Abstract 4190: A promising blood-brain-barrier penetrant MDM2-p53 antagonist, BI-MDM2, increases survival in orthotopic, glioblastoma patient-derived xenograft models

Abstract

Abstract Robust function of the p53 tumor suppressor pathway is critical when treating with DNA-damage inducing agents such as radiation therapy (RT), which is a key component of standard care for GBM. MDM2 is an important negative regulator of p53 stability and MDM2 is amplified in approximately 14% of GBM. Based on the concept that suppression of MDM2 can reactivate p53 function and potentially have single agent or combinatorial effects, multiple MDM2 inhibitors have been developed. Here we report in vitro and in vivo efficacy and pharmacodynamic (PD) effects of a BBB-penetrant MDM2-p53 antagonist, BI-MDM2, in GBM patient-derived xenograft (PDX) models. In vitro studies in p53 wild-type (WT) lines with or without MDM2 amplification demonstrate IC50 values in cell viability assays of 2-12 nM in serum-free culture and 5-35 nM in serum-containing culture after seven days of treatment. In vivo studies were performed in p53 WT lines: the MDM2-amplified GBM108, and the non-amplified GBM14, grown as orthotopic tumors in nude mice. Weekly oral treatment at 2 mg/kg of BI-MDM2 doubled median survival (placebo, 28 days (d) vs 2 mg/kg BI-MDM2, 57 d. p<0.0001) while weekly dosing at 10 mg/kg extended the median over 5 fold (176 d. p<0.0001) with half of the mice still living at 223 days post-inoculation. To assess the PD properties of this compound, mice bearing orthotopic GBM108 were treated three weeks after inoculation with a single dose of 2 or 10 mg/kg BI-MDM2. Normal brain, tumor, and plasma were collected at 24 and 48 hours (h) after dosing and downstream p53 transcriptional targets, p21 and PUMA were evaluated by qRT-PCR. p21 mRNA relative quantification detection at 24h increased by 1.5-10.5-fold in the 2 mg/kg group of animals compared to vehicle while the 10 mg/kg dose led to an increase by 2-25 fold compared to vehicle. PUMA was minimally affected by the 2 mg/kg dose but increased 1.2-17-fold over vehicle in the 10 mg/kg group at 24h. The observed increases in p21 and PUMA varied little between the 24 and 48h timepoints. In an orthotopic GBM14 PDX efficacy study, BI-MDM2 was combined with 20 Gy RT delivered in 10 fractions over 2 weeks with dosing limited to 2 weeks of therapy or until mice reached a moribund state. While two doses of 10 mg/kg BI-MDM2 alone had a modest effect on survival (41 d vs 31 d with placebo; p=0.002), continued dosing until moribund further extended median survival (82 d with BI-MDM2; p=0.001). The combination of two doses of BI-MDM2 with 2 weeks of RT extended survival as compared to RT alone (107 d vs. 69 d, respectively; p=0.019), while with extended drug dosing combined with 2 weeks of RT, median survival has not yet been reached (>125 d). Taken together, these results suggest that BI-MDM2 is a promising therapeutic agent that may provide significant anti-tumor efficacy either alone or in combination with RT in both MDM2 amplified and non-amplified p53 WT patients. Citation Format: Ann C. Mladek Tuma, Shiv Gupta, Surabhi Talele, Afroz Shareef Mohammad, Katrina K. Bakken, Helen He, Zeng Hu, Margaret A. Connors, Danielle M. Burgenske, Brett L. Carlson, William F. Elmquist, Ulrike Weyer-Czernilofsky, Jann N. Sarkaria. A promising blood-brain-barrier penetrant MDM2-p53 antagonist, BI-MDM2, increases survival in orthotopic, glioblastoma patient-derived xenograft models [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 4190.