DMG-16. Integrative proteogenomic analysis for improved therapeutic decision-making in diffuse midline glioma

Abstract Diffuse midline glioma (DMG) is a devastating pediatric brain tumor with a median overall survival (OS) of 11 months. Standard-of-care treatment is radiotherapy (RT), yet an increasing number of patients participate in precision medicine clinical trials. Unfortunately, DMG harbors very few druggable genomic targets. To improve therapeutic decision-making, we are performing proteogenomic analysis on 210 DMG and pediatric high-grade glioma (pHGG) tissues and cell-line samples, characterizing their genomic landscapes, proteomes and posttranslational modifications (acetylation, glycosylation, phosphorylation, cysteine oxidation). Preliminary genomic analysis of 23 DMG/pHGG samples identified driver alterations in histone H3, as well as in genes mapping to tumor suppression (TP53/PPM1D), PI3K/mTOR signaling (PIK3CA) and RTK signaling (EGFR/MET/PDGFRA). Preliminary proteomic profiling identified recurrently activated Leptin and BDNF-TrkB signaling across DMGs with potential therapeutic targets in pathways including ATM, ERK, MET, NOTCH and PI3K-Akt. Focusing on two H3.3K27M DMG cell-lines (SU-DIPG-XIII and UON-VIBE5) we identified a single, genomically-predicted, therapy for one sample; UON-VIBE5, which carries a PDGFRA-D842V activating mutation, potentially targetable using avapritinib. In addition, proteomic investigations identified increased ATM (WSD0628) and PI3K-Akt (paxalisib/GCT007) signaling, suggesting targetable vulnerabilities in both H3.3K27M DMG samples. Proliferation assays showed synergism between PDGFRA and PI3K inhibition. In vivo studies employing the RA055 patient-derived xenograft (PDX) DMG model (sharing H3.3K27M, TP53/PPM1D and PDGFRA alterations with UON-VIBE5), evaluated the preclinical utility of these therapies as a consolidation strategy post completion of RT. Avapritinib (30 mg/kg/day) and paxalisib (5 mg/kg/day) as monotherapies improved OS (57-days and 59-days, respectively, vs untreated, 51-days, P 0.01). Notably, avapritinib/paxalisib combination treatments provided additional improvement to OS (64.5-days, P 0.0001). Currently, PDX studies are testing a novel regimen combining RT/ATM inhibition (WSD0628) in the upfront setting, followed by avapritinib/paxalisib in consolidation. Ongoing work aims to harness this proteogenomic approach in our remaining samples, with the ultimate goal of revolutionizing treatment paradigms for patients with DMG.