STIM1 controls T cell–mediated immune regulation and inflammation in chronic infection
Ludovic Desvignes, … , Joel D. Ernst, Stefan Feske
Ludovic Desvignes, … , Joel D. Ernst, Stefan Feske
Published May 4, 2015
Citation Information: J Clin Invest. 2015;125(6):2347-2362. https://doi.org/10.1172/JCI80273.
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Research Article Immunology Infectious disease Microbiology Article has an altmetric score of 23

STIM1 controls T cell–mediated immune regulation and inflammation in chronic infection

Abstract

Chronic infections induce a complex immune response that controls pathogen replication, but also causes pathology due to sustained inflammation. Ca2+ influx mediates T cell function and immunity to infection, and patients with inherited mutations in the gene encoding the Ca2+ channel ORAI1 or its activator stromal interaction molecule 1 (STIM1) are immunodeficient and prone to chronic infection by various pathogens, including Mycobacterium tuberculosis (Mtb). Here, we demonstrate that STIM1 is required for T cell–mediated immune regulation during chronic Mtb infection. Compared with WT animals, mice with T cell–specific Stim1 deletion died prematurely during the chronic phase of infection and had increased bacterial burdens and severe pulmonary inflammation, with increased myeloid and lymphoid cell infiltration. Although STIM1-deficient T cells exhibited markedly reduced IFN-γ production during the early phase of Mtb infection, bacterial growth was not immediately exacerbated. During the chronic phase, however, STIM1-deficient T cells displayed enhanced IFN-γ production in response to elevated levels of IL-12 and IL-18. The lack of STIM1 in T cells was associated with impaired activation-induced cell death upon repeated TCR engagement and pulmonary lymphocytosis and hyperinflammation in Mtb-infected mice. Chronically Mtb-infected, STIM1-deficient mice had reduced levels of inducible regulatory T cells (iTregs) due to a T cell–intrinsic requirement for STIM1 in iTreg differentiation and excessive production of IFN-γ and IL-12, which suppress iTreg differentiation and maintenance. Thus, STIM1 controls multiple aspects of T cell–mediated immune regulation to limit injurious inflammation during chronic infection.

Authors

Ludovic Desvignes, Carl Weidinger, Patrick Shaw, Martin Vaeth, Theo Ribierre, Menghan Liu, Tawania Fergus, Lina Kozhaya, Lauren McVoy, Derya Unutmaz, Joel D. Ernst, Stefan Feske

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Figure 6

Lack of STIM1 results in reduced iTreg numbers in chronic Mtb infection.

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Lack of STIM1 results in reduced iTreg numbers in chronic Mtb infection....
(A) CD4+CD25+FOXP3+ Tregs in lungs of Mtb-infected WT or Stim1CD4 mice at 77 d.p.i. Representative contour plots (left) and frequencies (mean ± SEM, right) of Tregs from 4 to 5 mice per group and time point. (B) Helios and NRP-1 expression by CD4+CD25+FOXP3+ Tregs in the lungs of mice at 77 d.p.i. Frequencies (line graphs) of Helios+NRP-1+ nTregs and HeliosNRP-1 iTregs over the course of Mtb infection are the mean ± SEM of 4 to 5 mice per group and time point. (C) Correlation of pulmonary IFN-γ levels and frequencies of iTregs in the lung of Mtb-infected WT and Stim1CD4 mice. (D) Effects of IFN-γ and IL-12 on iTreg differentiation in vitro. Naive CD4+ T cells from WT mice were stimulated with αCD3/αCD28 and IL-2/TGF-β in the presence of the indicated concentrations (in ng/ml) of IFN-γ and IL-12 for 3 days in vitro. Bar graphs show frequencies of CD25+FOXP3+ iTregs (left) and IFN-γ–producing T cells after restimulation with PMA/ionomycin for 6 hours (right) as determined by flow cytometry. (E) Effects of IFN-γ and IL-12 on the stability of iTregs. WT CD4+ T cells were differentiated into iTregs as described in D and incubated with IFN-γ, IL-12, or IFN-γ plus IL-12 for another 6 days. The frequencies of CD25+FOXP3+ cells were determined by flow cytometry. Data in D and E represent the mean ± SEM of 4 mice per group. Statistical significance was calculated by Student’s t test. *P < 0.05; **P < 0.01; ***P < 0.001.