Foxp3-mediated blockage of ryanodine receptor 2 underlies contact-based suppression by regulatory T cells
Xiaobo Wang, … , Xiaoyu Hu, Yan Shi
Xiaobo Wang, … , Xiaoyu Hu, Yan Shi
Published December 15, 2023
Citation Information: J Clin Invest. 2023;133(24):e163470. https://doi.org/10.1172/JCI163470.
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Research Article Autoimmunity Immunology

Foxp3-mediated blockage of ryanodine receptor 2 underlies contact-based suppression by regulatory T cells

Abstract

The suppression mechanism of Tregs remains an intensely investigated topic. As our focus has shifted toward a model centered on indirect inhibition of DCs, a universally applicable effector mechanism controlled by the transcription factor forkhead box P3 (Foxp3) expression has not been found. Here, we report that Foxp3 blocked the transcription of ER Ca2+-release channel ryanodine receptor 2 (RyR2). Reduced RyR2 shut down basal Ca2+ oscillation in Tregs, which reduced m-calpain activities that are needed for T cells to disengage from DCs, suggesting a persistent blockage of DC antigen presentation. RyR2 deficiency rendered the CD4+ T cell pool immune suppressive and caused it to behave in the same manner as Foxp3+ Tregs in viral infection, asthma, hypersensitivity, colitis, and tumor development. In the absence of Foxp3, Ryr2-deficient CD4+ T cells rescued the systemic autoimmunity associated with scurfy mice. Therefore, Foxp3-mediated Ca2+ signaling inhibition may be a central effector mechanism of Treg immune suppression.

Authors

Xiaobo Wang, Shuang Geng, Junchen Meng, Ning Kang, Xinyi Liu, Yanni Xu, Huiyun Lyu, Ying Xu, Xun Xu, Xinrong Song, Bin Zhang, Xin Wang, Nuerdida Nuerbulati, Ze Zhang, Di Zhai, Xin Mao, Ruya Sun, Xiaoting Wang, Ruiwu Wang, Jie Guo, S.R. Wayne Chen, Xuyu Zhou, Tie Xia, Hai Qi, Xiaoyu Hu, Yan Shi

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Figure 1

Reduced RyR2 activity is the basis of contact-dependent suppression.

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Reduced RyR2 activity is the basis of contact-dependent suppression. (A)...
(A) Western blot protein (left) and qPCR RNA (right) analyses of m-calpain expression in Tconvs and Tregs isolated from Foxp3GFP mice. Number of independent experiments [N] = 4. (B) The change of intracellular free Ca2+ concentration [Ca2+] over time (left) and corresponding amplitude (right) are shown. Resting RFP Tconvs and RFP+ Tregs were sorted from CD4+ splenocytes of FOXP3-IRES-RFP mice by FACS following CD4 immunomagnetic negative selection (MACS) and loaded with Fluo-4 AM with 1.2 mM Ca2+ after overnight culture. Each line represents 1 cell. Number of biological repeats in 1 group of data points [n] = 20, N = 5. (C) As in B, with ratiometric Ca2+ imaging using Cal Red R525/650. n = 20, N = 3. (D) qPCR analysis of Ryr2 gene expression in FACS- or MACS-purified Tconvs and Tregs cultured overnight. N > 5. (E) Western blot analyses of RyR2 protein expression in overnight-cultured Tconvs and Tregs isolated from Foxp3GFP or FOXP3-IRES-RFP mice by FACS. N = 3. (F) As in B, with the exception that shRNA-knockdown Tconvs were used in place of Tregs. n = 20, N = 3. (G) Adhesion between OT-II T cells and OVA-pulsed DC2.4 cells that were free or engaged by Tregs, Ryr2 KD Tconvs, or control Tconvs on the opposite side of the DC cell bodies was analyzed. Shown are the triple-cell AFM assay setup and adhesion forces. N = 3. (H) DC occupation by Tregs, Ryr2 KD Tconvs, or control KD Tcon-mediated suppression of OT-II T cell division. Left: FACS plots, normalized to mode. Right: Relative efficiency of inhibition using Tregs and no Tregs as 100% and 0%, respectively. N = 3. Two-tailed unpaired Student’s t test. **P < 0.01; ***P < 0.001; ****P < 0.0001. Data are shown as the mean ± SEM where applicable.