Abstract 5204: Preclinical development of MVT-1075 as radioimmunotherapy for pancreatic cancer and other CA19-9 positive malignancies

Rationale: The CA19-9 antigen is frequently overexpressed in pancreatic and other GI tumors. MVT-5873 (HuMab-5B1), a fully human monoclonal antibody currently in phase I study, targets the sialyl Lewis A (sLea) epitope on CA19-9, and is a promising platform for development of a targeted radioimmunotherapy (RIT). MVT-5873 was conjugated with the chelator CHX-A″-DTPA and radiolabeled with the beta-emitting isotopes Lutetium -177 (177Lu) or Yttrium-90 (90Y) to form the RIT agents MVT-1075 (177Lu- CHX-A″-DTPA-HuMAb-5B1) and MVT-1916 (90Y- CHX-A″-DTPA-HuMAb-5B1), respectively. The antitumor efficacy of each of the constructs was studied in nude mice bearing BxPC3 human pancreatic tumor xenografts, known to express CA19-9. Methods: The initial dose-finding studies utilized doses of MVT-1075 of 75-450 μCi and MVT-1916 of 25-250 μCi, administered to groups of mice (n = 8) bearing subcutaneous (subQ) BxPC3 tumors (~ 150 mm3). Further studies focused on MVT-1075 and assessed antitumor effect in an orthotopic xenograft model, the effect of dose fractionation, and biodistribution in nontumor bearing (normal) and BxPC3 tumor-bearing mice. Results: A single dose of MVT-1075 at 75, 150, 300, or 450 μCi significantly inhibited subQ BxPC3 tumor growth at all dose levels, with sustained suppression with higher doses. MVT-1916 produced similar results. MVT-1075 was selected based on the favorable half-life of 177Lu (6.7 d) and its utility for clinical biodistribution assessments. In an orthotopic BxPC3 tumor model, treatment with a single dose of MVT-1075 at 300 μCi significantly inhibited tumor growth, with Day 20 tumor volume approximately 50% that of the initial starting volume. A third BxPC3 xenograft study evaluated fractionated dosing schedules, (150 μCi x 1, 75 μCi x 2, 50 μCi x3), with both single-dose and fractionated schedules effectively inhibiting subQ BxPC3 tumor growth. Biodistribution studies in normal mice showed an expected gradually decreasing activity in blood, heart, and lungs, with low uptake in normal pancreas. In subQ BxPC3 tumor-bearing mice, tumor uptake was rapid, reaching 69% ID/g by 24 h and 86% ID/g by 120 h. Otherwise, the biodistribution pattern paralleled that of normal mice, with relative %ID/g values within about ± 25% of normal mice across all time points comparing blood, heart, lungs, kidneys, and pancreas, with slightly higher uptake in liver and slightly lower uptake in spleen. Conclusions: MVT-1075 demonstrates promising antitumor activity in a human pancreatic cancer xenograft model, with efficacy shown in both single dose and fractionated schedules. Biodistribution shows rapid and substantial tumor uptake, with much lower uptake in normal organs. These findings support the phase I clinical trial of MVT-1075 in patients with CA19-9 positive pancreatic cancers planned to begin in early 2017. Citation Format: Jacob L. Houghton, Ryan Lanning, Dayla Abdel-atti, Toni Jun, Christine M. Kearns, Michael Schlosser, Wolfgang Scholz, Jason S. Lewis, Paul W. Maffuid. Preclinical development of MVT-1075 as radioimmunotherapy for pancreatic cancer and other CA19-9 positive malignancies [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 5204. doi:10.1158/1538-7445.AM2017-5204