HGG-03. TRUNCATING MUTATIONS IN PPM1D COOPERATE WITH PI3K ALTERATIONS TO DRIVE PEDIATRIC DIFFUSE MIDLINE GLIOMAS

Mutations in PPM1D – coding for the phosphatase WIP1 - are present in 8 -12% of all Diffuse Midline Glioma (DMG), H3 K27-altered – a universally fatal subtype of pediatric high-grade tumors. PPM1D mutations are mutually exclusive with TP53 mutations and mainly lead to a truncation of its C-terminal regulatory domain. Truncated PPM1D (PPM1Dtr) has increased protein stability and impairs the p53-dependent DNA Damage Response (DDR) by dephosphorylating its numerous targets (e.g p53, H2A.X, CHK1) which contributes to its oncogenicity. However, because wildtype p53 is present in PPM1Dtr tumors, its activation is suppressed but not completely ablated suggesting that PPM1D mutant tumors may evolve differently from p53 mutant ones. Our analysis of whole genome sequencing datasets indeed found that PPM1D mutations uniquely co-occur with alterations in the PI3K/mTOR pathway suggesting potential cooperativity in enhancing tumorigenesis. Using mouse neural stem cells (mNSCs) as an isogenic model system, we have engineered specific combinations of oncogenic alterations to study their impact on cell proliferation, PI3K/mTOR pathway activation and response to DNA damage and replication stress. We find that PPM1Dtr cooperates with PIK3CA alterations to increase proliferation and signaling through the PI3K/mTOR pathway. Notably, in an in utero electroporation model, mutant PIK3CA accelerates the development of high-grade tumors that infiltrate deep into the brainstem. Our study also indicates a vulnerability to inhibition of the PI3K/mTOR pathway in PPM1Dtr-PI3K co-altered tumors. Future work will aim at 1) exploring the mechanism of cooperation and impact on replicative stress response and 2) developing and testing a rational therapeutic strategy for PPM1D-mutant tumors.