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Klf4 methylated by Prmt1 restrains the commitment of primitive endoderm

Zhenyu Zuo, Guanghui Yang, Haiyu Wang, Shuyu Liu, Yanjun Zhang, Yan-jun Zhang, Yun Cai, Fei Chen, Hui Dai, Yi Xiao, Mo-Bin Cheng, Yue Huang, Ye Zhang, Ye Zhang

2022Nucleic Acids Research12 citationsDOIOpen Access PDF

Abstract

The second cell fate decision in the early stage of mammalian embryonic development is pivotal; however, the underlying molecular mechanism is largely unexplored. Here, we report that Prmt1 acts as an important regulator in primitive endoderm (PrE) formation. First, Prmt1 depletion promotes PrE gene expression in mouse embryonic stem cells (ESCs). Single-cell RNA sequencing and flow cytometry assays demonstrated that Prmt1 depletion in mESCs contributes to an emerging cluster, where PrE genes are upregulated significantly. Furthermore, the efficiency of extraembryonic endoderm stem cell induction increased in Prmt1-depleted ESCs. Second, the pluripotency factor Klf4 methylated at Arg396 by Prmt1 is required for recruitment of the repressive mSin3a/HDAC complex to silence PrE genes. Most importantly, an embryonic chimeric assay showed that Prmt1 inhibition and mutated Klf4 at Arg 396 induce the integration of mouse ESCs into the PrE lineage. Therefore, we reveal a regulatory mechanism for cell fate decisions centered on Prmt1-mediated Klf4 methylation.

Topics & Concepts

BiologyEndodermEmbryonic stem cellKLF4Cell biologyCell fate determinationStem cellGeneticsGeneTranscription factorSOX2Cancer-related gene regulationKruppel-like factors researchEpigenetics and DNA Methylation
Klf4 methylated by Prmt1 restrains the commitment of primitive endoderm | Litcius