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Oct1 cooperates with Smad transcription factors to promote mesodermal lineage specification [HiChIP]


ABSTRACT: The pathways used by cells to transition between pluripotent and tissue-specific states are incompletely understood. Here we show that the widely-expressed transcription factor Oct1/Pou2f1 activates silent, developmental lineage-appropriate genes to “canalize” developmental progression. Using Oct1 inducible knockout embryonic stem cells, we show that that Oct1 deficiency impairs mesodermal and terminal muscle differentiation in a manner that can be rescued by Oct1 retroviral expression. We show that mesoderm-specific genes are not correctly induced early in the differentiation timecourse. Oct1-deficient cells lose temporal coherence in the induction of lineage-specific genes and show inappropriate developmental lineage branching, resulting in poorly differentiated cells states retaining epithelial characteristics. In embryonic stem cells, Oct1 co-binds with Oct4 to genes critical for mesoderm induction, and continues to bind these genes during differentiation. Oct1 binding events are enriched at the termini of chromatin loops, including loops gained with differentiation. The Utx/Kdm6a histone lysine demethylase also binds to many of these genes, and using a prototypic Pax3 gene we show that Oct1 recruits Utx to remove inhibitory H3K27me3 marks and activate expression. The specificity of the ubiquitous Oct1 protein for mesodermal genes can be explained by cooperative interactions with lineage-driving Smad transcription factors, as we show that Smad and Oct binding sites frequently coexist mesoderm-specific genes, and that Oct1 and Smad3 act cooperatively at the Myog enhancer. Overall, these results identify Oct1 as a key mediator of the induction of mesoderm lineage-specific genes.

ORGANISM(S): Mus musculus

PROVIDER: GSE207828 | GEO | 2022/11/26

REPOSITORIES: GEO

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