ATRT-15. COMBINING THE PI3K INHIBITOR PAXALISIB WITH NUCLEOSIDE ANALOG GEMCITABINE TO IMPROVE SURVIVAL OF ATYPICAL TERATOID/RHABDOID TUMORS

Abstract

Abstract BACKGROUND Atypical teratoid/rhabdoid tumors (ATRT) have a dismal overall survival. Targeting the mTORC1/2 pathway kills ATRT tumor cells and increases the survival of mice bearing orthotopic xenografts. Paxalisib is a brain penetrant PI3K inhibitor that is in pediatric clinical trials for diffuse midline glioma. Paxalisib activates the integrated stress response (ISR) in ATRT. Consistent high-level activation of the ISR leads to cell death. We hypothesize paxalisib will synergize with the DNA-damaging agent gemcitabine, which also triggers the ISR, to over-activate this pathway and drive ATRT apoptosis. METHODS We analyzed ISR gene expression following mTOR inhibition via RNA-seq. Children’s Brain Tumor Network (CBTN) provided comparative data on ISR genes in ATRT and other pediatric brain tumors. Paxalisib/gemcitabine effects were evaluated through cell-based assays, western blot for ISR markers, and survival in three murine models. RESULTS ATRT have high baseline expression of ISR genes (CBTN: ATF4, eIF2α), and mTOR inhibition leads to activation of ISR genes (ATF4, CHOP, PPP1R15A, p<0.05). Paxalisib monotherapy significantly extends median survival in murine models compared to vehicle controls (CHLA-06: 40 to 54 days, p=0.001; BT-12: 21 to 35 days, p=0.05). Paxalisib/gemcitabine therapy synergized to slow cell growth and induce cell death (SynergyFinder BLISS score in five ATRT cell lines). Combination therapy leads to ISR activation (western blot: p-eIF2α, ATF4, CHOP). Combination slowed tumor growth (bioluminescent imaging) and led to significant extension of survival in orthotopic xenograft models (CHLA-06: 22 to 82.5 days; BT-37 56-day vehicle median survival while undefined combination survival). A third model is ongoing and showing similar results. CONCLUSIONS Paxalisib/gemcitabine therapy shows potential for targeting ATRT by over-activating the ISR. Our findings prompted the Pediatric Neuro-Oncology Consortium to consider this combination for inclusion in an upcoming clinical trial targeting relapsed/refractory ATRT, offering a novel approach to treat this aggressive tumor.