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Engineered GM-CSF polarizes protumorigenic tumor-associated macrophages to an antitumorigenic phenotype and potently synergizes with IL-12 immunotherapy

Seounghun Kang, Aslan Mansurov, Trevin Kurtanich, Hye Rin Chun, Anna J. Slezak, Lisa R. Volpatti, Kevin Chang, Thomas Wang, Aaron T. Alpar, Kirsten C. Refvik, O. Hansen, Gustavo Borjas, B Berg, Ha-Na Shim, Kevin Hultgren, Suzana Gomes, Yue Wang, Ani Solanki, Jun Ishihara, Melody A. Swartz, Jeffrey A. Hubbell

2024Journal for ImmunoTherapy of Cancer20 citationsDOIOpen Access PDF

Abstract

BACKGROUND: The use of immune checkpoint inhibitors (CPIs) has become a dominant regimen in modern cancer therapy, however immune resistance induced by tumor-associated macrophages (TAMs) with immune suppressive and evasion properties limits responses. Therefore, the rational design of immune modulators that can control the immune suppressive properties of TAMs and polarize them, as well as dendritic cells (DCs), toward a more proinflammatory phenotype is a principal objective in cancer immunotherapy. METHODS: Here, using a protein engineering approach to enhance cytokine residence in the tumor microenvironment, we examined combined stimulation of the myeloid compartment via tumor stroma-binding granulocyte-macrophage colony-stimulating factor (GM-CSF) to enhance responses in both DCs and T cells via stroma-binding interleukin-12 (IL-12). We evaluated tumor responses at the levels of outcome, cellular responses, and cytokine responses in both the tumors and the tumor-draining lymph nodes. We further investigated the potentiation of DC response to IL-12 by GM-CSF stimulation ex vivo. RESULTS: T cell populations. Furthermore, engineered GM-CSF potentiated DC response to IL-12, upregulating DC expression of IL-12 receptor and enhancing their expression of proinflammatory cytokines and chemokines on IL-12 exposure. This resulted in remarkable synergistic efficacy in multiple solid tumor models treated with the dual cytokine combination. The combination therapy also improved the efficacy of CPI in a CPI-resistant genetically-engineered melanoma model and exhibited synergistic antitumor efficacy in a pulmonary metastasis model. CONCLUSION: Our strategy provides a rational design for combination immunotherapy targeting both myeloid and lymphoid compartments through complementary mechanisms.

Topics & Concepts

Tumor microenvironmentCancer researchImmunotherapyProinflammatory cytokineImmune systemCytokineImmunologyChemokineCancer immunotherapyDendritic cellMyeloidT cellMedicineCD8BiologyInflammationImmune cells in cancerCancer Research and TreatmentsCancer Immunotherapy and Biomarkers
Engineered GM-CSF polarizes protumorigenic tumor-associated macrophages to an antitumorigenic phenotype and potently synergizes with IL-12 immunotherapy | Litcius