Targeting intracellular LMP2 with costimulatory signal–armed antibody-like TCR T cells
Jiali Cheng, Xuelian Hu, Zhenyu Dai, Yuhao Zeng, Jin Jin, Wei Mu, Qiaoe Wei, Xiangyin Jia, Jianwei Liu, Meng Xie, Qian Luo, Guang Hu, Gaoxiang Wang, Xiaojian Zhu, Jianfeng Zhou, Min Xiao, Jue Wang, Taochao Tan, Liang Huang
Jiali Cheng, Xuelian Hu, Zhenyu Dai, Yuhao Zeng, Jin Jin, Wei Mu, Qiaoe Wei, Xiangyin Jia, Jianwei Liu, Meng Xie, Qian Luo, Guang Hu, Gaoxiang Wang, Xiaojian Zhu, Jianfeng Zhou, Min Xiao, Jue Wang, Taochao Tan, Liang Huang
View: Text | PDF
Research Article Infectious disease Therapeutics

Targeting intracellular LMP2 with costimulatory signal–armed antibody-like TCR T cells

Abstract

Expanding the repertoire of CAR therapies to include intracellular antigens holds promise for treating a broad spectrum of malignancies. TCR-like T cells, capable of recognizing intracellular antigen–derived peptides in complex with HLA molecules (pHLA), represent a promising strategy in the field of engineered cellular therapy. This study introduced antibody-like TCR (abTCR) T cells that specifically targeted HLA-A*02:01–restricted LMP2426 peptides, a typical Epstein-Barr virus (EBV) latency II protein, for the treatment of EBV-associated lymphoproliferative diseases (EBV-LPDs). Compared with classic CAR T cells targeting the same epitope, abTCR T cells demonstrated superior efficiency, including increased CD107A expression, enhanced cytotoxicity, and elevated IFN-γ secretion, even when engaging with target cells that naturally present antigens. Moreover, a costimulatory signal–armed abTCR (Co-abTCR), which integrated a costimulatory structure with the abTCR, further enhanced the proliferation and in vivo tumoricidal efficacy of transfected T cells. Collectively, our study developed a potentially novel TCR-like T cell therapy that targets HLA-A*02/LMP2426 for the treatment of EBV-LPDs, providing a potential therapeutic solution for targeting of intracellular antigens in cancer immunotherapy.

Authors

Jiali Cheng, Xuelian Hu, Zhenyu Dai, Yuhao Zeng, Jin Jin, Wei Mu, Qiaoe Wei, Xiangyin Jia, Jianwei Liu, Meng Xie, Qian Luo, Guang Hu, Gaoxiang Wang, Xiaojian Zhu, Jianfeng Zhou, Min Xiao, Jue Wang, Taochao Tan, Liang Huang

×

Figure 5

The functionality of abTCR, 3rdCAR, and Co-abTCR T cells in Jeko1-LMP2 xenografted mice model.

Options: View larger image (or click on image) Download as PowerPoint
The functionality of abTCR, 3rdCAR, and Co-abTCR T cells in Jeko1-LMP2 x...
(A) The experimental design. NCG mice were i.v. injected with 1 × 106 Jeko1-LMP2-ffLuc cells at day –3, and treated by 4 × 106 abTCR T cells, 3rdCAR T cells, Co-abTCR T cells, mock T cells, or PBS at day 0. Bioluminescence imaging and blood collection were performed as the indicated time. (B) The bioluminescence imaging analysis of mice in different groups on days 0, 7, 13, 20, 26, and 34. The crossed red lines indicate that the mouse was dead. (C) The tumor burden, presented by average radiance, of mice in each group over time. The significance * at day 20 referred to 3rdCAR versus mock T, and abTCR-BB versus mock T, by multiple comparison with Bonferroni’s correction after 1-way ANOVA. Only the comparison at day 20 between 3rdCAR or abTCR-BB versus mock T was specifically highlighted. (D) The survival of mice in different groups over time. Log-rank test was used. (E) The percentage of abTCR+ or CAR+ cells to hCD45+ cells in the peripheral blood of mice over time. One-way ANOVA with Bonferroni’s correction for multiple comparison was used. (F and G) The MFI of exhaustion markers, PD1, TIGIT, and LAG3 (F), and the percentage of naive (CD45ROCCR7+)/central memory (CD45RO+CCR7+) or effector memory (CD45RO+CCR7)/terminally differentiated effector cells (CD45ROCCR7) (G) in abTCR+, 3rdCAR+, or Co-abTCR+ cells at 20 days after infusion. Data were all presented as mean ± SEM. One-way ANOVA with Bonferroni’s correction for multiple comparison test was used. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001.