Combination immunotherapy with TLR agonists and checkpoint inhibitors suppresses head and neck cancer
Fumi Sato-Kaneko, Shiyin Yao, Alast Ahmadi, Shannon S. Zhang, Tadashi Hosoya, Megan M. Kaneda, Judith A. Varner, Minya Pu, Karen S. Messer, Cristiana Guiducci, Robert L. Coffman, Kazutaka Kitaura, Takaji Matsutani, Ryuji Suzuki, Dennis A. Carson, Tomoko Hayashi, Ezra E.W. Cohen
Fumi Sato-Kaneko, Shiyin Yao, Alast Ahmadi, Shannon S. Zhang, Tadashi Hosoya, Megan M. Kaneda, Judith A. Varner, Minya Pu, Karen S. Messer, Cristiana Guiducci, Robert L. Coffman, Kazutaka Kitaura, Takaji Matsutani, Ryuji Suzuki, Dennis A. Carson, Tomoko Hayashi, Ezra E.W. Cohen
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Research Article Immunology

Combination immunotherapy with TLR agonists and checkpoint inhibitors suppresses head and neck cancer

Abstract

Checkpoint inhibitors have demonstrated efficacy in patients with recurrent or metastatic head and neck squamous cell carcinoma (HNSCC). However, the majority of patients do not benefit from these agents. To improve the efficacy of checkpoint inhibitors, intratumoral (i.t.) injection with innate immune activators, TLR7 and TLR9 agonists, were tested along with programmed death-1 receptor (PD-1) blockade. The combination therapy suppressed tumor growth at the primary injected and distant sites in human papillomavirus–negative (HPV-negative) SCC7 and MOC1, and HPV-positive MEER syngeneic mouse models. Abscopal effects and suppression of secondary challenged tumor suggest that local treatment with TLR agonists in combination with anti–PD-1 provided systemic adaptive immunity. I.t. treatment with a TLR7 agonist increased the ratio of M1 to M2 tumor-associated macrophages (TAMs) and promoted the infiltration of tumor-specific IFNγ-producing CD8+ T cells. Anti–PD-1 treatment increased T cell receptor (TCR) clonality of CD8+ T cells in tumors and spleens of treated mice. Collectively, these experiments demonstrate that combination therapy with i.t. delivery of TLR agonists and PD-1 blockade activates TAMs and induces tumor-specific adaptive immune responses, leading to suppression of primary tumor growth and prevention of metastasis in HNSCC models.

Authors

Fumi Sato-Kaneko, Shiyin Yao, Alast Ahmadi, Shannon S. Zhang, Tadashi Hosoya, Megan M. Kaneda, Judith A. Varner, Minya Pu, Karen S. Messer, Cristiana Guiducci, Robert L. Coffman, Kazutaka Kitaura, Takaji Matsutani, Ryuji Suzuki, Dennis A. Carson, Tomoko Hayashi, Ezra E.W. Cohen

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Figure 2

I.t. treatment with 1V270 or SD-101 suppresses tumor growth of HPV-positive HNSCC.

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I.t. treatment with 1V270 or SD-101 suppresses tumor growth of HPV-posit...
(A) HPV-positive MEER cells (2 × 106) were implanted in both flanks of C57BL/6 mice. When the tumors reached 2–4 mm diameter, tumor-bearing mice (n = 10/group) were given i.t. 1V270 or SD-101 alone or in combination with anti–PD-1 antibody. (B–E) Tumor growth in mice treated with 1V270 or SD-101 is shown in separate figures using the same data of tumor growth in mice treated with vehicle and anti–PD-1 antibody as the following: (B) 1V270 injected site, (C) 1V270 uninjected site, (D) SD-101 injected site, and (E) SD-101 uninjected site. Combination therapy (magenta, closed circle) and SD-101 monotherapy (blue, open triangle) overlapped after day 22 in D. Data represent mean ± SEM. **P < 0.01, ***P < 0.001 (two-way repeated measures ANOVA with Bonferroni post hoc test). Data shown are representative of two independent experiments showing similar results.