Developing a molecular imaging agent for Met using onartuzumab (MetMAb).

Abstract

11083 Background: Developing an imaging agent to assess Met expression would aid in diagnosis and monitoring tumor response to Met-targeted therapies. Onartuzumab (MetMAb), a Met selective humanized one-armed monoclonal antibody, has been studied in Phase I-II clinical trials in which it was generally well tolerated and has shown the most benefit in patients with MET positive tumors. Methods: Studies to assess Met-binding were executed using the human gastric carcinoma cell line MKN-45 which exhibits a high level of Met expression. Murine PET studies and biodistribution assays were performed using MKN-45 xenografts. Results: Plasma shed Met concentration is directly related to total tumor burden (p < 0.001). The absence of a positive correlation between shed Met and %ID in blood indicates that binding of tracer to shed Met present in plasma is unlikely. There are positive correlations between tumor mass, Met abundance, and phosphoMet content and uptake of 89Zr-df-onartuzumab in MKN-45 mouse xenografts. Lastly, tumor mass, Met, pMet and 89Zr-df-onartuzumab uptake were all significantly decreased by drug treatment. Conclusions: MKN-45 tumor uptake of 89Zr-df-onartuzumab correlated significantly with tumor mass and Met abundance. Blood tracer uptake did not positively correlate with the presence of plasma shed Met. The amounts of Met, pMet, as well as 89Zr-df-onartuzumab image intensity correlated significantly with tumor size (all Spearman p values < 0.001).Tumor volumes and Met content were significantly decreased in TKI treated versus control mice, which correlated with imaging results.89Zr-df-onartuzumab has potential utility for imaging Met to identify patients for treatment with Met-targeted therapeutics and to identify the emergence of Met-driven acquired resistance to other molecularly targeted cancer therapies.