细胞毒性T细胞
免疫疗法
癌症研究
抗原
癌症免疫疗法
肿瘤抗原
黑色素瘤
免疫系统
前列腺癌
癌症
肿瘤微环境
T细胞
嵌合抗原受体
CD8型
过继性细胞移植
细胞因子
免疫学
单克隆抗体
生物
作者
Zheng Liu,Chunqing Guo,Swadesh K. Das,Xiaofei Yu,Anjan K. Pradhan,Xia Li,Yanxia Ning,Shixian Chen,Wenjie Liu,Jolene J. Windle,Harry D. Bear,Masoud H. Manjili,Paul B. Fisher,Xiang-Yang Wang
出处
期刊:Cancer Research
[American Association for Cancer Research]
日期:2021-05-01
卷期号:81 (9): 2429-2441
被引量:3
标识
DOI:10.1158/0008-5472.can-20-2604
摘要
Antigen-specific immunotherapy can be limited by induced tumor immunoediting (e.g., antigen loss) or through failure to recognize antigen-negative tumor clones. Melanoma differentiation-associated gene-7/IL24 (MDA-7/IL24) has profound tumor-specific cytotoxic effects in a broad spectrum of cancers. Here we report the enhanced therapeutic impact of genetically engineering mouse tumor-reactive or antigen-specific T cells to produce human MDA-7/IL24. While mock-transduced T cells only killed antigen-expressing tumor cells, MDA-7/IL24-producing T cells destroyed both antigen-positive and negative cancer targets. MDA-7/IL24-expressing T cells were superior to their mock-engineered counterparts in suppressing mouse prostate cancer and melanoma growth as well as metastasis. This enhanced antitumor potency correlated with increased tumor infiltration and expansion of antigen-specific T cells as well as induction of a Th1-skewed immunostimulatory tumor environment. MDA-7/IL24-potentiated T-cell expansion was dependent on T-cell-intrinsic STAT3 signaling. Finally, MDA-7/IL24-modified T-cell therapy significantly inhibited progression of spontaneous prostate cancers in Hi-Myc transgenic mice. Taken together, arming T cells with tumoricidal and immune-potentiating MDA-7/IL24 confers new capabilities of eradicating antigen-negative cancer cell clones and improving T-cell expansion within tumors. This promising approach may be used to optimize cellular immunotherapy for treating heterogeneous solid cancers and provides a mechanism for inhibiting tumor escape. SIGNIFICANCE: This research describes a novel strategy to overcome the antigenic heterogeneity of solid cancers and prevent tumor escape by engineering T lymphocytes to produce a broad-spectrum tumoricidal agent.
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