DOI: 10.1093/neuonc/noag148 ISSN: 1522-8517

Tumor-Targeted pan-RAS Inhibition as a Novel Biologic Therapy for Diffuse Midline Glioma

Stefanie-Grace Sbergio, Huazhu Liang, Lucy Chen, Laura Canty, Sheyenne Carette, Sanja Pajovic, Nesrin Sabha, Arun Kumaran Anguraj Vadivel, Greg L Beilhartz, Roman A Melnyk, Cynthia Hawkins

Abstract

Background

Pediatric high-grade gliomas (pHGG) are the leading cause of childhood cancer–related deaths. Those arising in the midline harboring a lysine to methionine substitution at position 27 in histone 3 (H3K27M), termed diffuse midline glioma (or DIPG when occurring in the pons), are particularly deadly and in need of additional therapeutic options. Our group and others have found upregulation of the RAS/MAPK pathway across HGGs, including DIPG; however, RAS is notoriously difficult to target therapeutically, with no approved drugs that can target non-mutant RAS proteins.

Methods

We leveraged a pan-RAS–cleaving biologic (RRSP-DTB) to define RAS dependency in DIPG and employed proteomic profiling of patient-derived tumors to identify enriched cell-surface receptors for tumor-selective targeting. RRSP was re-engineered to engage the lead candidate receptor, tumor endothelial marker 8 (TEM8/ANTXR1), generating a targeted RAS-degrading biologic evaluated in vitro and in orthotopic DIPG xenograft models.

Results

Pan-RAS cleavage revealed DIPG to be critically dependent on RAS/MAPK signaling compared to other RAS/MAPK HGGs. Targeting RRSP to TEM8 enabled efficient intracellular delivery, resulting in complete RAS ablation and apoptotic cell death in patient-derived DIPG cells at low picomolar concentrations. In vivo, intracerebroventricular delivery reduced leptomeningeal disease burden (p = 0.04), while convection-enhanced delivery extended survival in orthotopic DIPG models (median survival 68 vs. 57 days; p = 0.016).

Conclusions

We demonstrate RAS-dependency in DIPG targetable by RRSP-DTT-TEM8, a novel, first-in-class pan-RAS biotherapeutic, supporting its potential as a therapeutic strategy for this otherwise untreatable disease.

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