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Cnot8 eliminates naïve regulation networks and is essential for naïve-to-formative pluripotency transition.

Quan, Y ; Wang, M ; et al.
In: Nucleic acids research, Jg. 50 (2022-05-06), Heft 8, S. 4414-4435
academicJournal

Mammalian early epiblasts at different phases are characterized by naïve, formative, and primed pluripotency states, involving extensive transcriptome changes. Here, we report that deadenylase Cnot8 of Ccr4-Not complex plays essential roles during the transition from naïve to formative state. Knock out (KO) Cnot8 resulted in early embryonic lethality in mice, but Cnot8 KO embryonic stem cells (ESCs) could be established. Compared with the cells differentiated from normal ESCs, Cnot8 KO cells highly expressed a great many genes during their differentiation into the formative state, including several hundred naïve-like genes enriched in lipid metabolic process and gene expression regulation that may form the naïve regulation networks. Knockdown expression of the selected genes of naïve regulation networks partially rescued the differentiation defects of Cnot8 KO ESCs. Cnot8 depletion led to the deadenylation defects of its targets, increasing their poly(A) tail lengths and half-life, eventually elevating their expression levels. We further found that Cnot8 was involved in the clearance of targets through its deadenylase activity and the binding of Ccr4-Not complex, as well as the interacting with Tob1 and Pabpc1. Our results suggest that Cnot8 eliminates naïve regulation networks through mRNA clearance, and is essential for naïve-to-formative pluripotency transition.

(© The Author(s) 2022. Published by Oxford University Press on behalf of Nucleic Acids Research.)

Titel:
Cnot8 eliminates naïve regulation networks and is essential for naïve-to-formative pluripotency transition.
Autor/in / Beteiligte Person: Quan, Y ; Wang, M ; Xu, C ; Wang, X ; Wu, Y ; Qin, D ; Lin, Y ; Lu, X ; Lu, F ; Li, L
Zeitschrift: Nucleic acids research, Jg. 50 (2022-05-06), Heft 8, S. 4414-4435
Veröffentlichung: 1992- : Oxford : Oxford University Press ; <i>Original Publication</i>: London, Information Retrieval ltd., 2022
Medientyp: academicJournal
ISSN: 1362-4962 (electronic)
DOI: 10.1093/nar/gkac236
Schlagwort:
  • Animals
  • Mice
  • Cell Differentiation genetics
  • Mammals genetics
  • RNA, Messenger metabolism
  • Transcriptome
  • Embryonic Stem Cells metabolism
  • Gene Expression Regulation
  • Transcription Factors metabolism
Sonstiges:
  • Nachgewiesen in: MEDLINE
  • Sprachen: English
  • Publication Type: Journal Article
  • Language: English
  • [Nucleic Acids Res] 2022 May 06; Vol. 50 (8), pp. 4414-4435.
  • MeSH Terms: Embryonic Stem Cells* / metabolism ; Gene Expression Regulation* ; Transcription Factors* / metabolism ; Animals ; Mice ; Cell Differentiation / genetics ; Mammals / genetics ; RNA, Messenger / metabolism ; Transcriptome
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  • Substance Nomenclature: 0 (RNA, Messenger) ; 0 (Transcription Factors) ; 0 (Cnot8 protein, mouse)
  • Entry Date(s): Date Created: 20220407 Date Completed: 20231120 Latest Revision: 20231120
  • Update Code: 20231215
  • PubMed Central ID: PMC9071485

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