BAFF overexpression in triple-negative breast cancer promotes tumor growth by inducing IL-10-secreting regulatory B cells that suppress anti-tumor T cell responses.

Purpose: Despite BAFF's (B cell activating factor, BAFF) known influence on B cell survival and proliferation, its specific effects within the tumor microenvironment remain unclear. We aimed to elucidate how BAFF overexpression in breast cancer cells impacts tumor growth and the functions of T and B cells in the tumor microenvironment.

Methods: BAFF was overexpressed in the 4T1 mouse triple-negative breast cancer cell line, and tumor growth, immune cell infiltration, and activity were assessed in vitro and in vivo using flow cytometry, co-culture assays, and mouse tumor models with B cell depletion.

Results: BAFF overexpression in 4T1 cells promoted tumor growth in vivo, suppressed CD8⁺ T cell activity, and increased IL-10-secreting CD5⁺ regulatory B cells in tumors. 4T1/BAFF cells directly enhanced IL-10 production in CD5⁺ B cells via BAFF/BAFF-receptor interactions, and IL-10 from CD5⁺ B cells inhibited IFN-γ secretion by T cells. B cell depletion partially reversed the tumor-promoting effects of BAFF overexpression. Our study reveals a novel mechanism by which BAFF can foster tumor progression, with the induction of IL-10-secreting regulatory B cells that suppress anti-tumor T cell responses appearing to be a key component of BAFF's tumor-promoting activity.

Conclusion: These findings underscore the complex immunomodulatory effects that BAFF exerts in the tumor microenvironment and point to BAFF-induced regulatory B cells as a potential new therapeutic target in breast cancer that warrants further investigation.