Abstract 4212: Molecular imaging of EGFR-expressing tumors with novel targeted protein scaffold, anti-EGFR repebody

Abstract

Abstract Repebody is a binding scaffold based on variable lymphocyte receptors which are nonimmunoglobulin antibodies composed of leucine-rich repeat modules in jawless vertebrates. Repebody can be developed against variety of epitopes by module engineering. In this study, EGFR-specific repebody (RBEGFR) was developed to visualize the status of receptor expression and to prevent ligand binding that may inhibit autophosphorylation and downstream intracellular signaling. We developed RBEGFR by phage display. H1650, HCC827, A549 (human non-small cell lung cancer) and HT29 (human colon cancer) were selected as EGFR expressing cell lines. MDA-MB-435 (human melanoma) and SW620 (human colon cancer) was selected as a negative control. Specific binding of RBEGFR to cells and cancer tissue was determined by immunofluorescence (IF) staining and/or FACS analysis. In vivo imaging was done by i.v. injection of FNR-675 labeled RBEGFR (30 μg/mouse) or 64Cu-NOTA- RBEGFR (7.4 MBq/mouse) in H1650, HCC827 and HT29-bearing mouse models using cooled CCD camera or microPET, respectively. Orthotopic colon cancer mice were generated by i.p. injection of Azoxymethane (AOM; 10 mg/kg) and oral administration of 2% dextran sulfate sodium (DSS). In vivo imaging was done by i.v. injection FNR-675 labeled RBEGFR (30 μg/mouse) in AOM/DSS mouse models using cooled CCD camera or fluorescence microendoscopy. In vitro and in vivo IF staining demonstrated that strong binding of RBEGFR to H1650, HCC827 and HT29, but not to MDA-MB-435 and SW620. In vivo near infrared (NIR) imaging demonstrated specific targeting of FNR-675-RBEGFR to grafted H1650, HCC827 and HT29 tumor in mice. The 64Cu-NOTA- RBEGFR was detected at the implanted tumor from 1 h (SUVmax: 1.34±0.12) after the injection, peaked at 6 h (1.75±0.18), maintained to 24 h (1.33±0.17). The radioactivity significantly decreased by blocking with cold form of 50 μM naïve RBEGFR 1 day before injection of 64Cu-NOTA- RBEGFR, indicating specific binding of RBEGFR to EGFR in vivo. Optical NIR imaging after i.v. injection of FNR-675-RBEGFR showed specific signal in the abdomen of AOM/DSS mice, but not in control mice. Correlation with surgical/necropsy imaging, fluorescence endoscopy and pathology revealed strong accumulation of FNR-675-RBEGFR in malignant dysplasia, but weak or no accumulation in low grade tumor or benign lesion. In conclusion, the RBEGFR could be developed for specific targeting of cancer overexpressing EGFR. The fluorescence-labeled RBEGFR could be developed for imaging agent for detecting colonic dysplasia and assessing EGFR status. In particular, this agent may have a potential as an imaging companion diagnostics to predict therapeutic outcome of targeted therapy with monoclonal antibody for EGFR through pre-therapeutic visualization of EGFR status. Our work provides a basis to develop potential strategy of targeted immune-detection of cancers which may replace monoclonal antibodies. Citation Format: Misun Yun, Dong-Yeon Kim, Hyeon-Sik Kim, Jin Hai Zheng, AYoung Pyo, Jung-Joon Min. Molecular imaging of EGFR-expressing tumors with novel targeted protein scaffold, anti-EGFR repebody. [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 4212.