Carm1-arginine methylation of the transcription factor C/EBPα regulates transdifferentiation velocity

• Published in: eLife
• Main Authors: Guillem Torcal Garcia, Elisabeth Kowenz-Leutz, Tian V Tian, Antonis Klonizakis, Jonathan Lerner, Luisa De Andres-Aguayo, Valeriia Sapozhnikova, Clara Berenguer, Marcos Plana Carmona, Maria Vila Casadesus, Romain Bulteau, Mirko Francesconi, Sandra Peiro, Philipp Mertins, Kenneth Zaret, Achim Leutz, Thomas Graf
• Format: Article
• Language: English
• Published: eLife Sciences Publications Ltd 2023-06-01
• Subjects: cell fate; transcription factor; gene regulation; blood cell differentiation; lineage choice; transdifferentiation
• Online Access: https://elifesciences.org/articles/83951
• ISSN: 2050-084X

Here, we describe how the speed of C/EBPα-induced B cell to macrophage transdifferentiation (BMT) can be regulated, using both mouse and human models. The identification of a mutant of C/EBPα (C/EBPαR35A) that greatly accelerates BMT helped to illuminate the mechanism. Thus, incoming C/EBPα binds to PU.1, an obligate partner expressed in B cells, leading to the release of PU.1 from B cell enhancers, chromatin closing and silencing of the B cell program. Released PU.1 redistributes to macrophage enhancers newly occupied by C/EBPα, causing chromatin opening and activation of macrophage genes. All these steps are accelerated by C/EBPαR35A, initiated by its increased affinity for PU.1. Wild-type C/EBPα is methylated by Carm1 at arginine 35 and the enzyme’s perturbations modulate BMT velocity as predicted from the observations with the mutant. Increasing the proportion of unmethylated C/EBPα in granulocyte/macrophage progenitors by inhibiting Carm1 biases the cell’s differentiation toward macrophages, suggesting that cell fate decision velocity and lineage directionality are closely linked processes.