Cancer immunotherapy via synergistic coactivation of myeloid receptors CD40 and Dectin-1

Max M. Wattenberg; Heather Coho; Veronica M. Herrera; Kathleen Graham; Meredith L. Stone; Yuqing Xue; Renee B. Chang; Christopher Cassella; Mingen Liu; Shaanti Choi-Bos; Stacy K. Thomas; Hana Choi; Yan Li; Kelly Markowitz; Lauren Melendez; Michael Gianonne; Nandita Bose; Gregory L. Beatty

doi:10.1126/sciimmunol.adj5097

Cancer immunotherapy via synergistic coactivation of myeloid receptors CD40 and Dectin-1

Max M. Wattenberg, Heather Coho, Veronica M. Herrera, Kathleen Graham, Meredith L. Stone, Yuqing Xue, Renee B. Chang, Christopher Cassella, Mingen Liu, Shaanti Choi-Bos, Stacy K. Thomas, Hana Choi, Yan Li, Kelly Markowitz, Lauren Melendez, Michael Gianonne, Nandita Bose, Gregory L. Beatty

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14 Scopus citations

Abstract

Myeloid cells facilitate T cell immune evasion in cancer yet are pliable and have antitumor potential. Here, by cotargeting myeloid activation molecules, we leveraged the myeloid compartment as a therapeutic vulnerability in mouse models of pancreatic cancer. Myeloid cells in solid tumors expressed activation receptors including the pattern recognition receptor Dectin-1 and the TNF receptor superfamily member CD40. In mouse models of checkpoint inhibitor-resistant pancreatic cancer, coactivation of Dectin-1, via systemic β-glucan therapy, and CD40, with agonist antibody treatment, eradicated established tumors and induced immunological memory. Antitumor activity was dependent on cDC1s and T cells but did not require classical T cell-mediated cytotoxicity or blockade of checkpoint molecules. Rather, targeting CD40 drove T cell-mediated IFN-γ signaling, which converged with Dectin-1 activation to program distinct macrophage subsets to facilitate tumor responses. Thus, productive cancer immune surveillance in pancreatic tumors resistant to checkpoint inhibition can be invoked by coactivation of complementary myeloid signaling pathways.

Original language	English
Article number	eadj5097
Journal	Science immunology
Volume	8
Issue number	89
DOIs	https://doi.org/10.1126/sciimmunol.adj5097
State	Published - 2023

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Wattenberg, M. M., Coho, H., Herrera, V. M., Graham, K., Stone, M. L., Xue, Y., Chang, R. B., Cassella, C., Liu, M., Choi-Bos, S., Thomas, S. K., Choi, H., Li, Y., Markowitz, K., Melendez, L., Gianonne, M., Bose, N., & Beatty, G. L. (2023). Cancer immunotherapy via synergistic coactivation of myeloid receptors CD40 and Dectin-1. Science immunology, 8(89), Article eadj5097. https://doi.org/10.1126/sciimmunol.adj5097

@article{ed8ad558acf6480f8a05ff210601efa1,

title = "Cancer immunotherapy via synergistic coactivation of myeloid receptors CD40 and Dectin-1",

abstract = "Myeloid cells facilitate T cell immune evasion in cancer yet are pliable and have antitumor potential. Here, by cotargeting myeloid activation molecules, we leveraged the myeloid compartment as a therapeutic vulnerability in mouse models of pancreatic cancer. Myeloid cells in solid tumors expressed activation receptors including the pattern recognition receptor Dectin-1 and the TNF receptor superfamily member CD40. In mouse models of checkpoint inhibitor-resistant pancreatic cancer, coactivation of Dectin-1, via systemic β-glucan therapy, and CD40, with agonist antibody treatment, eradicated established tumors and induced immunological memory. Antitumor activity was dependent on cDC1s and T cells but did not require classical T cell-mediated cytotoxicity or blockade of checkpoint molecules. Rather, targeting CD40 drove T cell-mediated IFN-γ signaling, which converged with Dectin-1 activation to program distinct macrophage subsets to facilitate tumor responses. Thus, productive cancer immune surveillance in pancreatic tumors resistant to checkpoint inhibition can be invoked by coactivation of complementary myeloid signaling pathways.",

