The IFN-γ receptor promotes immune dysregulation and disease in STING gain-of-function mice
W. Alexander Stinson, … , Subhajit Poddar, Jonathan J. Miner
W. Alexander Stinson, … , Subhajit Poddar, Jonathan J. Miner
Published September 8, 2022
Citation Information: JCI Insight. 2022;7(17):e155250. https://doi.org/10.1172/jci.insight.155250.
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Research Article Inflammation

The IFN-γ receptor promotes immune dysregulation and disease in STING gain-of-function mice

Abstract

STING gain-of-function mutations cause STING-associated vasculopathy with onset in infancy (SAVI) in humans, a disease characterized by spontaneous lung inflammation and fibrosis. Mice with STING gain-of-function mutations (SAVI mice) develop αβ T cell–dependent lung disease and also lack lymph nodes. Although SAVI has been regarded as a type I interferonopathy, the relative contributions of the three interferon receptors are incompletely understood. Here, we show that STING gain of function led to upregulation of IFN-γ–induced chemokines in the lungs of SAVI mice and that deletion of the type II IFN receptor (IFNGR1), but not the type I IFN receptor (IFNAR1) or type III IFN receptor (IFNλR1), ameliorated lung disease and restored lymph node development in SAVI mice. Furthermore, deletion of IFNGR1, but not IFNAR1 or IFNλR1, corrected the ratio of effector to Tregs in SAVI mice and in mixed bone marrow chimeric mice. Finally, cultured SAVI mouse macrophages were hyperresponsive to IFN-γ, but not IFN-β, in terms of Cxcl9 upregulation and cell activation. These results demonstrate that IFNGR1 plays a major role in autoinflammation and immune dysregulation mediated by STING gain of function.

Authors

W. Alexander Stinson, Cathrine A. Miner, Fang R. Zhao, Annena Jane Lundgren, Subhajit Poddar, Jonathan J. Miner

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Figure 3

The type II IFN receptor, IFNGR1, regulates frequencies, numbers, and subsets of splenic T cells in SAVI mice.

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The type II IFN receptor, IFNGR1, regulates frequencies, numbers, and su...
(A) Representative FACS plots of CD44loCD62Lhi naive (Tn), CD44hiCD62Lhi central memory (Tcm), and CD44hiCD62Llo effector memory (Teff) CD8α+ (top) and CD4+ (bottom) T cells from STING N153S (SAVI) and Ifngr1–/– SAVI mice. (B) Frequencies of splenic CD8α+ and CD4+ Tn, Tcm, and Teff cells in SAVI animals or those lacking the indicated IFN receptor. Frequencies are of total CD8α+ or CD4+ T cells. (C) Comparison of subset distributions of CD8α+ T cells and CD4+ T cells in SAVI mice with functioning type I, II, and III IFN receptors or those lacking the indicated IFN receptor. (D) Numbers of total splenic CD8α+ or CD4+ T cells, as well as CD8α+ or CD4+ Tn, Tcm, and Teff subsets, in SAVI mice or those lacking the indicated IFN receptor. Data in B–D represent the mean ± SEM of n = 9–18 mice per genotype pooled from 3 to 6 independent experiments. Data were analyzed by Kruskal-Wallis test. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.