Sustained inhibition of CSF1R signaling augments antitumor immunity through inhibiting tumor-associated macrophages
Takahiko Sato, Daisuke Sugiyama, Jun Koseki, Yasuhiro Kojima, Satomi Hattori, Kazuki Sone, Hitomi Nishinakamura, Tomohiro Ishikawa, Yuichi Ishikawa, Takuma Kato, Hitoshi Kiyoi, Hiroyoshi Nishikawa
Takahiko Sato, Daisuke Sugiyama, Jun Koseki, Yasuhiro Kojima, Satomi Hattori, Kazuki Sone, Hitomi Nishinakamura, Tomohiro Ishikawa, Yuichi Ishikawa, Takuma Kato, Hitoshi Kiyoi, Hiroyoshi Nishikawa
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Research Article Immunology

Sustained inhibition of CSF1R signaling augments antitumor immunity through inhibiting tumor-associated macrophages

Abstract

Tumor-associated macrophages (TAMs) are one of the key immunosuppressive components in the tumor microenvironment (TME) and contribute to tumor development, progression, and resistance to cancer immunotherapy. Several reagents targeting TAMs have been tested in preclinical and clinical studies, but they have had limited success. Here, we show that a unique reagent, FF-10101, exhibited a sustained inhibitory effect against colony-stimulating factor 1 receptor by forming a covalent bond and reduced immunosuppressive TAMs in the TME, which led to strong antitumor immunity. In preclinical animal models, FF-10101 treatment significantly reduced immunosuppressive TAMs and increased antitumor TAMs in the TME. In addition, tumor antigen-specific CD8+ T cells were increased; consequently, tumor growth was significantly inhibited. Moreover, combination treatment with an anti–programmed cell death 1 (anti–PD-1) antibody and FF-10101 exhibited a far stronger antitumor effect than either treatment alone. In human cancer specimens, FF-10101 treatment reduced programmed cell death 1 ligand 1 (PD-L1) expression on TAMs, as observed in animal models. Thus, FF-10101 acts as an immunomodulatory agent that can reduce immunosuppressive TAMs and augment tumor antigen-specific T cell responses, thereby generating an immunostimulatory TME. We propose that FF-10101 is a potential candidate for successful combination cancer immunotherapy with immune checkpoint inhibitors, such as PD-1/PD-L1 blockade.

Authors

Takahiko Sato, Daisuke Sugiyama, Jun Koseki, Yasuhiro Kojima, Satomi Hattori, Kazuki Sone, Hitomi Nishinakamura, Tomohiro Ishikawa, Yuichi Ishikawa, Takuma Kato, Hitoshi Kiyoi, Hiroyoshi Nishikawa

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Figure 8

FF-10101 treatment exhibits antitumor activity by targeting TAMs in mice and humans.

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FF-10101 treatment exhibits antitumor activity by targeting TAMs in mice...
(A) Experimental scheme. One million MCA205-SIINFEKL cells were inoculated into the mice on day 0. Some mice received FF-10101 treatment from day 6 and/or anti–PD-1 mAb treatment on days 6 and 9. (B) Tumor growth curves for control mice and mice that received FF-10101 treatment and/or anti–PD-1 mAb treatment (n = 12 per group). Comparisons between 2 groups were conducted by 2-way ANOVA with multiple t tests corrected with Bonferroni’s method. Adjusted P values: * < 0.05, **** < 0.0001. (C) Summaries of the frequency of tumor antigen-specific (SIINFEKL-tetramer+) CD8+ T cells in tumor tissues (left; n = 3 per group) and dLNs (right; n = 3 per group). (D) Summaries of the frequency of IFN-γ+TNF-α+CD8+ T cells in tumor tissues (left; n = 3 per group) and dLNs (right; n = 3 per group). The data are shown as the means ± SDs and were compared by unpaired t test. P values: * < 0.05. (E) Experimental scheme. The cells were extracted from primary tumor specimens and cultured with or without 10 nM FF-10101. (F) Reduction rates of the PD-L1+ TAMs (CD3CD11b+CD14+) in CD45+ cells (n = 9). Statistical analysis by paired t test; * P < 0.05. (G) Relative RNA expression of representative M1-related genes in TAMs was assessed by quantitative real-time PCR (n = 3).