TY - JOUR
T1 - Directed-Complement Activation as a Novel Immunotherapeutic Approach for HER2-Breast Cancer
AU - Seguin-Devaux, Carole
AU - Brandus, Bianca
AU - Plesseria, Jean Marc
AU - Iserentant, Gilles
AU - Servais, Jean Yves
AU - Pitiot, Aubin
AU - Kanli, Georgia
AU - Behrmann, Iris
AU - Schober, Rafaëla
AU - Zimmer, Jacques
AU - Cohen, Jacques H.M.
AU - Dervillez, Xavier
N1 - Funding:
The study was supported by the “Fonds National de la Recherche” (POC17/12252709/COMIX and PRIDE17/11823097/MICROH-DTU for the funding of Bianca Brandus) and the Ministry of Higher Education and Research of Luxembourg
(LIH GBB 98000005)
© 2025 Seguin-Devaux et al.
PY - 2025/9/5
Y1 - 2025/9/5
N2 - PURPOSE: Directing selective complement activation towards tumor cells is an attractive strategy to promote their elimination. We have generated complement-activating multimeric immunotherapeutic complexes (CoMiX), stimulating either the alternative pathway (via Factor H Related protein 4 (FHR4)) or the classical pathway (via triple Fc dimers) on HER2-expressing tumor cells.METHODS: We used the C-terminal α-chain multimerizing scaffold of the C4 binding protein (C4bp) to generate CoMiX-FHR4 as well as CoMiX-Fc with 2 different anti-HER2 V
HH, V
HH(T) and V
HH(P), recognizing trastuzumab- or pertuzumab-competing epitopes, respectively. The different CoMiX were compared in vitro for C3b and C5b9 depositions, complement-dependent cytotoxicity (CDC), and their ability to activate NK cells and phagocytosis by macrophages. We further explored their therapeutic efficacy on human BT474 tumor xenografts established in nude mice.
RESULTS: CoMiX-FHR4/V
HH(T) and -FHR4/V
HH(P) lead to the highest C3b and C5b9 depositions and CDC on BT474 tumor cells (p<0.0001), both individually and in combinations with their CoMiX-Fc counterparts, surpassing the low complement activating capacity of trastuzumab and pertuzumab. All CoMiX induced BT474 cell death and phagocytosis of tumor cells by macrophages while CoMiX-Fc also stimulated NK cell activation. In human BT474 xenografts sensitive to trastuzumab, CoMiX induced a massive C3b deposition 6 hours after injection. CoMiX-FHR4 reduced the tumor volume compared to controls (p< 0.05) but to a lesser extent than trastuzumab (p< 0.001) while CoMiX-V
HH(P)/Fc led to a tumor volume reduction similar to pertuzumab. Combinations of two CoMiX-FHR4 or two CoMiX-Fc were more potent, similarly to the combination of trastuzumab and pertuzumab, leading to increased NK cell infiltration in xenografts. Importantly, CoMiX-FHR4 was still active against trastuzumab-resistant xenografts, delaying tumor growth and inducing a large NK cell infiltration.
CONCLUSION: We showed here that directed complement activation on tumor cells is an alternative to therapeutic antibodies for future combination therapies upon resistance to standard-of-care treatment.
AB - PURPOSE: Directing selective complement activation towards tumor cells is an attractive strategy to promote their elimination. We have generated complement-activating multimeric immunotherapeutic complexes (CoMiX), stimulating either the alternative pathway (via Factor H Related protein 4 (FHR4)) or the classical pathway (via triple Fc dimers) on HER2-expressing tumor cells.METHODS: We used the C-terminal α-chain multimerizing scaffold of the C4 binding protein (C4bp) to generate CoMiX-FHR4 as well as CoMiX-Fc with 2 different anti-HER2 V
HH, V
HH(T) and V
HH(P), recognizing trastuzumab- or pertuzumab-competing epitopes, respectively. The different CoMiX were compared in vitro for C3b and C5b9 depositions, complement-dependent cytotoxicity (CDC), and their ability to activate NK cells and phagocytosis by macrophages. We further explored their therapeutic efficacy on human BT474 tumor xenografts established in nude mice.
RESULTS: CoMiX-FHR4/V
HH(T) and -FHR4/V
HH(P) lead to the highest C3b and C5b9 depositions and CDC on BT474 tumor cells (p<0.0001), both individually and in combinations with their CoMiX-Fc counterparts, surpassing the low complement activating capacity of trastuzumab and pertuzumab. All CoMiX induced BT474 cell death and phagocytosis of tumor cells by macrophages while CoMiX-Fc also stimulated NK cell activation. In human BT474 xenografts sensitive to trastuzumab, CoMiX induced a massive C3b deposition 6 hours after injection. CoMiX-FHR4 reduced the tumor volume compared to controls (p< 0.05) but to a lesser extent than trastuzumab (p< 0.001) while CoMiX-V
HH(P)/Fc led to a tumor volume reduction similar to pertuzumab. Combinations of two CoMiX-FHR4 or two CoMiX-Fc were more potent, similarly to the combination of trastuzumab and pertuzumab, leading to increased NK cell infiltration in xenografts. Importantly, CoMiX-FHR4 was still active against trastuzumab-resistant xenografts, delaying tumor growth and inducing a large NK cell infiltration.
CONCLUSION: We showed here that directed complement activation on tumor cells is an alternative to therapeutic antibodies for future combination therapies upon resistance to standard-of-care treatment.
KW - NK cells
KW - complement-dependent cytotoxicity
KW - immunotherapy
KW - phagocytosis
KW - xenograft model
UR - https://www.scopus.com/pages/publications/105015176142
UR - https://pubmed.ncbi.nlm.nih.gov/40937368/
U2 - 10.2147/ITT.S517584
DO - 10.2147/ITT.S517584
M3 - Article
C2 - 40937368
AN - SCOPUS:105015176142
SN - 2253-1556
VL - 14
SP - 979
EP - 995
JO - ImmunoTargets and Therapy
JF - ImmunoTargets and Therapy
ER -