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Immunol Cell Biol . Influenza virus infection selectively triggers the accumulation and persistence of more potent Helios-expressing Foxp3 + regulatory T cells in the lungs

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  • Immunol Cell Biol . Influenza virus infection selectively triggers the accumulation and persistence of more potent Helios-expressing Foxp3 + regulatory T cells in the lungs


    Immunol Cell Biol


    . 2021 Jul 12.
    doi: 10.1111/imcb.12492. Online ahead of print.
    Influenza virus infection selectively triggers the accumulation and persistence of more potent Helios-expressing Foxp3 + regulatory T cells in the lungs


    Chunni Lu 1 2 , Weisan Chen 1



    Affiliations

    Abstract

    Foxp3+ regulatory T cells (Tregs) represent a special lineage of CD4+ T cells. Analysis of Treg response during primary and secondary influenza virus infection clearly demonstrates a robust accumulation of Tregs into the infected lungs and the existence of a population of long-lived antigen-specific memory Tregs in the same tissues after resolution of the infection. However, it remains unknown whether these Tregs co-express Helios, a member of the Ikaros transcription factor family. In this study, we track Foxp3+ Helios+ and Foxp3+ Helios- Tregs in the lungs, mLNs and spleens of influenza virus-infected and uninfected control mice. Our data show that while there is a co-existence of Foxp3+ Helios+ and Foxp3+ Helios- Tregs in the tissues, the accumulated Tregs in the lungs and lung-draining mediastinal lymph nodes (mLNs) of the infected mice are highly enriched for Foxp3+ Helios+ cells. We further demonstrate that, after the clearance of primary infection, Foxp3+ Helios+ cells have the ability to persist in the tissues over their Helios- counterparts. More importantly, Foxp3+ Helios+ Tregs accumulated in an accelerated kinetics during recall response to reinfection. In vitro analysis of Treg suppressive function reveals that Foxp3+ Helios+ Tregs are more capable of suppressing influenza virus-specific CD8+ T cell activation, cytokine production and proliferation. Together, our data provide new insights into Treg responses during primary and secondary influenza virus infection and suggest that it is Foxp3+ Helios+ Tregs that predominantly drive the Treg responses.

    Keywords: Accumulation; Helios; Influenza virus; Persistence; Regulatory T cells.

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