Sodium chloride is an ionic checkpoint for human Th2 cell responses and shapes the atopic skin microenvironment

Author:

Matthias Julia,Maul Julia,Noster Rebecca,Meinl Hanna,Chao Ying-Yin,Gerstenberg Heiko,Jeschke Florian,Gasparoni Gilles,Welle Anna,Jörn Walter,Nordström Karl,Eberhardt Klaus,Renisch Dennis,Donakonda Sainitin,Knolle Percy,Soll Dominik,Grabbe Stephan,Garzorz-Stark Natalie,Eyerich Kilian,Biedermann Tilo,Baumjohann Dirk,Zielinski Christina E.

Abstract

One sentence summarySodium is an ionic checkpoint for the induction and amplification of human Th2 cell responses and shapes the atopic skin microenvironment, where it could serve as a novel therapeutic target for Th2 mediated diseases.AbstractThere has been a strong increase in the incidence of allergic diseases over the last 50 years. Environmental factors most likely account for this phenomenon. However, the nature of these factors and the mode of action by which they induce the type 2 immune deviation, which is characteristic of atopic diseases, remains unclear. It has previously been reported that dietary sodium chloride promotes the polarization of Th17 cells with implications for autoimmune diseases such as multiple sclerosis. Here, we demonstrate that sodium chloride also potently promotes Th2 cell responses on multiple regulatory levels. Sodium chloride enhanced IL-4 and IL-13 production while suppressing IFN-γproduction in effector T cells. It diverted alternative T cell fates into the Th2 cell phenotype and also inducedde novoTh2 cell polarization from naïve T cell precursors. Mechanistically, it exerted its effects via the osmosensitive transcription factor NFAT-5 and the kinase SGK-1, which regulated Th2 signature cytokines and master transcription factors in hyperosmolar salt conditions. The skin of patients suffering from atopic dermatitis contained highly elevated amounts of sodium compared to non-lesional atopic and healthy skin. This demonstrates that sodium chloride represents a so far overlooked cutaneous microenvironmental factor in atopic dermatitis that can induce Th2 cell responses, the orchestrators of allergic diseases. Together, our data propose ionic signaling through sodium chloride as a novel checkpoint and potential therapeutic target for type 2 immunity and its associated allergic diseases.

Publisher

Cold Spring Harbor Laboratory

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