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

Author

Listed:
  • Zhi Liu

    (Shanghai Jiao Tong University School of Medicine
    Salk Institute for Biological Studies)

  • Dong-Sung Lee

    (Salk Institute for Biological Studies
    University of Seoul)

  • Yuqiong Liang

    (Salk Institute for Biological Studies)

  • Ye Zheng

    (Salk Institute for Biological Studies)

  • Jesse R. Dixon

    (Salk Institute for Biological Studies)

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.

Suggested Citation

  • Zhi Liu & Dong-Sung Lee & Yuqiong Liang & Ye Zheng & Jesse R. Dixon, 2023. "Foxp3 orchestrates reorganization of chromatin architecture to establish regulatory T cell identity," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-42647-y
    DOI: 10.1038/s41467-023-42647-y
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    References listed on IDEAS

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    1. Marc A. Gavin & Jeffrey P. Rasmussen & Jason D. Fontenot & Valeria Vasta & Vincent C. Manganiello & Joseph A. Beavo & Alexander Y. Rudensky, 2007. "Foxp3-dependent programme of regulatory T-cell differentiation," Nature, Nature, vol. 445(7129), pages 771-775, February.
    2. Jesse R. Dixon & Siddarth Selvaraj & Feng Yue & Audrey Kim & Yan Li & Yin Shen & Ming Hu & Jun S. Liu & Bing Ren, 2012. "Topological domains in mammalian genomes identified by analysis of chromatin interactions," Nature, Nature, vol. 485(7398), pages 376-380, May.
    3. Ralph Stadhouders & Guillaume J. Filion & Thomas Graf, 2019. "Transcription factors and 3D genome conformation in cell-fate decisions," Nature, Nature, vol. 569(7756), pages 345-354, May.
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