Abstract
Abstract High grade gliomas are devastating diseases. In the pediatric population, diffuse midline gliomas with the H3K27M mutation (H3K27M DMG) are the most aggressive primary malignant brain tumors. With no effective therapies available, children typically succumb to disease within one year of diagnosis. In adults, glioblastoma (GBM) remains a death sentence despite standard clinical care. Therefore, effective therapies for these tumors remain one of the most urgent and unmet needs in modern medicine. Interleukin 13 receptor subunit alpha 2 (IL-13Rα2) is a cell-surface transmembrane protein upregulated in H3K27M DMG and GBM versus normal brain tissue, posing a potentially promising therapeutic target for both tumors. In this study, we investigated the pharmacological effects of a novel peptide-toxin conjugate, IL13.E13K-PE4E (also known as GB-13), that contains a targeting moiety designed to bind IL-13Rα2 with high specificity and a point-mutant cytotoxic domain derived from Pseudomonas exotoxin A. We demonstrated that IL13.E13K-PE4E was a potent killer of cultured H3K27M DMG and GBM cells in vitro. Intratumoral administration of IL13.E13K-PE4E via convection-enhanced delivery (CED) decreased tumor burden and prolonged survival in both H3K27M DMG and GBM murine xenograft models. Furthermore, we observed enhanced drug tissue retention and volume of distribution after CED, suggesting IL13.E13K-PE4E is capable of covering the target area and remaining at the site of infusion long enough to impart therapeutic effects. In summary, administration of IL13.E13K-PE4E demonstrated a potent pharmacological response in H3K27M DMG and GBM models both in vitro and in vivo in a manner strongly associated with IL13Rα2 expression, underscoring the potential of IL13Rα2 targeted therapy in a subset of these tumors.
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