DIPG-15. CONCURRENT GB-13 (IL13.E13K-PE4E) IMPROVES THE EFFICACY OF RADIATION THERAPY IN DIFFUSE INTRINSIC PONTINE GLIOMA

Diffuse midline glioma with H3 K27 alterations (DMG) is the most aggressive primary malignant brain tumor in the pediatric population. Radiation therapy (RT) is the standard-of-care; however, it has not demonstrated a significant improvement in overall survival or stalled disease progression, and children usually succumb to disease within 12-15 months of diagnosis. Consequently, finding efficient treatments for DMG remains one of the most critical unmet needs in modern neuro-oncology. Interleukin 13 receptor subunit alpha 2 (IL-13Rα2) is a cell-surface receptor upregulated in ~80% of DMG versus normal brain, posing a potentially promising therapeutic target. Immunotherapies harnessing IL-13Rα2 to selectively delivery cytotoxic payloads, such as pseudomonas exotoxin A (PE), to tumor cells have been previously demonstrated to be safe in DMG patients and efficacious in preclinical models of DMG with high IL-13Rα2 expression using convection-enhanced delivery (CED). Furthermore, there is evidence that PE-based therapies can sensitize cells to RT. In this study, we utilized in vitro and in vivo models of DMG to evaluate clinically-relevant combination treatments of RT and the IL-13/PE immunotoxin GB-13 (IL13.E13K-PE4E). GB-13 improved the effectiveness of low-dose RT in multiple DMG cell lines by promoting caspase activation, which boosted apoptotic cell death. Intratumoral administration of GB-13 via chronic CED decreased tumor burden and prolonged survival in both DMG patient-derived orthotopic xenograft and genetically engineered mouse models. When GB-13 and RT were administered concurrently, this impact became even more prominent, informing future preclinical and clinical investigation of a potentially efficacious therapeutic approach in a subset of DMG.