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AP-1–independent NFAT signaling maintains follicular T cell function in infection and autoimmunity

Abhinav Seth, Yoshiyuki Yokokura, Jin-Young Choi, Justin A. Shyer, Aurobind Vidyarthi, Joe Craft

2023The Journal of Experimental Medicine19 citationsDOIOpen Access PDF

Abstract

Coordinated gene expression programs enable development and function of T cell subsets. Follicular helper T (Tfh) cells coordinate humoral immune responses by providing selective and instructive cues to germinal center B cells. Here, we show that AP-1-independent NFAT gene expression, a program associated with hyporesponsive T cell states like anergy or exhaustion, is also a distinguishing feature of Tfh cells. NFAT signaling in Tfh cells, maintained by NFAT2 autoamplification, is required for their survival. ICOS signaling upregulates Bcl6 and induces an AP-1-independent NFAT program in primary T cells. Using lupus-prone mice, we demonstrate that genetic disruption or pharmacologic inhibition of NFAT signaling specifically impacts Tfh cell maintenance and leads to amelioration of autoantibody production and renal injury. Our data provide important conceptual and therapeutic insights into the signaling mechanisms that regulate Tfh cell development and function.

Topics & Concepts

NFATGerminal centerBCL6BiologyImmunologyT cellCell biologyAutoimmunitySignal transductionImmune systemTranscription factorB cellCancer researchGeneGeneticsAntibodySignaling Pathways in DiseaseT-cell and B-cell ImmunologyCAR-T cell therapy research
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