CAR-T cells targeting CD155 reduce tumor burden in preclinical models of leukemia and solid tumors
Tianchen Xiong, Ge Wang, Peng Yu, Zhenlong Li, Debao Li, Jianying Zhang, Song Lu, Ruiqi Yang, Xiaolong Lian, Jianhong Mi, Rui Ma, Zhiyao Li, Guido Marcucci, Tingting Zhao, Michael A. Caligiuri, Jianhua Yu
Tianchen Xiong, Ge Wang, Peng Yu, Zhenlong Li, Debao Li, Jianying Zhang, Song Lu, Ruiqi Yang, Xiaolong Lian, Jianhong Mi, Rui Ma, Zhiyao Li, Guido Marcucci, Tingting Zhao, Michael A. Caligiuri, Jianhua Yu
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Research Article Oncology

CAR-T cells targeting CD155 reduce tumor burden in preclinical models of leukemia and solid tumors

Abstract

CAR-T cells are a powerful yet expensive tool in cancer immunotherapy. Although their use in targeting hematological malignancies is well established, using a single CAR-T cell therapy to treat both hematological and solid tumors, which can reduce cost, remains largely unexplored. In this study, we identified CD155, an adhesion molecule that is upregulated during tumor progression, as a target for CAR-T cell therapy in both leukemia and solid tumors. We engineered CAR-T cells using human and mouse anti–CD155 antibodies generated from a Berkeley Lights’ Beacon platform. These CAR-T cells demonstrated potent antitumor activity, significantly reducing tumor burden in preclinical models of acute myeloid leukemia, non–small cell lung cancer, and pancreatic cancer. To reduce potential allogeneic rejection, we generated CAR-T cells using humanized anti–CD155 antibody sequences that retained efficacy. Additionally, murine CAR-T cells targeting mouse CD155 exhibited limited toxic side effects in immunocompetent mice, highlighting the favorable safety profile of this therapy. These findings suggest that CD155 can be targeted by CD155 CAR-T cells safely and effectively, representing an innovative cellular therapeutic strategy that has the potential to expand its scope across both AML and multiple solid tumors, thereby lowering the cost of cellular immunotherapy, especially as allogenic, universal, and off-the-shelf CAR-T cell therapies advance to the clinic.

Authors

Tianchen Xiong, Ge Wang, Peng Yu, Zhenlong Li, Debao Li, Jianying Zhang, Song Lu, Ruiqi Yang, Xiaolong Lian, Jianhong Mi, Rui Ma, Zhiyao Li, Guido Marcucci, Tingting Zhao, Michael A. Caligiuri, Jianhua Yu

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Figure 8

mCD155 CAR-T cells show a favorable systemic and neurotoxic safety profile in immunocompetent mouse models.

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mCD155 CAR-T cells show a favorable systemic and neurotoxic safety profi...
(A) Treatment schedule for in vivo toxicity assessment of mCD155 CAR-T cells in a syngeneic immunocompetent mouse model. (B) Weight change of mice injected with mock T or mCD155 CAR-T cells (n = 5 mice per group). (C) Statistics of absolute cell numbers of CD19+ B cells, NK1.1+ NK cells, CD11c+MHC-II+ DCs, CD11b+F4/80+ macrophages, CD11b+Ly6C+ monocytes, and CD11b+Ly6G+ neutrophils in the spleen and bone marrow of mice on day 30 after injection with mock T or mCD155 CAR-T cells (n = 5 mice per group). (D) Assessment of serum cytokine levels from mice described in (C). (E) H&E staining of the organs collected from mice described in (C). Scale bars: 100 μm. (F) IHC analysis of IBA1 (left) and GFAP (right) expression on brain tissues from mice described in (C). Scale bars: 100 μm. Data represent the mean ± SD and were analyzed by 2-way ANOVA with repeated measures (B) or 2-tailed Student’s t tests (C and D).