Michael Kragh

Quantitative estimates of angiogenic and anti-angiogenic activity by laser Doppler flowmetry (LDF) and near infra-red spectroscopy (NIRS)

The use of laser Doppler flowmetry (LDF) and near-infra-red spectroscopy (NIRS) for non-invasive in vivo measurements of angiogenic and anti-angiogenic activity in nude mice was evaluated. Angiogenic foci were induced in the skin by implantation of slow release pellets containing 200 ng basic fibroblast growth factor (bFGF). LDF and NIRS recordings from induced foci were significantly higher than placebo implants (P<0.05) and controls (P<0.001), proving that LDF and NIRS provide measures of angiogenic activity. Correspondingly, by these methods, an anti-angiogenic activity was significantly demonstrated in bFGF-stimulated animals treated with either the specific anti-angiogenic compound TNP-470 (P<0.05) or the anti-inflammatory agent dexamethasone (P<0.001). We conclude that LDF and NIRS, alone or in combination, are useful non-invasive tools for early evaluation of angiogenic and anti-angiogenic activity in vivo.

Abstract 1219: 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

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.