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IL-4 induces CD22 expression to restrain the effector program of virtual memory T cells.

par Yang, Bin;Piedfort, Ophélie;Sánchez Sánchez, Guillem ;Lavergne, Arnaud;Gong, Meijiao;Peng, Garrie;Madrigal, Ariel;Petrellis, Georgios;Katsandegwaza, Brunette;Rodriguez, Lucia Rodriguez;Balthazar, Alexis;Meyer, Sarah J;Van Isterdael, Gert;Van Duyse, Julie;Andris, Fabienne ;Bai, Qiang;Marichal, Thomas;Machiels, Benedicte;Nitschke, Lars;Najafabadi, Hamed S;King, Irah L;Vermijlen, David ;Dewals, Benjamin G
Référence Science immunology, 10, 104, page (eadk4841)
Publication Publié, 2025-02-01

Article révisé par les pairs

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Résumé :

Parasitic helminths induce the production of interleukin-4 (IL-4), which causes the expansion of virtual memory CD8+ T cells (TVM cells), a cell subset that contributes to the control of coinfection with intracellular pathogens. However, the mechanisms regulating IL-4-dependent TVM cell activation and expansion remain ill defined. Here, we used single-cell RNA sequencing of CD8+ T cells to identify pathways that control IL-4-dependent TVM cell responses. Gene signature analysis of CD8+ T cells identified a cell cluster marked by CD22, a canonical regulator of B cell activation, as a selective surface marker of IL-4-induced TVM cells. CD22+ TVM cells were enriched for interferon-γ and granzyme A and retained a diverse TCR repertoire while enriched in self-reactive CDR3 sequences. CD22 intrinsically regulated the IL-4-induced CD8+ T cell effector program, resulting in reduced responsiveness of CD22+ TVM cells and regulatory functions to infection and inflammation. Thus, helminth-induced IL-4 drives the expansion and activation of TVM cells that is counterinhibited by CD22.