Targeting the immunoglobulin IGSF9 enhances anti-tumor T cell activity and sensitivity to anti-PD-1 immunotherapy

Immune checkpoints modulate the immune response and represent important immunotherapy targets for cancer treatment. However, as many tumors are resistant to current immune checkpoint inhibitors, the discovery of novel immune checkpoints could facilitate the development of additional immunotherapeuti...

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Veröffentlicht in:Cancer research (Chicago, Ill.) Ill.), 2023-07
Hauptverfasser: Liu, Yifan, Wang, Hongying, Zhao, Xinyu, Zhang, Jiashen, Zhao, Zhiling, Lian, Xia, Zhang, Juan, Kong, Feng, Hu, Tao, Wang, Ting, Li, Xiaohua, Wang, Lei, Wang, Dapeng, Li, Chunling, Luan, Huiwen, Liu, Xiaoli, Wang, Chunyan, Jiang, Yun, Li, Xiaomin, Li, Fangmin, Ji, Shuhao, Wang, Yaopeng, Li, Zunling
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container_title Cancer research (Chicago, Ill.)
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creator Liu, Yifan
Wang, Hongying
Zhao, Xinyu
Zhang, Jiashen
Zhao, Zhiling
Lian, Xia
Zhang, Juan
Kong, Feng
Hu, Tao
Wang, Ting
Li, Xiaohua
Wang, Lei
Wang, Dapeng
Li, Chunling
Luan, Huiwen
Liu, Xiaoli
Wang, Chunyan
Jiang, Yun
Li, Xiaomin
Li, Fangmin
Ji, Shuhao
Wang, Yaopeng
Li, Zunling
description Immune checkpoints modulate the immune response and represent important immunotherapy targets for cancer treatment. However, as many tumors are resistant to current immune checkpoint inhibitors, the discovery of novel immune checkpoints could facilitate the development of additional immunotherapeutic strategies to improve patient responses. Here, we identified increased expression of the adhesion molecule immunoglobulin superfamily member 9 (IGSF9) in tumor cells and tumor-infiltrating immune cells across multiple cancer types. IGSF9 overexpression or knockout in tumor cells did not alter cell proliferation in vitro or tumor growth in immunocompromised mice. Alternatively, IGSF9 deficient tumor cells lost the ability to suppress T cell proliferation and exhibited reduced growth in immunocompetent mice. Similarly, growth of tumor cells was reduced in IGSF9 knockout syngeneic and humanized mice, accompanied by increased tumor-infiltrating T cells. Mechanistically, the extracellular domain (ECD) of IGSF9 bound to T cells and inhibited their proliferation and activation, and the tumor promoting effect of IGSF9 ECD was reversed by CD3+ T cell depletion. Anti-IGSF9 antibody treatment inhibited tumor growth and enhanced the anti-tumor efficacy of anti-PD-1 immunotherapy. Single-cell RNA sequencing revealed tumor microenvironment remodeling from tumor-promoting to tumor-suppressive following anti-IGSF9 treatment. Together, these results indicate that IGSF9 promotes tumor immune evasion and is a candidate immune checkpoint target.
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However, as many tumors are resistant to current immune checkpoint inhibitors, the discovery of novel immune checkpoints could facilitate the development of additional immunotherapeutic strategies to improve patient responses. Here, we identified increased expression of the adhesion molecule immunoglobulin superfamily member 9 (IGSF9) in tumor cells and tumor-infiltrating immune cells across multiple cancer types. IGSF9 overexpression or knockout in tumor cells did not alter cell proliferation in vitro or tumor growth in immunocompromised mice. Alternatively, IGSF9 deficient tumor cells lost the ability to suppress T cell proliferation and exhibited reduced growth in immunocompetent mice. Similarly, growth of tumor cells was reduced in IGSF9 knockout syngeneic and humanized mice, accompanied by increased tumor-infiltrating T cells. Mechanistically, the extracellular domain (ECD) of IGSF9 bound to T cells and inhibited their proliferation and activation, and the tumor promoting effect of IGSF9 ECD was reversed by CD3+ T cell depletion. Anti-IGSF9 antibody treatment inhibited tumor growth and enhanced the anti-tumor efficacy of anti-PD-1 immunotherapy. Single-cell RNA sequencing revealed tumor microenvironment remodeling from tumor-promoting to tumor-suppressive following anti-IGSF9 treatment. 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title Targeting the immunoglobulin IGSF9 enhances anti-tumor T cell activity and sensitivity to anti-PD-1 immunotherapy
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