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Foxp3 orchestrates reorganization of chromatin architecture to establish regulatory T cell identity

Zhi Liu, Dong-Sung Lee, Yuqiong Liang, Ye Zheng, Jesse R. Dixon

2023Nature Communications30 citationsDOIOpen Access PDF

Abstract

Chromatin conformation reorganization is emerging as an important layer of regulation for gene expression and lineage specification. Yet, how lineage-specific transcription factors contribute to the establishment of cell type-specific 3D chromatin architecture in the immune cells remains unclear, especially for the late stages of T cell subset differentiation and maturation. Regulatory T cells (Treg) are mainly generated in the thymus as a subpopulation of T cells specializing in suppressing excessive immune responses. Here, by comprehensively mapping 3D chromatin organization during Treg cell differentiation, we show that Treg-specific chromatin structures were progressively established during its lineage specification, and highly associated with Treg signature gene expression. Additionally, the binding sites of Foxp3, a Treg lineage specifying transcription factor, were highly enriched at Treg-specific chromatin loop anchors. Further comparison of the chromatin interactions between wide-type Tregs versus Treg cells from Foxp3 knock-in/knockout or newly-generated Foxp3 domain-swap mutant mouse revealed that Foxp3 was essential for the establishment of Treg-specific 3D chromatin architecture, although it was not dependent on the formation of the Foxp3 domain-swapped dimer. These results highlighted an underappreciated role of Foxp3 in modulating Treg-specific 3D chromatin structure formation.

Topics & Concepts

ChromatinArchitectureComputational biologyIdentity (music)Cell biologyComputer scienceBiologyGeneticsDNAPhysicsVisual artsAcousticsArtT-cell and B-cell ImmunologyImmune Cell Function and InteractionCAR-T cell therapy research
Foxp3 orchestrates reorganization of chromatin architecture to establish regulatory T cell identity | Litcius