Rapamycin improves Graves’ orbitopathy by suppressing CD4+ cytotoxic T lymphocytes
Meng Zhang, Kelvin K.L. Chong, Zi-yi Chen, Hui Guo, Yu-feng Liu, Yong-yong Kang, Yang-jun Li, Ting-ting Shi, Kenneth K.H. Lai, Ming-qian He, Kai Ye, George J. Kahaly, Bing-yin Shi, Yue Wang
Meng Zhang, Kelvin K.L. Chong, Zi-yi Chen, Hui Guo, Yu-feng Liu, Yong-yong Kang, Yang-jun Li, Ting-ting Shi, Kenneth K.H. Lai, Ming-qian He, Kai Ye, George J. Kahaly, Bing-yin Shi, Yue Wang
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Research Article Endocrinology

Rapamycin improves Graves’ orbitopathy by suppressing CD4+ cytotoxic T lymphocytes

Abstract

CD4+ cytotoxic T lymphocytes (CTLs) were recently implicated in immune-mediated inflammation and fibrosis progression of Graves’ orbitopathy (GO). However, little is known about therapeutic targeting of CD4+ CTLs. Herein, we studied the effect of rapamycin, an approved mTOR complex 1 (mTORC1) inhibitor, in a GO mouse model, in vitro, and in patients with refractory GO. In the adenovirus-induced model, rapamycin significantly decreased the incidence of GO. This was accompanied by the reduction of both CD4+ CTLs and the reduction of orbital inflammation, adipogenesis, and fibrosis. CD4+ CTLs from patients with active GO showed upregulation of the mTOR pathway, while rapamycin decreased their proportions and cytotoxic function. Low-dose rapamycin treatment substantially improved diplopia and the clinical activity score in steroid-refractory patients with GO. Single-cell RNA-Seq revealed that eye motility improvement was closely related to suppression of inflammation and chemotaxis in CD4+ CTLs. In conclusion, rapamycin is a promising treatment for CD4+ CTL-mediated inflammation and fibrosis in GO.

Authors

Meng Zhang, Kelvin K.L. Chong, Zi-yi Chen, Hui Guo, Yu-feng Liu, Yong-yong Kang, Yang-jun Li, Ting-ting Shi, Kenneth K.H. Lai, Ming-qian He, Kai Ye, George J. Kahaly, Bing-yin Shi, Yue Wang

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Figure 1

Rapamycin significantly decreases CD4+ CTL accumulation and suppresses their function in GO mice.

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Rapamycin significantly decreases CD4+ CTL accumulation and suppresses t...
(A) Representative multicolor immunofluorescence image showing CD4+GZMB+ T cells (indicated by red arrows) accumulate in the vicinity of CD90+ fibroblasts (indicated by green arrows) in orbital tissue from patients with GO. (B) Represe ntative multicolor immunofluorescence image showing the CD90+ fibroblasts with GZMB visible within the cytosol, suggesting that fibroblasts may represent targets of CD4+ CTL–directed cytotoxicity. (C) Multicolor immunofluorescence images of cCasp-3+ and HLA-DR+CD90+ fibroblasts (indicated by arrows) in orbital tissue from patients with GO. (D) Animal study design. Control mice were immunized with Ad-EGFP, GO mice were immunized with Ad-TSHRA, and rapamycin intervention mice were immunized with Ad-TSHRA while fed a diet containing rapamycin from week 11 until the end of the experiment (14 ppm, 23 weeks). (E) Representative example of thyroid and orbital tissue from the 3 groups of mice by fluorescent multiplex IHC showing coexpression of CD4 and GZMB (indicated by white arrows). (F) Bar plots exhibited counts of CD4+GZMB+ T cells in thyroid and orbital tissue from the 3 groups of mice (n = 6 in each group). Values represent the mean ± SEM. ***P < 0.001, by 2-tailed, unpaired Mann-Whitney-Wilcoxon rank test for F.