Breast cancer–derived GM-CSF regulates arginase 1 in myeloid cells to promote an immunosuppressive microenvironment
Xinming Su, Yalin Xu, Gregory C. Fox, Jingyu Xiang, Kristin A. Kwakwa, Jennifer L. Davis, Jad I. Belle, Wen-Chih Lee, Wing H. Wong, Francesca Fontana, Leonel F. Hernandez-Aya, Takayuki Kobayashi, Helen M. Tomasson, Junyi Su, Suzanne J. Bakewell, Sheila A. Stewart, Christopher Egbulefu, Partha Karmakar, Melisa A. Meyer, Deborah J. Veis, David G. DeNardo, Gregory M. Lanza, Samuel Achilefu, Katherine N. Weilbaecher
Xinming Su, Yalin Xu, Gregory C. Fox, Jingyu Xiang, Kristin A. Kwakwa, Jennifer L. Davis, Jad I. Belle, Wen-Chih Lee, Wing H. Wong, Francesca Fontana, Leonel F. Hernandez-Aya, Takayuki Kobayashi, Helen M. Tomasson, Junyi Su, Suzanne J. Bakewell, Sheila A. Stewart, Christopher Egbulefu, Partha Karmakar, Melisa A. Meyer, Deborah J. Veis, David G. DeNardo, Gregory M. Lanza, Samuel Achilefu, Katherine N. Weilbaecher
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Research Article Immunology Oncology

Breast cancer–derived GM-CSF regulates arginase 1 in myeloid cells to promote an immunosuppressive microenvironment

Abstract

Tumor-infiltrating myeloid cells contribute to the development of the immunosuppressive tumor microenvironment. Myeloid cell expression of arginase 1 (ARG1) promotes a protumor phenotype by inhibiting T cell function and depleting extracellular l-arginine, but the mechanism underlying this expression, especially in breast cancer, is poorly understood. In breast cancer clinical samples and in our mouse models, we identified tumor-derived GM-CSF as the primary regulator of myeloid cell ARG1 expression and local immune suppression through a gene-KO screen of breast tumor cell–produced factors. The induction of myeloid cell ARG1 required GM-CSF and a low pH environment. GM-CSF signaling through STAT3 and p38 MAPK and acid signaling through cAMP were required to activate myeloid cell ARG1 expression in a STAT6-independent manner. Importantly, breast tumor cell–derived GM-CSF promoted tumor progression by inhibiting host antitumor immunity, driving a significant accumulation of ARG1-expressing myeloid cells compared with lung and melanoma tumors with minimal GM-CSF expression. Blockade of tumoral GM-CSF enhanced the efficacy of tumor-specific adoptive T cell therapy and immune checkpoint blockade. Taken together, we show that breast tumor cell–derived GM-CSF contributes to the development of the immunosuppressive breast cancer microenvironment by regulating myeloid cell ARG1 expression and can be targeted to enhance breast cancer immunotherapy.

Authors

Xinming Su, Yalin Xu, Gregory C. Fox, Jingyu Xiang, Kristin A. Kwakwa, Jennifer L. Davis, Jad I. Belle, Wen-Chih Lee, Wing H. Wong, Francesca Fontana, Leonel F. Hernandez-Aya, Takayuki Kobayashi, Helen M. Tomasson, Junyi Su, Suzanne J. Bakewell, Sheila A. Stewart, Christopher Egbulefu, Partha Karmakar, Melisa A. Meyer, Deborah J. Veis, David G. DeNardo, Gregory M. Lanza, Samuel Achilefu, Katherine N. Weilbaecher

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Figure 1

Immunosuppressive ARG1-expressing myeloid cells accumulate in the breast TME.

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Immunosuppressive ARG1-expressing myeloid cells accumulate in the breast...
(A) PyMT-BO1 breast tumor cells (1 × 105) were injected into the MFP tissue of C57BL/6J female mice, and tumor growth was measured by digital calipers. (B) Single-cell suspensions from whole-tumor tissue were analyzed by FACS on days 6, 10, and 15 of tumor growth. The TIM and T cell populations are shown. TAM markers are CD45+, CD11b+, Ly6C, Ly6G, and F4/80+. M1 TAMs are MHC-II+, and M2 TAMs are CD206+. (C) Weights of PyMT-BO1 orthotopic tumors from YARG mice. (D) Percentage of ARG1-expressing myeloid cells in CD45+CD11b+ TIMs. (E) Percentage of TIM subpopulations in total CD45+CD11b+ myeloid cells from day-10 tumors. The ARG1 cells (white) and ARG1+ cells (blue) are labeled for each subpopulation. (F) ARG1-expressing myeloid cells in CCR2hi and CCR2loCD45+CD11b+ myeloid cells. FSC-W, forward scatter width. (G) ARG1-expressing CD45+CD11b+ myeloid cells in PyMT-BO1 breast cancer MFP tumor tissue, B16F10 melanoma, and LLC lung cancer subcutaneous tumor tissue. (H) Immunofluorescence staining of paraffin-embedded BO1 MFP tissue. Scale bars: 1 mm (whole-tumor tissue); 25 μm (enlarged images).