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Activation of autoreactive lymphocytes in the lung by radioresistant cells expressing a STING gain-of-function mutation
Kevin MingJie Gao, Kristy Chiang, Sharon Subramanian, Xihui Yin, Paul J. Utz, Kerstin Nündel, Kate A. Fitzgerald, Ann Marshak-Rothstein
Kevin MingJie Gao, Kristy Chiang, Sharon Subramanian, Xihui Yin, Paul J. Utz, Kerstin Nündel, Kate A. Fitzgerald, Ann Marshak-Rothstein
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Research Article Inflammation

Activation of autoreactive lymphocytes in the lung by radioresistant cells expressing a STING gain-of-function mutation

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Abstract

Gain-of-function mutations in the dsDNA sensing adaptor STING lead to a severe autoinflammatory syndrome known as STING-associated vasculopathy with onset in infancy (SAVI). Patients with SAVI develop interstitial lung disease (ILD) and produce autoantibodies that are commonly associated with systemic autoimmune diseases. Mice expressing the most common SAVI mutation, STING V154M (VM), similarly develop ILD but exhibit severe T and B cell lymphopenia and low serum Ig titers, and they lack autoantibodies. Importantly, lethally irradiated VM hosts reconstituted with WT stem cells (WT→VM) still develop ILD. In this study, we find that WT→VM chimeras had restored B cell function, produced autoantibodies, and thereby recapitulated the loss of tolerance seen in patients with SAVI. Lymphocytes derived from both WT and BCR or TCR transgenic (Tg) donors accumulated in the extravascular lung tissue of WT+Tg→VM mixed chimeras, but lymphocyte activation and germinal center formation required WT cells with a diverse repertoire. Furthermore, when T cells isolated from the WT→VM chimeras were adoptively transferred to naive Rag1-deficient secondary hosts, they trafficked to the lung and recruited neutrophils. Overall, these findings indicated that VM expression by radioresistant cells promoted the activation of autoreactive B cells and T cells that then differentiated into potentially pathogenic effector subsets.

Authors

Kevin MingJie Gao, Kristy Chiang, Sharon Subramanian, Xihui Yin, Paul J. Utz, Kerstin Nündel, Kate A. Fitzgerald, Ann Marshak-Rothstein

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Figure 2

WT→VM mice form germinal centers in the lung.

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WT→VM mice form germinal centers in the lung.
Data obtained from 3- to 4...
Data obtained from 3- to 4-month-old age- and sex-matched WT (n = 3–10) and VM (n = 5–13) mice. Chimeric WT→WT (n = 7–13) and WT→VM (n = 10–14) mice were evaluated 8–9 weeks after reconstitution. (A) Percentage of IgD–Fas+GL7+ germinal center (GC) B cells within the CD45+CD19+ B cell compartment of WT and VM spleen or within the donor-derived B cells in WT→WT and WT→VM chimeric spleens. (B) Percentage of GC B cells within the CD45+CD19+ lung extravascular (EV) B cell compartment of in WT and VM mice and within the total donor-derived lung EV B cells in WT→WT and WT→VM chimeras. (C) Immunofluorescence imaging of WT→VM chimeric mouse lungs stained for B220 (yellow) and peanut agglutinin (PNA, magenta) to identify B220+PNA+ GC B cells. Two B cell follicles containing GCs are highlighted with white squares. Magnification (4×) of the highlighted sections are shown in the 2 panels to the right, and a dotted circular outline is used to identify the germinal center. In the middle panel, DAPI, B220, and PNA are shown together, and the right panel shows DAPI and PNA alone. Data in C are representative of 2 biologic replicates. Nonparametric Mann-Whitney U tests were used for pairwise comparisons to determine statistical significance (*P < 0.05, **P < 0.01, ***P < 0.001). Scale bars: 200 μm.

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