblast lineages compared with primed pluripotent cells.Mechanistic exploration highlighted the critical roles of epigenetic modulators HDAC2,EZH1/2,and KDM5s in the activation of trophoblast lineage potential.Our findings demonstrate that transient epigenetic resetting activates unrestricted lineage potential in human primed pluripotent stem cells,and offer new mechanistic insights into human trophoblast lineage specification and in vitro models for studying placental development and related disorders.展开更多
基金supported by the National Key Research and Development Program of China(2021YFA1100300)the National Natural Science Foundation of China(32288102,32370843 and 32025006)Part of the data analysis was performed on the High Performance Computing Platform of the Center for Life Sciences,Peking University。
文摘Human primed pluripotent stem cells are capable of generating all the embryonic lineages.However,their extraembryonic trophectoderm potentials are limited.It remains unclear how to expand their developmental potential to trophectoderm lineages.Here we show that transient treatment with a cocktail of small molecule epigenetic modulators imparts trophectoderm lineage potentials to human primed pluripotent stem cells while preserving their embryonic potential.These chemically treated cells can generate trophectoderm-like cells and downstream trophoblast stem cells,diverging into syncytiotrophoblast and extravillous trophoblast lineages.Transcriptomic and CUT&Tag analyses reveal that these induced cells share transcriptional profiles with in vivo trophectoderm and cytotrophoblast,and exhibit reduced H3K27me3 modification at gene loci specific to trophoblast lineages compared with primed pluripotent cells.Mechanistic exploration highlighted the critical roles of epigenetic modulators HDAC2,EZH1/2,and KDM5s in the activation of trophoblast lineage potential.Our findings demonstrate that transient epigenetic resetting activates unrestricted lineage potential in human primed pluripotent stem cells,and offer new mechanistic insights into human trophoblast lineage specification and in vitro models for studying placental development and related disorders.
