TDG orchestrates ATF4-dependent gene transcription during retinoic acid-induced cell lineage committment
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ABSTRACT: Cell differentiation during development is associated to large-scale modifications in the methylome that require the engagement of an active DNA demethylation machinery including Ten-Eleven-Translocation enzymes for oxidation of 5-methylcytosine and the T:G mismatch DNA glycosylase (TDG) for removal of the oxidized bases. Despite this well-defined molecular function, the biological output of TDG activity remains elusive. Here we combined transcriptomic and epigenomic approaches in TDG knock-out embryonal carcinoma cells, an epiblast stem-like cell model, to decipher TDG function in pluripotent cells and their retinoic acid-induced differentiated progeny. We determined that TDG activity is balancing differentiation in favor of a neural fate at the expense of a cardiac mesoderm fate. This process is associated with a sustained activity of a large set of ATF4-dependent genes in relation with TDG engagement at the Atf4 gene promoter and in conjunction with a TDG-dependent regulation of the mammalian target of rapamycin complex 1. These observations highlight the central role of TDG in cell differentiation and support a model linking metabolic reprogramming to cell fate acquisition.
ORGANISM(S): Mus musculus
PROVIDER: GSE261602 | GEO | 2024/03/19
REPOSITORIES: GEO
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