Trastuzumab/pertuzumab combination therapy stimulates antitumor responses through complement-dependent cytotoxicity and phagocytosis
Li-Chung Tsao, Erika J. Crosby, Timothy N. Trotter, Junping Wei, Tao Wang, Xiao Yang, Amanda N. Summers, Gangjun Lei, Christopher A. Rabiola, Lewis A. Chodosh, William J. Muller, Herbert Kim Lyerly, Zachary C. Hartman
Li-Chung Tsao, Erika J. Crosby, Timothy N. Trotter, Junping Wei, Tao Wang, Xiao Yang, Amanda N. Summers, Gangjun Lei, Christopher A. Rabiola, Lewis A. Chodosh, William J. Muller, Herbert Kim Lyerly, Zachary C. Hartman
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Research Article Oncology Therapeutics

Trastuzumab/pertuzumab combination therapy stimulates antitumor responses through complement-dependent cytotoxicity and phagocytosis

Abstract

Two HER2-specific mAbs, trastuzumab and pertuzumab (T+P), combined with chemotherapy comprise standard-of-care treatment for advanced HER2+ breast cancers (BC). While this antibody combination is highly effective, its synergistic mechanism-of-action (MOA) remains incompletely understood. Past studies have suggested that the synergy underlying this combination occurs through the different mechanisms elicited by these antibodies, with pertuzumab suppressing HER2 heterodimerization and trastuzumab inducing antitumor immunity. However, in vivo evidence for this synergy is lacking. In this study, we found that the therapeutic efficacy elicited by their combination occurs through their joint ability to activate the classical complement pathway, resulting in both complement-dependent cytotoxicity and complement-dependent cellular phagocytosis of HER2+ tumors. We also demonstrate that tumor C1q expression is positively associated with survival outcome in HER2+ BC patients and that complement regulators CD55 and CD59 were inversely correlated with outcome, suggesting the clinical importance of complement activity. Accordingly, inhibition of C1q in mice abolished the synergistic therapeutic activity of T+P therapy, whereas knockdown of CD55 and CD59 expression enhanced T+P efficacy. In summary, our study identifies classical complement activation as a significant antitumor MOA for T+P therapy that may be functionally enhanced to potentially augment clinical therapeutic efficacy.

Authors

Li-Chung Tsao, Erika J. Crosby, Timothy N. Trotter, Junping Wei, Tao Wang, Xiao Yang, Amanda N. Summers, Gangjun Lei, Christopher A. Rabiola, Lewis A. Chodosh, William J. Muller, Herbert Kim Lyerly, Zachary C. Hartman

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Figure 4

T+P combination therapy mediates complement activation, tumor cell opsonization, and complement-dependent cytotoxicity in vivo.

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T+P combination therapy mediates complement activation, tumor cell opson...
Quantification of C3 and C5 depositions on HER2+ BC cells in vivo. KPL-4 cells were labeled with Vybrant DiD dye and implanted into SCID-beige mice. Once tumor volume reaches ~300 mm3, mice were treated with HER2 mAbs (200 μg each) or control IgG. The next day, tumors were harvested and surface stained for mouse C3 and C5, and quantified by FACS. C3+ staining was gated on live CD45DiD+ cells. C5+ staining was gated on dying CD45 cells. (A) Representative FACS quantification plot of C3 deposition on live KPL-4 tumor cells in vivo. (B) Representative FACS quantification plots of C5 staining on dying KPL-4 tumor cells in vivo. (C) Representative FACS quantification plots of dying KPL-4 tumor cells in vivo. (D) Summary of in vivo mouse C3 deposition on KPL-4 tumors. (E) Summary of in vivo mouse C5 deposition on KPL-4 tumors. (F) Summary of dying KPL-4 tumors cells frequency from above experiment. (DF) n = 7–8; 1-way ANOVA with Tukey’s multiple-comparison post hoc test. All data represent mean ± SEM; *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001.