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Inhibition of HDAC activity directly reprograms murine embryonic stem cells to trophoblast stem cells

Boyen Huang, Xing Peng, Xuzhao Zhai, Jie Hu, Junyu Chen, Suming Yang, Qingpei Huang, Enze Deng, Huanhuan Li, Tahsin Stefan Barakat, Jiekai Chen, Duanqing Pei, Xiaoying Fan, Ian Chambers, Man Zhang

2024Developmental Cell26 citationsDOIOpen Access PDF

Abstract

Embryonic stem cells (ESCs) can differentiate into all cell types of the embryonic germ layers. ESCs can also generate totipotent 2C-like cells and trophectodermal cells. However, these latter transitions occur at low frequency due to epigenetic barriers, the nature of which is not fully understood. Here, we show that treating mouse ESCs with sodium butyrate (NaB) increases the population of 2C-like cells and enables direct reprogramming of ESCs into trophoblast stem cells (TSCs) without a transition through a 2C-like state. Mechanistically, NaB inhibits histone deacetylase activities in the LSD1-HDAC1/2 corepressor complex. This increases acetylation levels in the regulatory regions of both 2C- and TSC-specific genes, promoting their expression. In addition, NaB-treated cells acquire the capacity to generate blastocyst-like structures that can develop beyond the implantation stage in vitro and form deciduae in vivo. These results identify how epigenetics restrict the totipotent and trophectoderm fate in mouse ESCs.

Topics & Concepts

BiologyCell biologyStem cellEmbryonic stem cellReprogrammingTotipotentBlastocystSOX2EpigeneticsSodium butyrateTrophoblastPopulationCellular differentiationBrachyuryGeneticsEmbryoMesodermCellCell cultureEmbryogenesisGenePlacentaDemographyPregnancyFetusSociologyPluripotent Stem Cells ResearchHistone Deacetylase Inhibitors ResearchEpigenetics and DNA Methylation