Author:
Camard Laetitia,Stephen Tharshana,Yahia-Cherbal Hanane,Guillemot Vincent,Mella Sébastien,Baillet Victoire,Lopez-Maestre Hélène,Capocefalo Daniele,Cantini Laura,Leloup Claire,Marsande Julie,Sienes-Bailo Juan,Dangien Ambre,Pietrosemoli Natalia,Hasan Milena,Wang Huimeng,Eckle Sidonia B. G.,Fourie Anne M.,Greving Carrie,Shaikh Barbara Joyce,Parker Raphaelle,Cua Daniel J.,Bianchi Elisabetta,Rogge Lars
Abstract
SummaryIL-23 signaling plays a key role in the pathogenesis of chronic inflammatory and infectious diseases, yet the cellular targets and signaling pathways affected by this cytokine remain poorly understood. We show that IL-23 receptors are expressed on the large majority of human MAIT, but not of conventional T cells. Protein and transcriptional profiling at the population and single cell level demonstrates that stimulation with IL-23 or the structurally related cytokine IL-12 drives distinct functional profiles, revealing a high level of plasticity of MAIT cells. IL-23, in particular, affects key molecules and pathways related to autoimmunity and cytotoxic functions. Integrated analysis of transcriptomic and chromatin accessibility, supported by CRISPR/Cas9 mediated deletion, shows that AP-1 transcription factors constitute a key regulatory node of the IL-23 pathway in MAIT cells. In conclusion, our findings indicate that MAIT cells are key mediators of IL-23 functions in immunity to infections and chronic inflammatory diseases.
Publisher
Cold Spring Harbor Laboratory