The CHI3L1-neutrophil axis drives immune suppression and breast cancer metastatic dissemination
Tarek Taifour, Adéline Massé, Yu Gu, Virginie Sanguin-Gendreau, Dongmei Zuo, Bin Xiao, Emilie Solymoss, Yunyun Shen, Hailey Proud, Sherif Samer Attalla, Vasilios Papavasiliou, Nancy U. Lin, Melissa E. Hughes, Kalie Smith, Chun Geun Lee, Suchitra Kamle, Josie Ursini-Siegel, Jack A. Elias, Peter M. Siegel, Rinath Jeselsohn, William J. Muller
Tarek Taifour, Adéline Massé, Yu Gu, Virginie Sanguin-Gendreau, Dongmei Zuo, Bin Xiao, Emilie Solymoss, Yunyun Shen, Hailey Proud, Sherif Samer Attalla, Vasilios Papavasiliou, Nancy U. Lin, Melissa E. Hughes, Kalie Smith, Chun Geun Lee, Suchitra Kamle, Josie Ursini-Siegel, Jack A. Elias, Peter M. Siegel, Rinath Jeselsohn, William J. Muller
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Research Article Immunology Oncology

The CHI3L1-neutrophil axis drives immune suppression and breast cancer metastatic dissemination

Abstract

Immunosuppression and metastasis are critical hallmarks of breast cancer, often linked to poor patient outcomes. The secreted cytokine chitinase-3–like 1 (CHI3L1) is frequently overexpressed in breast cancer samples and promotes an immunosuppressed tumor microenvironment. Notably, CHI3L1 expression is elevated in metastatic patient samples when compared with the matched primary breast tumor. To investigate its role in breast cancer metastasis, we generated an inducible genetically engineered mouse model that overexpresses CHI3L1 in the mammary epithelium. Ectopic expression of CHI3L1 in the polyomavirus middle T (PyMT) mouse model of breast cancer suppressed antitumor immune responses, accelerated mammary tumor onset, and enhanced lung metastasis. Mechanistically, elevated CHI3L1 expression in the mammary epithelium enhanced neutrophil recruitment, which subsequently degraded the extracellular matrix and increased the number of circulating tumor cells. These findings reveal a key mechanism driving metastatic dissemination and argue that therapeutically targeting Chi3l1 could enhance antitumor immunity and suppress metastasis.

Authors

Tarek Taifour, Adéline Massé, Yu Gu, Virginie Sanguin-Gendreau, Dongmei Zuo, Bin Xiao, Emilie Solymoss, Yunyun Shen, Hailey Proud, Sherif Samer Attalla, Vasilios Papavasiliou, Nancy U. Lin, Melissa E. Hughes, Kalie Smith, Chun Geun Lee, Suchitra Kamle, Josie Ursini-Siegel, Jack A. Elias, Peter M. Siegel, Rinath Jeselsohn, William J. Muller

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Figure 7

CHI3L1 correlates with STAT3 and is enriched in metastatic patient tumors.

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CHI3L1 correlates with STAT3 and is enriched in metastatic patient tumor...
(A and B) Staining of human ER+ or HER2+ breast cancer samples for CHI3L1, p-STAT3, pan-CK, and DAPI. Micrograph represents areas of high CHI3L1 and low CHI3L1 from different patient samples. (C and D) Pearson’s correlation between levels of epithelial CHI3L1 and epithelial p-STAT3 in human ER+ (n = 89) and HER2+ (n = 85) breast cancer patient samples. (E) IHC staining of human primary breast tumor and matched metastatic samples, for CHI3L1, counterstained with hematoxylin. Side-by-side pictures are derived from the same patient. (F) Quantification of CHI3L1+ cells in patient-matched primary breast tumors (n = 10) and recurrent metastatic tumors (n = 10). (G) Summary of the proposed model for Chi3l1-mediated cancer cell dissemination. Cancer cells secrete Chi3l1 that recruits neutrophils, which degrade the ECM and enhance CTCs. Created in BioRender (Muller W, 2026, https://BioRender.com/kk5b3ud). *P < 0.05, paired Student’s t test. Scale bars: 100 μm.