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Although HER2-targeted therapies have dramatically improved outcomes for patients with HER2-positive breast cancer, the immunosuppressive tumor microenvironment remains a major barrier to effective immunotherapy in this subtype. Therefore, we sought to develop a new bispecific antibody targeting both HER2 and C-type lectin domain family 5 member A (CLEC5A), a pattern recognition receptor on innate immune cells like macrophages, aiming to alter the tumor immune environment.

CLEC5A-HER2 bispecific antibodies were generated and evaluated for binding properties, macrophage activation, and phagocytic activity in vitro. Anti-tumor efficacy was assessed in multiple syngeneic mouse models, including orthotopic breast cancer models, with mechanistic studies and immune checkpoint inhibitor combinations.

The CLEC5A-HER2 bispecific antibody was more effective in anti-tumor activity than either monotherapies or combinations of individual antibodies in various syngeneic models, including an orthotopic breast cancer model. Mechanistically, it converted "cold" tumors into "hot" tumors by promoting macrophage-mediated phagocytosis, repolarizing tumor-associated macrophages toward an M1-like phenotype, and enhancing antigen presentation and T-cell recruitment. This immune remodeling restored the CXCL9/10-CXCR3 axis, increased CD8+ T cell infiltration, reduced regulatory T cells, and underpinned a T cell-dependent anti-tumor response. Interestingly, combination therapy with CTLA-4 and PD-1 blockade exhibited strong synergistic effects without significant toxicity.

These results identify the CLEC5A-HER2 bispecific antibody as a potential immunotherapy for HER2-positive cancers by effectively engaging both innate and adaptive immunity.