Myeloid-derived suppressor cells (MDSCs) depletion by cabozantinib improves the efficacy of anti-HER2 antibody-based immunotherapy in a 4T1-HER2 murine breast cancer model

Background

Clinical trials using Cabozantinib have shown promising results in metastatic breast cancer. This efficacy mainly results from removing and/or polarization of tumor-promoting myeloid cells. Nevertheless, whether such myeloid-derived suppressor cells (MDSCs) depletion can be used to improve the efficacy of anti-HER2 antibodies in early breast cancer has not been defined yet.

Methods

BALB/c mice were inoculated with 4T1 and 4T1-HER2 murine tumor cell lines, and after 7 days, the mice were divided into different groups. Cabozantinib was orally administrated for 15 consecutive days, and anti-HER2 monoclonal antibody (mAb) 1 T0 was intraperitoneally injected twice a week. Tumor size was measured every other day.

Results

Our findings indicated that Cabozantinib combined with anti-HER2 mAb dramatically reduced tumor growth and increased tumor rejection (p = 0.0001). Flow cytometry analysis showed MDSC population decreased in TME, lymph nodes, and spleens by roughly 20%, 0.8%, and 35%, respectively. Myeloid suppressive phenotype was altered through inhibition of the expression of immunosuppressive factor Arg-1. Cytokine profiling of different groups indicated that the level of INF-γ was approximately two times higher than that in the control group, and IL-17 increased compared to the control group. However, IL-4 level was significantly reduced in the groups treated with Cabozantinib. These could bring about a 10% increase in CD8+ infiltration into the tumor bed and activation of tumor-draining lymph nodes and splenic T-lymphocytes.

Conclusion

Collectively, our data provide pre-clinical evidence for using Cabozantinib to reshape the primary TME, which can enhance the effectiveness of anti-HER2 mAb immunotherapy in primary breast cancer.

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