LAUSR

Abstract BACKGROUND Diffuse intrinsic pontine gliomas (DIPGs) pose particular challenges for treatment. We recently completed a genomic analysis of close to 200 DIPGs and high-grade gliomas. We identified that nearly 10% of all DIPGs have increased expression of the fork head domain transcription factor FOXR2. We hypothesize that FOXR2 accelerates gliomagenesis in histone mutant DIPGs and represents a previously unexplored therapeutic target. METHODS To determine whether FOXR2 is sufficient to mediate gliomagenesis, we applied an integrative genomics approach using both in vitro and in vivo DIPG models: mouse neural stem cell models expressing FOXR2, in vivo mouse models using in utero brainstem electroporation, patient-derived DIPG cell lines, and RNA sequencing analysis of human and mouse tumors expressing FOXR2. RESULTS Our data shows that FOXR2 indeed is an oncogene that rapidly accelerates gliomagenesis using an in vivo brainstem in utero electroporation model of DIPG. In human tumors, increased FOXR2 expression is mutually exclusive with MYC amplification suggesting functional redundancy. In vivo, FOXR2 results in large brainstem gliomas and rapid neurologic decline of animals. Transcriptional profiling of these tumors demonstrates activation of MYC signaling pathways. In vitro, we have further identified patient-derived cell lines with increased expression of FOXR2. CONCLUSION FOXR2 is sufficient to enhance gliomagenesis and represents a previously understudied therapeutic target for patients with the devastating disease DIPG.