author = "Wattenberg, {Max M.} and Heather Coho and Herrera, {Veronica M.} and Kathleen Graham and Stone, {Meredith L.} and Yuqing Xue and Chang, {Renee B.} and Christopher Cassella and Mingen Liu and Shaanti Choi-Bos and Thomas, {Stacy K.} and Hana Choi and Yan Li and Kelly Markowitz and Lauren Melendez and Michael Gianonne and Nandita Bose and Beatty, {Gregory L.}",

year = "2023",

doi = "10.1126/sciimmunol.adj5097",

language = "English",

volume = "8",

journal = "Science immunology",

issn = "2470-9468",

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Wattenberg, MM, Coho, H, Herrera, VM, Graham, K, Stone, ML, Xue, Y, Chang, RB, Cassella, C, Liu, M, Choi-Bos, S, Thomas, SK, Choi, H, Li, Y, Markowitz, K, Melendez, L, Gianonne, M, Bose, N & Beatty, GL 2023, 'Cancer immunotherapy via synergistic coactivation of myeloid receptors CD40 and Dectin-1', Science immunology, vol. 8, no. 89, eadj5097. https://doi.org/10.1126/sciimmunol.adj5097

TY - JOUR

T1 - Cancer immunotherapy via synergistic coactivation of myeloid receptors CD40 and Dectin-1

AU - Wattenberg, Max M.

AU - Coho, Heather

AU - Herrera, Veronica M.

AU - Graham, Kathleen

AU - Stone, Meredith L.

AU - Xue, Yuqing

AU - Chang, Renee B.

AU - Cassella, Christopher

AU - Liu, Mingen

AU - Choi-Bos, Shaanti

AU - Thomas, Stacy K.

AU - Choi, Hana

AU - Li, Yan

AU - Markowitz, Kelly

AU - Melendez, Lauren

AU - Gianonne, Michael

AU - Bose, Nandita

AU - Beatty, Gregory L.

PY - 2023

Y1 - 2023

N2 - Myeloid cells facilitate T cell immune evasion in cancer yet are pliable and have antitumor potential. Here, by cotargeting myeloid activation molecules, we leveraged the myeloid compartment as a therapeutic vulnerability in mouse models of pancreatic cancer. Myeloid cells in solid tumors expressed activation receptors including the pattern recognition receptor Dectin-1 and the TNF receptor superfamily member CD40. In mouse models of checkpoint inhibitor-resistant pancreatic cancer, coactivation of Dectin-1, via systemic β-glucan therapy, and CD40, with agonist antibody treatment, eradicated established tumors and induced immunological memory. Antitumor activity was dependent on cDC1s and T cells but did not require classical T cell-mediated cytotoxicity or blockade of checkpoint molecules. Rather, targeting CD40 drove T cell-mediated IFN-γ signaling, which converged with Dectin-1 activation to program distinct macrophage subsets to facilitate tumor responses. Thus, productive cancer immune surveillance in pancreatic tumors resistant to checkpoint inhibition can be invoked by coactivation of complementary myeloid signaling pathways.

AB - Myeloid cells facilitate T cell immune evasion in cancer yet are pliable and have antitumor potential. Here, by cotargeting myeloid activation molecules, we leveraged the myeloid compartment as a therapeutic vulnerability in mouse models of pancreatic cancer. Myeloid cells in solid tumors expressed activation receptors including the pattern recognition receptor Dectin-1 and the TNF receptor superfamily member CD40. In mouse models of checkpoint inhibitor-resistant pancreatic cancer, coactivation of Dectin-1, via systemic β-glucan therapy, and CD40, with agonist antibody treatment, eradicated established tumors and induced immunological memory. Antitumor activity was dependent on cDC1s and T cells but did not require classical T cell-mediated cytotoxicity or blockade of checkpoint molecules. Rather, targeting CD40 drove T cell-mediated IFN-γ signaling, which converged with Dectin-1 activation to program distinct macrophage subsets to facilitate tumor responses. Thus, productive cancer immune surveillance in pancreatic tumors resistant to checkpoint inhibition can be invoked by coactivation of complementary myeloid signaling pathways.

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U2 - 10.1126/sciimmunol.adj5097

DO - 10.1126/sciimmunol.adj5097

M3 - Article

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AN - SCOPUS:85177457455

SN - 2470-9468

VL - 8

JO - Science immunology

JF - Science immunology

IS - 89

M1 - eadj5097

ER -

Cancer immunotherapy via synergistic coactivation of myeloid receptors CD40 and Dectin-1

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