Article
作者: Teh, Soon-Hian ; Yeh, Chu-Fu ; Lei, Wei-Te ; Shih, Han-Po ; Ku, Cheng-Lung ; Wu, Ting-Shu ; Chen, Po-Lin ; Chang, Ya-Ting ; Chen, Yi-Chun ; Ding, Jing-Ya ; Lo, Yu-Fang ; Lee, Chen-Hsiang ; Tu, Kun-Hua ; Lin, You-Ning ; Chi, Chih-Yu ; Ho, Ping-Chih ; Wang, Shang-Yu ; Syue, Ling-Shan ; Xu, Yingxi ; Liu, Yuag-Meng ; Kuo, Chen-Yen ; Shi, Zhi-Yuan ; Peng, Jhan-Jie ; Lo, Chia-Chi ; Wu, Tsai-Yi ; Huang, Wen-Chi ; Lin, Huang-Shen ; Ho, Mao-Wang ; Chou, Chia-Huei
Neutralizing anti–interferon-γ (IFN-γ) autoantibodies (nAIGAs) impair IFN-γ–mediated immunity, predisposing patients with nAIGAs to infection by nontuberculous mycobacteria,
Talaromyces marneffei
, and other intracellular pathogens. Current clinical management relies on continuous antimicrobial therapy, with no treatment offering sustained benefits. Here, we developed human chimeric autoantibody receptor (CAAR) T cells targeting autoreactive B cells expressing nAIGA B cell receptors (BCRs) using an IFN-γ receptor–irresponsive IFN-γ variant as bait. By exploiting a mouse model of nAIGA BCR-expressing B cell leukemia, we found that IFN-γ CAAR T cells lack off-target toxicity, including IFN-γ receptor cross-reactive toxicity and Fc-redirected toxicity. IFN-γ CAAR T cells substantially reduced circulating AIGAs secreted from target cells in vivo. Further, IFN-γ CAAR T cells effectively eliminated autoreactive B cells in ex vivo cultures of peripheral blood mononuclear cells from patients with nAIGAs. Together, these results demonstrate that IFN-γ CAAR T cells may be a promising strategy to ameliorate nAIGA-associated infections by eliminating autoreactive B cells.
