A CSF-1R-blocking antibody/IL-10 fusion protein increases anti-tumor immunity by effectuating tumor-resident CD8+ T cells

Yao Wen Chang; Huey Wen Hsiao; Ju Pei Chen; Sheue Fen Tzeng; Chin Hsien Tsai; Chun Yi Wu; Hsin Hua Hsieh; Santiago J. Carmona; Massimo Andreatta; Giusy Di Conza; Mei Tzu Su; Pandelakis A. Koni; Ping Chih Ho; Hung Kai Chen; Muh Hwa Yang

doi:10.1016/j.xcrm.2023.101154

A CSF-1R-blocking antibody/IL-10 fusion protein increases anti-tumor immunity by effectuating tumor-resident CD8⁺ T cells

Yao Wen Chang, Huey Wen Hsiao, Ju Pei Chen, Sheue Fen Tzeng, Chin Hsien Tsai, Chun Yi Wu, Hsin Hua Hsieh, Santiago J. Carmona, Massimo Andreatta, Giusy Di Conza, Mei Tzu Su, Pandelakis A. Koni, Ping Chih Ho, Hung Kai Chen, Muh Hwa Yang

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

Strategies to increase intratumoral concentrations of an anticancer agent are desirable to optimize its therapeutic potential when said agent is efficacious primarily within a tumor but also have significant systemic side effects. Here, we generate a bifunctional protein by fusing interleukin-10 (IL-10) to a colony-stimulating factor-1 receptor (CSF-1R)-blocking antibody. The fusion protein demonstrates significant antitumor activity in multiple cancer models, especially head and neck cancer. Moreover, this bifunctional protein not only leads to the anticipated reduction in tumor-associated macrophages but also triggers proliferation, activation, and metabolic reprogramming of CD8⁺ T cells. Furthermore, it extends the clonotype diversity of tumor-infiltrated T cells and shifts the tumor microenvironment (TME) to an immune-active state. This study suggests an efficient strategy for designing immunotherapeutic agents by fusing a potent immunostimulatory molecule to an antibody targeting TME-enriched factors.

Original language	English
Article number	101154
Journal	Cell Reports Medicine
Volume	4
Issue number	8
DOIs	https://doi.org/10.1016/j.xcrm.2023.101154
Publication status	Published - Aug 15 2023
Externally published	Yes

Keywords

CD8 T cell
colony-stimulating factor 1-receptor
head and neck cancer
immunotherapy
interleukin-10
macrophage
TCR repertoire
tumor microenvironment

ASJC Scopus subject areas

General Biochemistry,Genetics and Molecular Biology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.xcrm.2023.101154

Cite this

Chang, Y. W., Hsiao, H. W., Chen, J. P., Tzeng, S. F., Tsai, C. H., Wu, C. Y., Hsieh, H. H., Carmona, S. J., Andreatta, M., Di Conza, G., Su, M. T., Koni, P. A., Ho, P. C., Chen, H. K., & Yang, M. H. (2023). A CSF-1R-blocking antibody/IL-10 fusion protein increases anti-tumor immunity by effectuating tumor-resident CD8⁺ T cells. Cell Reports Medicine, 4(8), Article 101154. https://doi.org/10.1016/j.xcrm.2023.101154

Chang, YW, Hsiao, HW, Chen, JP, Tzeng, SF, Tsai, CH, Wu, CY, Hsieh, HH, Carmona, SJ, Andreatta, M, Di Conza, G, Su, MT, Koni, PA, Ho, PC, Chen, HK & Yang, MH 2023, 'A CSF-1R-blocking antibody/IL-10 fusion protein increases anti-tumor immunity by effectuating tumor-resident CD8⁺ T cells', Cell Reports Medicine, vol. 4, no. 8, 101154. https://doi.org/10.1016/j.xcrm.2023.101154

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abstract = "Strategies to increase intratumoral concentrations of an anticancer agent are desirable to optimize its therapeutic potential when said agent is efficacious primarily within a tumor but also have significant systemic side effects. Here, we generate a bifunctional protein by fusing interleukin-10 (IL-10) to a colony-stimulating factor-1 receptor (CSF-1R)-blocking antibody. The fusion protein demonstrates significant antitumor activity in multiple cancer models, especially head and neck cancer. Moreover, this bifunctional protein not only leads to the anticipated reduction in tumor-associated macrophages but also triggers proliferation, activation, and metabolic reprogramming of CD8+ T cells. Furthermore, it extends the clonotype diversity of tumor-infiltrated T cells and shifts the tumor microenvironment (TME) to an immune-active state. This study suggests an efficient strategy for designing immunotherapeutic agents by fusing a potent immunostimulatory molecule to an antibody targeting TME-enriched factors.",

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AU - Tsai, Chin Hsien

AU - Wu, Chun Yi

AU - Hsieh, Hsin Hua

AU - Carmona, Santiago J.

AU - Andreatta, Massimo

AU - Di Conza, Giusy

AU - Su, Mei Tzu

AU - Koni, Pandelakis A.

AU - Ho, Ping Chih

AU - Chen, Hung Kai

AU - Yang, Muh Hwa

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N2 - Strategies to increase intratumoral concentrations of an anticancer agent are desirable to optimize its therapeutic potential when said agent is efficacious primarily within a tumor but also have significant systemic side effects. Here, we generate a bifunctional protein by fusing interleukin-10 (IL-10) to a colony-stimulating factor-1 receptor (CSF-1R)-blocking antibody. The fusion protein demonstrates significant antitumor activity in multiple cancer models, especially head and neck cancer. Moreover, this bifunctional protein not only leads to the anticipated reduction in tumor-associated macrophages but also triggers proliferation, activation, and metabolic reprogramming of CD8+ T cells. Furthermore, it extends the clonotype diversity of tumor-infiltrated T cells and shifts the tumor microenvironment (TME) to an immune-active state. This study suggests an efficient strategy for designing immunotherapeutic agents by fusing a potent immunostimulatory molecule to an antibody targeting TME-enriched factors.

AB - Strategies to increase intratumoral concentrations of an anticancer agent are desirable to optimize its therapeutic potential when said agent is efficacious primarily within a tumor but also have significant systemic side effects. Here, we generate a bifunctional protein by fusing interleukin-10 (IL-10) to a colony-stimulating factor-1 receptor (CSF-1R)-blocking antibody. The fusion protein demonstrates significant antitumor activity in multiple cancer models, especially head and neck cancer. Moreover, this bifunctional protein not only leads to the anticipated reduction in tumor-associated macrophages but also triggers proliferation, activation, and metabolic reprogramming of CD8+ T cells. Furthermore, it extends the clonotype diversity of tumor-infiltrated T cells and shifts the tumor microenvironment (TME) to an immune-active state. This study suggests an efficient strategy for designing immunotherapeutic agents by fusing a potent immunostimulatory molecule to an antibody targeting TME-enriched factors.

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