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RNA-binding proteins mediate the maturation of chromatin topology during differentiation

Bondita Dehingia, Małgorzata Milewska-Puchała, Marcin Janowski, Mahmoud‐Reza Rafiee, Misbah Abbas, Aleksandra Piotrowska, Jan F. Senge, Piotr Blaut, Dietrich W. M. Walsh, Jacqueline Severino, Debasish Chaudhury, Sajjad Iqbal, Rogelio Montiel-Manríquez, Sylwia Jankowska, Payman Zare, Wolfgang Huber, Jianliang Xu, Rafael Casellas, Timo Zimmermann, Paweł Dłotko, Jeroen Krijgsveld, Aleksandra Pękowska

2025Nature Cell Biology10 citationsDOIOpen Access PDF

Abstract

Topologically associating domains (TADs) and chromatin architectural loops impact promoter-enhancer interactions, with CCCTC-binding factor (CTCF) defining TAD borders and loop anchors. TAD boundaries and loops progressively strengthen upon embryonic stem (ES) cell differentiation, underscoring the importance of chromatin topology in ontogeny. However, the mechanisms driving this process remain unclear. Here we show a widespread increase in CTCF-RNA-binding protein (RBP) interactions upon ES to neural stem (NS) cell differentiation. While dispensable in ES cells, RBPs reinforce CTCF-anchored chromatin topology in NS cells. We identify Pantr1, a non-coding RNA, as a key facilitator of CTCF-RBP interactions, promoting chromatin maturation. Using acute CTCF degradation, we find that, through its insulator function, CTCF helps maintain neuronal gene silencing in NS cells by acting as a barrier to untimely gene activation during development. Altogether, we reveal a fundamental mechanism driving developmentally linked chromatin structural consolidation and the contribution of this process to the control of gene expression in differentiation.

Topics & Concepts

ChromatinCTCFCell biologyGene silencingBiologyChIA-PETBivalent chromatinEmbryonic stem cellChromatin remodelingTopology (electrical circuits)Regulation of gene expressionTranscription factorGeneGeneticsCellular differentiationInsulator (electricity)MutantRegulatorTranscriptional regulationGene regulatory networkGenomics and Chromatin DynamicsRNA Research and SplicingRNA modifications and cancer