Autoantigen-specific CD4<sup>+</sup> T cells acquire an exhausted phenotype and persist in human antigen-specific autoimmune diseases.
Authors
Carina Saggau, Petra Bacher, Daniela Esser, Mahdi Rasa, Silja Meise, Nicola Mohr, Nora Kohlstedt, Andreas Hutloff, Sarah-Sophie Schacht, Justina Dargvainiene, Gabriela Rios Martini, Klarissa H Stürner, Ina Schröder, Robert Markewitz, Johannes Hartl, Maria Hastermann, Ankelien Duchow, Patrick Schindler, Mareike Becker, Carolin Bautista, Judith Gottfreund, Jörn Walter, Julia K Polansky, Mingxing Yang, Reza Naghavian, Mareike Wendorff, Ev-Marie Schuster, Andreas Dahl, Andreas Petzold, Susanne Reinhardt, Andre Franke, Marek Wieczorek, Lea Henschel, Daniel Berger, Guido Heine, Maike Holtsche, Vivien Häußler, Christian Peters, Enno Schmidt, Simon Fillatreau, Dirk H Busch, Klaus-Peter Wandinger, Kilian Schober, Roland Martin, Friedemann Paul, Frank Leypoldt, Alexander Scheffold
Year of publication
2024Journal
IMMUNITYVolume
57Issue
10Abstract
Pro-inflammatory autoantigen-specific CD4+ T helper (auto-Th) cells are central orchestrators of autoimmune diseases (AIDs). We aimed to characterize these cells in human AIDs with defined autoantigens by combining human leukocyte antigen (HLA)-tetramer-based and activation-based multidimensional ex vivo analyses. In aquaporin4-antibody-positive neuromyelitis optica spectrum disorder (AQP4-NMOSD) patients, auto-Th cells expressed CD154, but proliferative capacity and pro-inflammatory cytokines were strongly reduced. Instead, exhaustion-associated co-inhibitory receptors were expressed together with FOXP3, the canonical regulatory T cell (Treg) transcription factor. Auto-Th cells responded in vitro to checkpoint inhibition and provided potent B cell help. Cells with the same exhaustion-like (ThEx) phenotype were identified in soluble liver antigen (SLA)-antibody-autoimmune hepatitis and BP180-antibody-positive bullous pemphigoid, AIDs of the liver and skin, respectively. While originally described in cancer and chronic infection, our data point to T cell exhaustion as a common mechanism of adaptation to chronic (self-)stimulation across AID types and link exhausted CD4+ T cells to humoral autoimmune responses, with implications for therapeutic targeting.