对小鼠早期胚胎状态之间双向重编程的单细胞分析确定了不同谱系可塑性的机制。

Single-cell analysis of bidirectional reprogramming between early embryonic states identify mechanisms of differential lineage plasticities in mice.

作者信息

Garg Vidur, Yang Yang, Nowotschin Sonja, Setty Manu, Salataj Eralda, Kuo Ying-Yi, Murphy Dylan, Sharma Roshan, Jang Amy, Polyzos Alexander, Pe'er Dana, Apostolou Effie, Hadjantonakis Anna-Katerina

机构信息

Developmental Biology Program, Sloan Kettering Institute, Memorial Sloan Kettering Cancer Center, New York, NY 10065, USA; Biochemistry, Cell and Molecular Biology Program, Weill Cornell Graduate School of Medical Sciences, New York, NY 10021, USA.

Computational and Systems Biology Program, Sloan Kettering Institute, Memorial Sloan Kettering Cancer Center, New York, NY 10065, USA.

出版信息

Dev Cell. 2025 Mar 24;60(6):901-917.e12. doi: 10.1016/j.devcel.2024.11.022. Epub 2024 Dec 26.

DOI:10.1016/j.devcel.2024.11.022

PMID:39729987

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11998022/

Abstract

Two distinct lineages, pluripotent epiblast (EPI) and primitive (extra-embryonic) endoderm (PrE), arise from common inner cell mass (ICM) progenitors in mammalian embryos. To study how these sister identities are forged, we leveraged mouse embryonic stem (ES) cells and extra-embryonic endoderm (XEN) stem cells-in vitro counterparts of the EPI and PrE. Bidirectional reprogramming between ES and XEN coupled with single-cell RNA and ATAC-seq analyses showed distinct rates, efficiencies, and trajectories of state conversions, identifying drivers and roadblocks of reciprocal conversions. While GATA4-mediated ES-to-iXEN conversion was rapid and nearly deterministic, OCT4-, KLF4-, and SOX2-induced XEN-to-induced pluripotent stem (iPS) reprogramming progressed with diminished efficiency and kinetics. A dominant PrE transcriptional program, safeguarded by GATA4, alongside elevated chromatin accessibility and reduced DNA methylation of the EPI underscored the differential plasticities of the two states. Mapping in vitro to embryo trajectories tracked reprogramming cells in either direction along EPI and PrE in vivo states, without transitioning through the ICM.

摘要

在哺乳动物胚胎中，两种不同的细胞谱系，即多能外胚层（EPI）和原始（胚外）内胚层（PrE），源自共同的内细胞团（ICM）祖细胞。为了研究这些姐妹细胞身份是如何形成的，我们利用了小鼠胚胎干细胞（ES）和胚外内胚层（XEN）干细胞——它们分别是EPI和PrE的体外对应物。ES细胞和XEN细胞之间的双向重编程，结合单细胞RNA和ATAC测序分析，揭示了不同的状态转换速率、效率和轨迹，确定了相互转换的驱动因素和障碍。虽然GATA4介导的ES到诱导性XEN（iXEN）的转换迅速且几乎是确定性的，但OCT4、KLF4和SOX2诱导的XEN到诱导性多能干细胞（iPS）的重编程效率和动力学有所降低。由GATA4保护的显性PrE转录程序，以及EPI染色质可及性的提高和DNA甲基化的减少，突出了这两种状态的不同可塑性。体外映射到胚胎轨迹追踪了重编程细胞在体内沿着EPI和PrE状态的任一方向的轨迹，而无需通过ICM过渡。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0bf8/11998022/64386d8fa8de/nihms-2043813-f0001.jpg

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对小鼠早期胚胎状态之间双向重编程的单细胞分析确定了不同谱系可塑性的机制。

Single-cell analysis of bidirectional reprogramming between early embryonic states identify mechanisms of differential lineage plasticities in mice.

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