Abstract
Immune checkpoint inhibitor-induced inflammatory arthritis (ICI-IA) significantly impairs cancer therapy and patient quality of life, yet its pathogenic mechanisms remain unclear. Through integrated single-cell multi-omics analysis of paired peripheral blood, synovial fluid, and tumor samples from longitudinal ICI-IA cohorts and matched controls, we identified a unique regulatory T-cell (Treg) population co-expressing CD137 and IL-6R (AtpTreg). These cells exhibited reduced immunosuppressive capacity while aberrantly producing high level of IL-17 and promoting proinflammatory responses of synoviocytes. AtpTreg exhibits shared clonotypes and phenotypes across tissue compartments. Notably, AtpTreg frequency correlates with increased arthritis severity yet paradoxically associates with improved overall survival. Anti-IL6R therapy reduced AtpTreg levels, corresponding with improved arthritis outcomes and quality of life, without compromising anti-tumor immunity. Our findings define a pathogenic Treg subset in ICI-IA and validate IL-6R blockade as a mechanism-based therapeutic strategy, bridging mechanistic discovery to clinical translation. This study is registered at ClinicalTrials.gov (NCT07357636).
Authors
Yifei Ma, Nianqi Liu, Yan Li, Denghan Zhang, Shaohui He, Jun Lv, Yongluo Jiang, Guangmin Jian, Jingyao Zhang, Pengfei Zhu, Yue Ma, Jiacai Lin, Jin Li, Tong Wu, Yiwei Xu, Xiajie Lyu, Youlong Wang, Yiming Li, Yu Si Niu, Zhenyun Guo, Churong Lin, Ningnan Fang, Wei Jiang, Lihong Wang, Mengqin Yuan, Shenyue Wang, Shulin Huang, Qi Huang, Jinjian Li, Jun Lu, Bocen Chen, Guanqing Zhong, Haizhou Liu, Fadian Ding, Shangeng Weng, Rui Li, Ao Zhang
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Copyright © 2026 American Society for Clinical Investigation
ISSN: 0021-9738 (print), 1558-8238 (online)