NFS-09.NF1 MUTATION IN OLIGODENDROCYTE PRECURSOR CELLS LEADS TO PRENEOPLASTIC LESION FORMATION IN THE BRAIN

Oligodendrocyte precursor cells (OPCs) are progenitor cells that give rise to central nervous system oligodendrocytes throughout life. Transcriptomic and lineage tracing studies suggest that OPCs may be the putative cell of origin for many glioma histologic subtypes. While children with the neurofibromatosis type 1 (NF1) cancer predisposition syndrome are prone to low-grade gliomas following bi-allelic NF1 loss, the cellular and molecular etiologies underlying tumorigenesis remain incompletely elucidated. Using a unique collection of genetically engineered Nf1 mouse strains, we identified discrete hyperdense lesions composed of OPCs. The OPCs within the lesions display a transient increase in proliferation and hypercellularity (hyperplasia). This phenotype was not observed following heterozygous mutation in other tumor suppressors ( Trp53 , Pten , or Rb1 ). OPC-specific heterozygous Nf1 -mutant mice harbored similar lesions, suggesting an OPC-intrinsic phenotype. OPC-specific Nf1 loss resulted in increased OPC density throughout the entire brain, suggesting that the lesions in heterozygous Nf1 -mutant mice represent spontaneous OPC Nf1 loss-of-heterozygosity events. Mechanistically, monoallelic KRAS hyperactivation phenocopies OPC hyperdensities in the brain of Nf1 +/- mice; however, KRAS hyperactivity is not necessary for lesion formation or expansion. When the brains of mice engineered with heterozygous NF1 patient-derived Nf1 mutations were examined, the development of hyperdense OPC lesions reflected RAS-independent dysregulated PI3K-AKT signaling. Collectively, our study reveals a potential mechanism driving the development of preneoplastic lesions in the brains of individuals with NF1.