Litcius/Paper detail

Extensive SUMO Modification of Repressive Chromatin Factors Distinguishes Pluripotent from Somatic Cells

Ilan Theurillat, Ivo A. Hendriks, Jack‐Christophe Cossec, Alexandra Andrieux, Michael L. Nielsen, Anne Dejean

2020Cell Reports59 citationsDOIOpen Access PDF

Abstract

Post-translational modification by SUMO is a key regulator of cell identity. In mouse embryonic fibroblasts (MEFs), SUMO impedes reprogramming to pluripotency, while in embryonic stem cells (ESCs), it represses the emergence of totipotent-like cells, suggesting that SUMO targets distinct substrates to preserve somatic and pluripotent states. Using MS-based proteomics, we show that the composition of endogenous SUMOylomes differs dramatically between MEFs and ESCs. In MEFs, SUMO2/3 targets proteins associated with canonical SUMO functions, such as splicing, and transcriptional regulators driving somatic enhancer selection. In contrast, in ESCs, SUMO2/3 primarily modifies highly interconnected repressive chromatin complexes, thereby preventing chromatin opening and transitioning to totipotent-like states. We also characterize several SUMO-modified pluripotency factors and show that SUMOylation of Dppa2 and Dppa4 impedes the conversion to 2-cell-embryo-like states. Altogether, we propose that rewiring the repertoire of SUMO target networks is a major driver of cell fate decision during embryonic development.

Topics & Concepts

ReprogrammingTotipotentChromatinEmbryonic stem cellCell biologyBiologySomatic cellInduced pluripotent stem cellSUMO proteinCell potencyCellular differentiationGeneticsCellGeneUbiquitinUbiquitin and proteasome pathwaysProtein Degradation and InhibitorsRNA modifications and cancer