MODL-47. A NEW MOUSE MODEL OF IDH MUTATED GLIOMAS IDENTIFIES TUMOR CELLS OF ORIGIN AND DETERMINANTS OF SENSITIVITY TO IDH INHIBITORS

Abstract

Abstract Driver mutations in IDH1 and IDH2 characterize a substantial proportion of diffuse gliomas. These tumors are typically of lower grade at diagnosis, but many eventually transform to more aggressive disease. Furthermore, there is a lack of effective curative treatments. Mutated IDH molecules acquire neomorphic enzymatic activity, favoring the synthesis of D-2-hydroxyglutarate (D-2-HG). Accumulation of this metabolite perturbs many cellular functions and drives gliomagenesis through incompletely understood mechanisms. IDH mutations are early events in gliomagenesis, but the identity of the initiating cell type has been debated. Here, using genetically engineered mice, we found that combining Idh1R132H and Trp53 loss in oligodendrocyte progenitors leads to fully penetrant development of diffuse gliomas. The tumors recapitulate the cardinal features of the corresponding human disease. While heterogeneous, the mouse Idh1R132H and Idh1WT tumors show distinct patterns of transcriptional alterations and oncogenic copy number variants. Mutant IDH itself is an attractive drug target, as it is clonally expressed and usually retained during tumor evolution, even though its relevance for disease progression has been questioned. Nevertheless, recent clinical trials have demonstrated clear, but variable, anti-tumor effects of mutant IDH inhibitors in patients. To better understand the mechanistic basis for heterogeneous responses to mutant IDH inhibition, we performed CRISPR/Cas9 functional genomic screens in cell lines derived from the mouse Idh1R132H;Trp53MUT tumors. These revealed interactions between the mutant IDH inhibitor vorasidenib and molecules related to astrocytic differentiation, Notch signaling, and cell growth and metabolism. The translational relevance of these findings was supported by molecular data from human tumors, patients treated with IDH inhibitors, and human-derived cell models. Overall, these studies nominate oligodendrocyte progenitors as candidate cells of origin for IDH mutated gliomas, and point to strategies that may enhance the efficacy of IDH inhibitors.