Proteomics

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Mammalian CDC14 control differentiation from pluripotent cells by modulating UTF1 activity on bivalent promoters


ABSTRACT: CDC14 phosphatases are critical components of the cell cycle machinery that drives exit from mitosis in yeast. However, the two mammalian paralogs, CDC14A and CDC14B, are dispensable for cell cycle progression or exit, and their function remains unclear. By generating a double Cdc14a; Cdc14b-null mouse model, we report here that CDC14 phosphatases control cell differentiation in pluripotent cells and their absence results in deficient development of the neural system. Lack of CDC14 impairs neural differentiation from embryonic stem cells (ESCs) accompanied by deficient induction of genes controlled by bivalent promoters. During ESC differentiation, CDC14 directly dephosphorylates and destabilizes Undifferentiated embryonic Transcription Factor 1 (UTF1), a critical regulator of stemness. In the absence of CDC14, increased UTF1 levels prevent the firing of bivalent promoters, resulting in defective induction of the transcriptional programs required for differentiation. These results suggest that mammalian CDC14 phosphatases function during the terminal exit from the cell cycle by modulating the transition from the pluripotent to the differentiated chromatin state, at least partially by controlling chromatin dynamics and transcription in a UTF1-dependent manner.

INSTRUMENT(S): Q Exactive HF-X, Q Exactive Plus, Q Exactive HF

ORGANISM(S): Homo Sapiens (human) Mus Musculus (mouse)

TISSUE(S): Embryonic Stem Cell

SUBMITTER: Eduardo Zarzuela  

LAB HEAD: Javier Muñoz Peralta

PROVIDER: PXD030296 | Pride | 2022-10-31

REPOSITORIES: Pride

Dataset's files

Source:
Action DRS
20190320_Carol_PhosTMT_Conc1_1.raw Raw
20190320_Carol_PhosTMT_Conc1_2.raw Raw
20190320_Carol_PhosTMT_Conc2_1.raw Raw
20190320_Carol_PhosTMT_Conc2_2.raw Raw
20190320_Carol_PhosTMT_Conc2_3.raw Raw
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