Dynamic transition of Tregs to cytotoxic phenotype amid systemic inflammation in Graves’ ophthalmopathy
Zhong Liu, … , Zhen Mao, Xian-Chai Lin
Zhong Liu, … , Zhen Mao, Xian-Chai Lin
Published October 4, 2024
Citation Information: JCI Insight. 2024;9(22):e181488. https://doi.org/10.1172/jci.insight.181488.
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Research Article Genetics

Dynamic transition of Tregs to cytotoxic phenotype amid systemic inflammation in Graves’ ophthalmopathy

Abstract

Graves’ disease (GD) is an autoimmune condition that can progress to Graves’ ophthalmopathy (GO), leading to irreversible damage to orbital tissues and potential blindness. The pathogenic mechanism is not fully understood. In this study, we conducted single-cell multi-omics analyses on healthy individuals, patients with GD without GO, newly diagnosed patients with GO, and treated patients with GO. Our findings revealed gradual systemic inflammation during GO progression, marked by overactivation of cytotoxic effector T cell subsets, and expansion of specific T cell receptor clones. Importantly, we observed a decline in the immunosuppressive function of activated Treg (aTreg) accompanied by a cytotoxic phenotypic transition. In vitro experiments revealed that dysfunction and transition of GO-autoreactive Treg were regulated by the yin yang 1 (YY1) upon secondary stimulation of thyroid stimulating hormone receptor (TSHR) under inflammatory conditions. Furthermore, adoptive transfer experiments of the GO mouse model confirmed infiltration of these cytotoxic Treg into the orbital lesion tissues. Notably, these cells were found to upregulate inflammation and promote pathogenic fibrosis of orbital fibroblasts (OFs). Our results reveal the dynamic changes in immune landscape during GO progression and provide direct insights into the instability and phenotypic transition of Treg, offering potential targets for therapeutic intervention and prevention of autoimmune diseases.

Authors

Zhong Liu, Shu-Rui Ke, Zhuo-Xing Shi, Ming Zhou, Li Sun, Qi-Hang Sun, Bing Xiao, Dong-Liang Wang, Yan-Jin Huang, Jin-Shan Lin, Hui-Shi Wang, Qi-Kai Zhang, Cai-Neng Pan, Xuan-Wei Liang, Rong-Xin Chen, Zhen Mao, Xian-Chai Lin

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Figure 1

Single-cell atlas of expression and chromatin accessibility revealed enhanced inflammation in the systemic immune environment during GO progression.

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Single-cell atlas of expression and chromatin accessibility revealed enh...
(A) Schematic representation of single-cell multi-omics sequencing (scRNA-Seq, scATAC-Seq, and scTCR-Seq) experimental design. PBMCs were isolated from healthy controls (Healthy, n = 10), patients with Graves’ disease without ophthalmopathy (GH, n = 10), patients with Graves’ ophthalmopathy (GO, n = 10), and corticosteroid-treated patients (Treated, n = 11), followed by processing using the 10X Genomics platform. (B) UMAP plots depicted major immune cell types in peripheral blood based on scRNA-Seq and scATAC-Seq datasets. (C and D) UMAP plots illustrated the expression levels (C) and gene activity scores (D) of typical marker genes for major immune cell types. (E) Violin plots showed the expression and activity scores of Graves’ disease, inflammatory, and IFNG signal gene sets among Healthy, GH, and GO groups. Data are represented as the median IQR. ****Padj < 0.00001 by Mann-Whitney U test. (F) Scatter plots depicted the correlation of Graves’ disease gene and inflammatory gene scores across all samples in Healthy, GH, and GO groups. (GI) Flow density plots and dot plots displayed the expression levels of IL-6 (G), TNF-α (H), and IFN-γ (I) in peripheral blood from Healthy, GH, and GO donors (Healthy, n = 9; GH, n = 9; GO, n = 9). Data are represented as the median IQR. *Padj < 0.05, **Padj < 0.001, ***Padj < 0.0001 by Mann-Whitney U test.