Abstract The tyrosine kinase receptor MET is involved in progression of a variety of human cancers and constitutes a promising therapeutic target. Particularly, subsets of tumors originating from lung or gastric tissues appear to be truly MET dependent. MET dependency is driven by alterations, such as MET-gene amplification, MET-exon 14 deletion, kinase activating mutations, or autocrine HGF production. Furthermore, MET-amplification has been reported as a key mechanism of de novo resistance to EGFR targeting agents in lung and colorectal cancers. Sym015, a novel antibody mixture comprising two monoclonal antibodies targeting non-overlapping epitopes on the SEMA domain of MET, was shown to effectively inhibit cell growth in vitro through effective MET degradation. In the present study, we screened a large panel of highly annotated human cancer cell lines for sensitivity to Sym015 in order to identify potential markers of response. Sym015 effectively inhibited growth of cell lines with MET-amplification, MET-exon 14 deletion, and autocrine HGF production, including MET-amplified cell lines with acquired resistance to EGFR targeting agents. To validate the in vitro findings, a range of cell line- and patient-derived xenograft models with MET amplification or Exon 14 deletion were tested for sensitivity to Sym015 and an analogue of the clinical stage anti-MET monoclonal antibody emibetuzumab (LY2875358). Sym015 effectively inhibited growth of tumors with autocrine HGF production, MET-amplification, and/or Exon 14 deletion, and had superior activity compared to the emibetuzumab analogue in many of the models. Importantly, tumors with a partial response to the emibetuzumab analogue were strongly inhibited by subsequent treatment with Sym015 in two MET-amplified models, one of which also harbors a MET-exon 14 deletion. In summary, our findings demonstrate a potent antitumor effect of Sym015 in MET-dependent models. The data thus strongly support initiation of clinical trials for patients with MET-amplification and Exon 14 deletions. Citation Format: Thomas T. Poulsen, Michael M. Grandal, Helle J. Jacobsen, Dorte S. Hansen, Trine Lindsted, Mikkel W. Pedersen, Ivan D. Horak, Michael Kragh, Johan Lantto. Sym015, a novel antibody mixture targeting non-overlapping epitopes of MET, effectively inhibits growth of MET dependent tumors and overcomes resistance to a single monoclonal antibody. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 1219.