Abstract

Abstract Non-small cell lung cancers (NSCLCs) with activating mutations in the Epidermal Growth Factor Receptor (EGFR) gene are associated with high response rates (70-80%) to EGFR tyrosine kinase inhibitors (TKIs), such as erlotinib and gefitinib, but most acquire resistance over time through numerous mechanisms. In these patients, the cMet pathway is often activated to compensate and provide resistance to the EGFR targeted monotherapy; this activation can occur by MET gene amplification, overexpression of cMet protein, or an increase in the ligand HGF. We have designed a bispecific EGFR-cMet antibody (JNJ-61186372) with multiple mechanisms of action resulting in anti-tumor activity in the EGFR mutant setting, with or without cMet pathway activation. Controlled Fab-arm exchange was used to produce JNJ-61186372, a technique that allows for efficient large-scale preparation of bispecific antibodies with a regular IgG1 structure. JNJ-61186372 was shown to bind EGFR and cMet and efficiently inhibited ligand-induced phosphorylation of both receptors. In addition to this important mechanism of action, we have engineered the antibody to contain lower than normal fucose levels to increase Fc-dependent effector mechanisms. JNJ-61186372 exhibited antibody dependent cellular cytotoxicity (ADCC) activity in vitro in a range of NSCLC cell lines with EGFR mutations, KRas mutation, and/or amplified MET gene. Furthermore, the low fucose form of JNJ-61186372 demonstrated more effective ADCC activity compared to its normal fucose counterpart. The bispecific JNJ-61186372 antibody showed increased potency (2-3 fold) compared to the combination of monovalent EGFR and monovalent cMet antibodies, demonstrating the beneficial effects of dual targeting in a single molecule. Antibody dependent cell-mediated phagocytosis (ADCP) activity of JNJ-61186372 was also confirmed in vitro. We have also demonstrated that Fc-dependent effector functions contributed to in vivo anti-tumor growth activity of JNJ-61186372, in a xenograft model with EGFR mutations and cMet activation. Our data demonstrate that the bispecific antibody JNJ-61186372, generated using controlled Fab-arm exchange, has in vitro ADCC and ADCP activity in EGFR mutant settings, either with or without cMet pathway activation, and with KRas mutation. In addition, the Fc-dependent effector mechanisms contributed to in vivo anti-tumor efficacy. The dual signaling inhibition of EGFR and cMet pathways by JNJ-61186372, combined with enhanced Fc effector function, may provide multiple mechanisms to combat resistance in EGFR mutant NSCLC patients. Citation Format: Keri L. Soring, Katharine D. Grugan, Randall J. Breszki, Jose Pardinas, Leopoldo Luistro, Barbara Bushey, Joost Neijssen, Paul Parren, Janine Schuurman, Mark Anderson, Ricardo Attar, Matthew V. Lorenzi, Mark Chiu, Sheri Moores. Activity of a bispecific antibody targeting EGFR and cMet with enhanced Fc effector function in EGFR mutant setting with cMet pathway activation. [abstract]. In: Proceedings of the AACR Special Conference: Tumor Immunology and Immunotherapy: A New Chapter; December 1-4, 2014; Orlando, FL. Philadelphia (PA): AACR; Cancer Immunol Res 2015;3(10 Suppl):Abstract nr A11.

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