DIPG-45. TARGETING HYPERACETYLATION IN PEDIATRIC DIFFUSE MIDLINE GLIOMAS USING ONCOLYTIC ADENOVIRUSES

Abstract

Abstract BACKGROUND H3K27-altered pediatric diffuse midline glioma (DMG) is a highly aggressive type of brain tumor with a 5-year survival rate of less than 2%. Conventional treatments are restricted to palliative radiation therapy. Therefore, effective treatments are urgently needed. Results from a recent phase I clinical trial for Diffuse Intrinsic Pontine Glioma showed that intratumoral administration of Delta-24-RGD oncolytic adenovirus in combination with radiation improves survival without unwanted toxicity. Based on the rationale that, during infection, the early viral protein E1A binds P300, we hypothesize that combining oncolytic adenoviruses with p300 inhibitors will induce a robust modification of the post-translational landscape of DMGs and increase the anti-cancer effect of the oncolytic virus. METHODS Studies on Delta-24-RGD infectivity and replication were performed in a panel of clinically significant DMG cells. Modification of the acetylation levels of acid-extracted histones after Delta-24-RGD was analyzed using Western blot. Cell Titer Blue was utilized to measure cell viability, and ZIP-synergy scores were calculated using SynergyFinder. RESULTS We observed a time-dependent reduction in H3K27ac in human DMG cells following Delta-24-RGD infection with an 89% reduction in H3K27ac at 48h post-infection. Delta-24-RGD treatment of DMG cells resulted in optimum viral infectivity and replication. Combining Delta-24-RGD with the p300 inhibitor C646 resulted in enhanced cell death in vitro. Using a panel of oncolytic viruses that induce differential enzymatic and binding functions of P300, we showed that Delta-24-RGD mediated alteration of P300 activity is required for hypoacetylation in DMGs. We characterized the in vivo dynamics of K27M-H3.1 and K27M-H3.3 DMG-derived tumors in the brain stem of syngeneic animal models. In vivo experiments are in progress to examine the combinatorial anti-glioma effect of Delta-24-RGD and P300 inhibitors. CONCLUSION Collectively, our studies provide a strong mechanistic rationale for combining oncolytic adenoviruses and p300 inhibitors and should propel the eventual clinical testing of this approach in DMG patients.