Polyclonal antibodies selectively inhibit tumor growth and invasion and synergize with immune checkpoint inhibitors
Carine Ciron, … , Firas Bassissi, Bernard Vanhove
Carine Ciron, … , Firas Bassissi, Bernard Vanhove
Published December 12, 2023
Citation Information: JCI Insight. 2024;9(3):e166231. https://doi.org/10.1172/jci.insight.166231.
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Research Article Oncology

Polyclonal antibodies selectively inhibit tumor growth and invasion and synergize with immune checkpoint inhibitors

Abstract

Heterologous polyclonal antibodies (pAb) were shown to possess oncolytic properties a century ago with reported clinical responses. More recent preclinical models confirmed pAb efficacy, though their ability to tackle complex target antigens reduces susceptibility to tumor escape. Owing to the recent availability of glyco-humanized pAb (GH-pAb) with acceptable clinical toxicology profile, we revisited use of pAb in oncology and highlighted their therapeutic potential against multiple cancer types. Murine antitumor pAb were generated after repeated immunization of rabbits with murine tumor cell lines from hepatocarcinoma, melanoma, and colorectal cancers. Antitumor pAb recognized and showed cytotoxicity against their targets without cross-reactivity with healthy tissues. In vivo, pAb are effective alone; moreover, these pAb synergize with immune checkpoint inhibitors like anti–PD-L1 in several cancer models. They elicited an antitumor host immune response and prevented metastases. The anticancer activity of pAb was also confirmed in xenografted NMRI nude mice using GH-pAb produced by repeated immunization of pigs with human tumor cell lines. In conclusion, the availability of bioengineered GH-pAb allows for revisiting of passive immunotherapy with oncolytic pAb to fight against solid tumor and cancer metastasis.

Authors

Carine Ciron, Pierre Morice, Juliette Rousse, Patrice Roy, Pierre-Joseph Royer, Olivier Gauthier, Sophie Brouard, Odile Duvaux, Firas Bassissi, Bernard Vanhove

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Figure 10

Efficacy of oncolytic GH-pAb in human xenograft tumors model.

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Efficacy of oncolytic GH-pAb in human xenograft tumors model. (A) Tumor ...
(A) Tumor growth evolution in a mouse model of human colon adenocarcinoma HCT116. Treatment began when tumor size reached 50 mm3 and occurred twice a week for 4 weeks. Two groups were included in this study: no treatment (control, n = 10); GH-pAb1 at 35 mg/kg (n = 10). **P < 0.01, ***P < 0.001; Student’s t test. (B) Tumor growth evolution in a mouse model of human melanoma SK-Mel-30. Treatment began when tumor size reached 50 mm3 and occurred twice a week for 4 weeks. Two groups were included in this study: no treatment (control, n = 10); GH-pAb3 at 35 mg/kg (n = 10). **P < 0.01; Student’s t test. (C) Tumor growth evolution in a mouse model of human hepatocellular carcinoma HEPG2. Treatment began when tumor size reached 50 mm3 and occurred twice a week for 4 weeks. Two groups were included in this study: no treatment (control, n = 10); GH-pAb2 at 35 mg/kg (n = 10). *P < 0.05; Student’s t test. (D) Tumor growth evolution in a mouse model of human NSCLC A549. Treatment with GH-pAb3 began when tumor size reached 50 mm3 and occurred twice a week for 4 weeks. Two groups were included in this study: no treatment (control, n = 10); GH-pAb3 at 35 mg/kg (n = 10). *P < 0.05, ***P < 0.001; Student’s t test.