Interplay between CTCF boundaries and a super enhancer controls cohesin extrusion trajectories and gene expression
Vos, Erica S.M.; Valdes-Quezada, Christian; Huang, Yike; Allahyar, Amin; Verstegen, Marjon J.A.M.; Felder, Anna Karina; van der Vegt, Floor; Uijttewaal, Esther C.H.; Krijger, Peter H.L.; de Laat, Wouter
(2021) Molecular Cell, volume 81, issue 15, pp. 3082 - 3095.e6
(Article)
Abstract
To understand how chromatin domains coordinate gene expression, we dissected select genetic elements organizing topology and transcription around the Prdm14 super enhancer in mouse embryonic stem cells. Taking advantage of allelic polymorphisms, we developed methods to sensitively analyze changes in chromatin topology, gene expression, and protein recruitment. We show that
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enhancer insulation does not rely strictly on loop formation between its flanking boundaries, that the enhancer activates the Slco5a1 gene beyond its prominent domain boundary, and that it recruits cohesin for loop extrusion. Upon boundary inversion, we find that oppositely oriented CTCF terminates extrusion trajectories but does not stall cohesin, while deleted or mutated CTCF sites allow cohesin to extend its trajectory. Enhancer-mediated gene activation occurs independent of paused loop extrusion near the gene promoter. We expand upon the loop extrusion model to propose that cohesin loading and extrusion trajectories originating at an enhancer contribute to gene activation.
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Keywords: chromatin, cohesin, CTCF, domains, enhancers, gene regulation, genome organization, loop extrusion, loops, TADs, Molecular Biology, Cell Biology
ISSN: 1097-2765
Publisher: Cell Press
Note: Funding Information: We thank Geert Geeven for help with 4C analysis and cHi-C bait design, Valerio Bianchi for help with gene expression and ChIP analyses, Julen Mendieta-Esteban and Marc Marti-Renom at CNAG-CRG Barcelona for help with MC-4C analysis, Robin van der Weide at NKI for help with insulation scores, and de Laat lab members for discussions. This work is part of the Oncode Institute and was funded by a VICI grant (724.012.003) from the Netherlands Organization for Scientific Research (NWO) and a Fondation Leducq Transatlantic Network grant ( 14CVD01 ). Publisher Copyright: © 2021 Elsevier Inc.
(Peer reviewed)