Abstract

Abstract BACKGROUND DNA-dependent protein kinase (DNA-PK) is an attractive target in GBM because it promotes unwanted DNA repair and renders cancer cells less vulnerable to DNA damaging agents, such as radiotherapy (RT). Peposertib, a small molecule inhibitor of DNA-PK, has demonstrated pre-clinical efficacy in sensitizing GBM to RT, resulting in tumor regression. METHODS 21 patients with newly-diagnosed MGMT-unmethylated GBM received peposertib plus 6-weeks of RT to determine the maximum-tolerated dose (MTD) based on the Bayesian Optimal Interval design. The dose-limiting toxicity (DLT) period was 10-weeks. Patients received at least 6-cycles of adjuvant temozolomide (NCT04555577). Single-nuclei RNA-sequencing (snRNA-Seq) and spatial transcriptomics (Visium, 10x Genomics) were performed on matched pair primary-recurrent tumors and controls, incorporating tumor cell state and cell type definitions by automated cluster classification and differential expression of marker genes. RESULTS The MTD of peposertib in combination with RT was 300mg per RT fraction day. One DLT (G3 radiation necrosis @300mg) was observed. After a median follow-up of 15.4 months (interquartile-range 8.9-18.5), mPFS was 10.8 months (95%CI 8.33-NR) and mOS was 22.9 months (95%CI 16-NR). 6/21 (29%) patients have undergone re-resection to date. snRNA-Seq on 102,709 cells from 12 primary and 3 recurrent tumors revealed that pre-treatment tumor cell states were progenitor-like, while treatment with peposertib plus RT was associated with differentiated and inflammatory malignant cell states, along with macrophage infiltration. Spatial transcriptomics of 8 matched primary-recurrent tumors (20,793 transcriptomes) confirmed malignant cell differentiation and enrichment of pro-inflammatory macrophages after inhibition of DNA-PK. 5 patients will be enrolled into a window-of-opportunity expansion cohort to evaluate intratumoral drug concentration. CONCLUSION The combination of peposertib and intracranial RT was safe. Survival data for this MGMT-unmethylated GBM population was promising. Single nuclei and spatial transcriptomic analyses revealed enrichment of pro-inflammatory macrophages in the tumor microenvironmentafter DNA-PK inhibition. The study was supported by EMD-Serono (CrossRef Funder ID: 10.13039/100004755).

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