ST2 as checkpoint target for colorectal cancer immunotherapy
Kevin Van der Jeught, … , Sophie Paczesny, Xiongbin Lu
Kevin Van der Jeught, … , Sophie Paczesny, Xiongbin Lu
Published May 7, 2020
Citation Information: JCI Insight. 2020;5(9):e136073. https://doi.org/10.1172/jci.insight.136073.
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Research Article Immunology Inflammation

ST2 as checkpoint target for colorectal cancer immunotherapy

Abstract

Immune checkpoint blockade immunotherapy delivers promising clinical results in colorectal cancer (CRC). However, only a fraction of cancer patients develop durable responses. The tumor microenvironment (TME) negatively impacts tumor immunity and subsequently clinical outcomes. Therefore, there is a need to identify other checkpoint targets associated with the TME. Early-onset factors secreted by stromal cells as well as tumor cells often help recruit immune cells to the TME, among which are alarmins such as IL-33. The only known receptor for IL-33 is stimulation 2 (ST2). Here we demonstrated that high ST2 expression is associated with poor survival and is correlated with low CD8+ T cell cytotoxicity in CRC patients. ST2 is particularly expressed in tumor-associated macrophages (TAMs). In preclinical models of CRC, we demonstrated that ST2-expressing TAMs (ST2+ TAMs) were recruited into the tumor via CXCR3 expression and exacerbated the immunosuppressive TME; and that combination of ST2 depletion using ST2-KO mice with anti–programmed death 1 treatment resulted in profound growth inhibition of CRC. Finally, using the IL-33trap fusion protein, we suppressed CRC tumor growth and decreased tumor-infiltrating ST2+ TAMs. Together, our findings suggest that ST2 could serve as a potential checkpoint target for CRC immunotherapy.

Authors

Kevin Van der Jeught, Yifan Sun, Yuanzhang Fang, Zhuolong Zhou, Hua Jiang, Tao Yu, Jinfeng Yang, Malgorzata M. Kamocka, Ka Man So, Yujing Li, Haniyeh Eyvani, George E. Sandusky, Michael Frieden, Harald Braun, Rudi Beyaert, Xiaoming He, Xinna Zhang, Chi Zhang, Sophie Paczesny, Xiongbin Lu

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Figure 3

Identification of ST2+ TAMs in preclinical mouse models.

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Identification of ST2+ TAMs in preclinical mouse models. (A) Total ST2+ ...
(A) Total ST2+ immune cells found within the CT26 TME (CD45+ population); and distribution of ST2+ percentages among the indicated cell types (n = 5; data displayed as mean + SEM). (B) Representative flow cytometry plots from A for determining ST2 expression in distinct immune cell subsets. (C) Infiltration of ST2+ TAMs in MC38 tumors at an early stage (day 24) and late stage of tumor growth (day 36). Tumor volume and quantification of ST2+ TAMs in MC38 tumors of mice sacrificed at the indicated time points (n = 5; data displayed as mean + SD). (D) Image of MC38 orthotopic cecal wall tumor. (E) Identification of ST2+ TAMs in the orthotopic cecal wall of MC38 injected tumor model. Representative confocal microscopy images. In the inset, white arrows indicate ST2 TAMs, and red arrows indicate ST2+ TAMs (n = 5). Scale bar: 50 μm, 15 μm (inset). Quantification of ST2+ TAM percentages in normal stroma, tumor stroma, and tumor (n = 3). **P < 0.01. Significance was determined by 2-tailed unpaired t test (C, right panel).