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CEBPA phase separation links transcriptional activity and 3D chromatin hubs.

Cell reports (2023-07-30)
Marie Christou-Kent, Sergi Cuartero, Carla Garcia-Cabau, Julia Ruehle, Julian Naderi, Julia Erber, Maria Victoria Neguembor, Marcos Plana-Carmona, Marc Alcoverro-Bertran, Luisa De Andres-Aguayo, Antonios Klonizakis, Eric Julià-Vilella, Cian Lynch, Manuel Serrano, Denes Hnisz, Xavier Salvatella, Thomas Graf, Grégoire Stik
ABSTRACT

Cell identity is orchestrated through an interplay between transcription factor (TF) action and genome architecture. The mechanisms used by TFs to shape three-dimensional (3D) genome organization remain incompletely understood. Here we present evidence that the lineage-instructive TF CEBPA drives extensive chromatin compartment switching and promotes the formation of long-range chromatin hubs during induced B cell-to-macrophage transdifferentiation. Mechanistically, we find that the intrinsically disordered region (IDR) of CEBPA undergoes in vitro phase separation (PS) dependent on aromatic residues. Both overexpressing B cells and native CEBPA-expressing cell types such as primary granulocyte-macrophage progenitors, liver cells, and trophectoderm cells reveal nuclear CEBPA foci and long-range 3D chromatin hubs at CEBPA-bound regions. In short, we show that CEBPA can undergo PS through its IDR, which may underlie in vivo foci formation and suggest a potential role of PS in regulating CEBPA function.

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Sigma-Aldrich
Monoclonal Anti-Splicing Factor SC-35 antibody produced in mouse, clone SC-35, ascites fluid
Sigma-Aldrich
Anti-CEBPA antibody produced in rabbit, Prestige Antibodies® Powered by Atlas Antibodies, affinity isolated antibody