Xu Xiongfei, Guo Shiwei, Gu Haihui, Cha Zhanshan, Shi Xiaohan, Yin Xiaoyi, Wang Huan, Gao Suizhi, Li Bo, Zhu Lingyu, Jing Wei, Zheng Kailian, Shao Zhuo, Cheng Peng, Zheng Chunhong, Shih Yi-Ping, Li Yunguang, Qian Baohua, Gao Dong, Tran Eric, Jin Gang
Department of Hepatobiliary Pancreatic Surgery.
Shanghai Institute of Pancreatic Diseases, and.
JCI Insight. 2025 Jan 23;10(2):e181873. doi: 10.1172/jci.insight.181873.
T cells targeting a KRAS mutation can induce durable tumor regression in some patients with metastatic epithelial cancer. It is unknown whether T cells targeting mutant KRAS that are capable of killing tumor cells can be identified from peripheral blood of patients with pancreatic cancer. We developed an in vitro stimulation approach and identified HLA-A11:01-restricted KRAS G12V-reactive CD8+ T cells and HLA-DRB115:01-restricted KRAS G12V-reactive CD4+ T cells from peripheral blood of 2 out of 6 HLA-A11:01-positive patients with pancreatic cancer whose tumors expressed KRAS G12V. The HLA-A11:01-restricted KRAS G12V-reactive T cell receptor (TCR) was isolated and validated to specifically recognize the KRAS G12V8-16 neoepitope. While T cells engineered to express this TCR specifically recognized all 5 tested human HLA-A*11:01+ and KRAS G12V+ pancreatic cancer organoids, the recognition was often modest, and tumor cell killing was observed in only 2 out of 5 organoids. IFN-γ priming of the organoids enhanced the recognition and killing by the TCR-engineered T cells. The TCR-engineered T cells could significantly slow the growth of an established organoid-derived xenograft in immunodeficient mice. Our data suggest that this TCR has potential for use in TCR-gene therapy, but additional strategies that enhance tumor recognition by the TCR-engineered T cells likely will be required to increase clinical activity.
靶向KRAS突变的T细胞可使部分转移性上皮癌患者实现持久的肿瘤消退。目前尚不清楚能否从胰腺癌患者外周血中识别出能够杀伤肿瘤细胞的靶向突变KRAS的T细胞。我们开发了一种体外刺激方法,并从6例肿瘤表达KRAS G12V的HLA - A11:01阳性胰腺癌患者中的2例患者外周血中,鉴定出了HLA - A11:01限制性KRAS G12V反应性CD8 + T细胞和HLA - DRB115:01限制性KRAS G12V反应性CD4 + T细胞。分离出HLA - A11:01限制性KRAS G12V反应性T细胞受体(TCR),并验证其能特异性识别KRAS G12V8 - 16新表位。虽然经工程改造表达该TCR的T细胞能特异性识别所有5个测试的人HLA - A*11:01 +且KRAS G12V +胰腺癌类器官,但识别通常程度一般,且仅在5个类器官中的2个中观察到肿瘤细胞杀伤。对类器官进行IFN -γ预处理增强了经TCR工程改造的T细胞的识别和杀伤能力。经TCR工程改造的T细胞可显著减缓免疫缺陷小鼠中已建立的类器官衍生异种移植瘤的生长。我们的数据表明,这种TCR有用于TCR基因治疗的潜力,但可能需要额外的策略来增强经TCR工程改造的T细胞对肿瘤的识别,以提高临床活性。
