EXTH-57. EFFICACY OF SOLUBLE PANOBINOSTAT (MTX110) IN PRECLINICAL MODELS OF ADULT GLIOBLASTOMA

Abstract

Abstract INTRODUCTION One of the biggest challenges in treating glioblastoma is achieving effective local drug concentrations, and trials using systemic administration of therapeutics have failed in GBM despite compelling pre-clinical evidence. MTX110 (Midatech Pharma PLC) is a water-soluble form of panobinostat currently in clinical development for DIPG and medulloblastoma using direct tumor delivery. We have previously reported a significant positive benefit of MTX110 in a subcutaneous GBM mouse model in an IDH1 mutated cell line. Here we present follow on data on the potential for MTX110 synergy with radiation in pre-clinical in vivo models. We also present data on efficacy of MTX110 in a panel of GBM cell lines. METHODS In vitro: Cell lines were incubated with MTX110 for 72h over a range of concentrations (1nM-10µM). Each concentration was tested in triplicate with the appropriate blank controls included in each plate. After 72 hours, cell viability was measured via luminescence signal (Promega CellTiter-Glo Luminescent Cell Viability Assay kit (Promega-G7573) read via 2104 EnVision Multilabel Reader, PerkinElmer. In vivo: Tumor-bearing mice were stratified to either the vehicle control or treatment group based on median tumor volume and were treated with MTX110 at a dose of 15mg/kg IP, 5 days consecutively for 2 consecutive weeks, following radiation treatment at a dose of 4Gy delivered as a single fraction on day 1. RESULTS In vitro, MTX110 demonstrated cytotoxic activity in 4 GBM cell lines (U87MG, U251MG, U118MG and T98G) with an average IC50 value in the region of 40nM (17-43nM). In vivo MTX110 in combination with radiation treatment showed an enhanced delay in tumor growth of approximately 50% compared to MTX110 or radiation alone. The results are supportive of the planned exploratory trial in GBM with MTX110.