Abstract

Abstract Antibodies directed to specific disease-related antigens have proven to be very successful therapeutics for a variety of disease indications. In spite of their high affinity and specificity for target antigen, target-mediated toxicity constitutes a major limitation for the development of antibodies to certain targets. We have addressed this type of on-target toxicity by developing a new class of targeting antibodies (Probody™ therapeutics) that remain in an inert, masked form until proteolytically activated at the site of disease. As a proof-of-concept for the construction of a Probody, we used cetuximab as a starting point. Cetuximab is an EGFR-targeted antibody approved for the treatment of colorectal and head-and-neck cancers that produces an on-target toxicity in the form of a skin rash that afflicts 88% of patients treated with the antibody. We engineered an EGFR Probody by incorporating an inhibitory masking peptide fused to the antibody light chain. Masking of the Probody is achieved through a linker that also incorporates a substrate that is cleaved by one or more proteases up-regulated in cancer. In vitro, EGFR binding and cell-based activities of the masked Probody were diminished compared to those of cetuximab, but treatment with exogenous target proteases activated the Probody and restored activity comparable to cetuximab. Using tumor xenograft models in mice, we demonstrated that the Probody remained masked in systemic circulation but was activated and accumulated in the tumor microenvironment. Tumor activation of the Probody translated to efficacy similar to that seen with cetuximab. Consistent with our results in mice, the Probody remained efficiently masked in non-human primates and did not cause skin toxicity such as that observed in animals treated with cetuximab. Together, these results demonstrate that antibody activity can be specifically targeted to diseased tissue by utilizing locally overexpressed proteases as activating agents, suggesting that a variety of antigens not previously amenable to an antibody therapeutic approach may be successfully addressed with Probodies. Citation Format: Luc R. Desnoyers, Annie Yang, Tony W. Liang, Stephen Moore, Jason Sagert, Daniel R. Hostetter, Elizabeth Menendez, Fei Han, Michael Krimm, Ken Wong, Jennifer Richardson, Jim W. West, Shouchun Liu, Olga Vasiljeva, Henry B. Lowman. Development of a proteolytically activatable EGFR Probody for cancer therapy. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 4570. doi:10.1158/1538-7445.AM2013-4570

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