Abstract 2669: Targeting the tumor vasculature with antibody drug conjugates

Clinical use of vascular targeting antibody drug conjugates (VT-ADCs) has not yet been explored. Herein, we preclinically demonstrate utility, mechanisms and advantages of VT-ADCs as targeted cancer therapeutics. A monoclonal human IgG 1 antibody selective for murine VEGFR2 (B3) is non-VEGF-A neutralizing and traffics to the lysosome. B3 was conjugated to a proprietary auristatin microtubule inhibitor with a non-cleavable maleimidocaproyl linker, resulting in the proof-of-concept VT-ADC, B3-mcMTI. In vitro, free-payload and anti-VEGFR2-mcMTI selectively inhibit proliferating endothelial cells (ECs) with pM and low nM IC 50 s - suggesting that even with a broadly expressed, low-level target, a VT-ADC should be potent and tumor specific. To test this in vivo, we treated three cell line xenografts (CLX, HT29, Ls174T, A498) and a colorectal carcinoma patient derived xenograft (CRC PDX) with B3-mcMTI at 3 mg/kg q4d, resulting in tumor stasis in four models. In the HT29 colon carcinoma CLX and the CRC PDX model, B3-mcMTI was superior to VEGF-neutralizing antibody G6-31 (anti-VEGF mAb). In standard-of-care (SOC) chemotherapy (irinotecan and 5-FU) combination studies in HT29, B3-mcMTI had improved anti-tumor activity over SOC alone, and, moreover, was as effective in inhibiting tumor growth as a single agent ADC as anti-VEGF mAb combined with SOC. In the 4T1 orthotopic anti-VEGF resistant breast carcinoma setting, B3-mcMTI outperformed anti-VEGF mAb, and when combined with SOC (paclitaxel) demonstrated improved activity over single agent without an increase in metastases. B3-mcMTI internalization in endothelial cells is VEGFR2-mediated, with antibody binding and active payload releasing in normal and tumor tissues at concentrations above the in vitro IC 50 s; however, payload activity as measured by quantitative image analysis of pharmacodynamic biomarkers such as phospho-Histone H3 and cleaved caspase 3 is overwhelmingly localized to tumor ECs. Targeted vessels are smooth muscle invested, suggesting that VT-ADCs may target vasculature that contributes to anti-VEGF resistance. In conclusion, VT-ADCs are effective both as single agents and when combined with SOC, and VT-ADCs may overcome resistance mechanisms to standard anti-angiogenics. Taken together, these data suggest that payloads selective for proliferating ECs enable ADC-mediated targeting of widely expressed EC surface proteins, supporting the clinical pursuit of VT-ADCs. Citation Format: Andrea T. Hooper, Chao-Pei Betty Chang, Kimberly Marquette, Jonathon Golas, Justin Lucas, Timothy Nichols, Judy Lucas, Gavriil Maria, Edward Rosfjord, Anton Xavier, Nathan Scott, Sadhana Jain, Wei Cao, Mauricio Leal, Andreas Maderna, Magali Guffroy, Xiang Zheng, Lioudmila Tchistiakova, Frank Loganzo, Hans-Peter Gerber, Chad May. Targeting the tumor vasculature with antibody drug conjugates. [abstract]. In: Proceedings of the 105th Annual Meeting of the American Association for Cancer Research; 2014 Apr 5-9; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2014;74(19 Suppl):Abstract nr 2669. doi:10.1158/1538-7445.AM2014-2669