Embryonic Stem Cell Differentiation Is Regulated by SET Through Interactions with P53 and β-Catenin

Overview

Journal Stem Cell Reports

Publisher Cell Press

Specialty Cell Biology

Date 2020 Dec 9

PMID 33296674

Citations 2

Authors

Arigela Harikumar

Patrick S L Lim

Malka Nissim-Rafinia

Jung Eun Park

Siu Kwan Sze

Eran Meshorer

Affiliations

Soon will be listed here.

Abstract

The multifunctional histone chaperone, SET, is essential for embryonic development in the mouse. Previously, we identified SET as a factor that is rapidly downregulated during embryonic stem cell (ESC) differentiation, suggesting a possible role in the maintenance of pluripotency. Here, we explore SET's function in early differentiation. Using immunoprecipitation coupled with protein quantitation by LC-MS/MS, we uncover factors and complexes, including P53 and β-catenin, by which SET regulates lineage specification. Knockdown for P53 in SET-knockout (KO) ESCs partially rescues lineage marker misregulation during differentiation. Paradoxically, SET-KO ESCs show increased expression of several Wnt target genes despite reduced levels of active β-catenin. Further analysis of RNA sequencing datasets hints at a co-regulatory relationship between SET and TCF proteins, terminal effectors of Wnt signaling. Overall, we discover a role for both P53 and β-catenin in SET-regulated early differentiation and raise a hypothesis for SET function at the β-catenin-TCF regulatory axis.

Citing Articles

Multivariate meta-analysis reveals global transcriptomic signatures underlying distinct human naive-like pluripotent states.

Johnson K, Mallon B, Fann Y, Chen K PLoS One. 2021; 16(5):e0251461.

PMID: 33984026 PMC: 8118304. DOI: 10.1371/journal.pone.0251461.

Chromatin and Nuclear Architecture in Stem Cells.

Meshorer E, Plath K Stem Cell Reports. 2020; 15(6):1155-1157.

PMID: 33296671 PMC: 7724516. DOI: 10.1016/j.stemcr.2020.11.012.

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