PDTM-08. SINGLE-CELL GENOMICS REVEALS TUMOR-INITIATING PROGENITORS AND ONCOGENIC CASCADES DURING TUMORIGENESIS AND RELAPSE IN MEDULLOBLASTOMA

Abstract

Abstract Progenitor heterogeneity and identities underlying tumor initiation and relapse in medulloblastomas, the most common malignant pediatric brain tumor, remain elusive. Here, by utilizing single-cell analysis at different stages of tumorigenesis, we demonstrated a developmental hierarchy of diverse progenitor pools in sonic hedgehog (SHH)-medulloblastomas. Unexpectedly, we identified Olig2-expressing progenitors as transit-amplifying cells at the onset of tumorigenesis. Although Olig2+ cells become quiescent stem-like progenitors in full-blown tumors, they are highly enriched in therapy-resistant and recurrent medulloblastomas. High-level OLIG2 expression is associated with poor outcome in human SHH-medulloblastomas. Depletion of mitotic Olig2+ progenitors or Olig2-ablation impeded tumorigenesis. Transcriptome and chromatin-occupancy profiling revealed that Olig2 modulates the chromatin landscape and activates oncogenic networks including HIPPO-Yap/Taz and Aurora-A/MycN pathways. Co-targeting these oncogenic pathways induced tumor growth arrest. Together, our results raise the unanticipated possibility that glial lineage-associated Olig2-expressing progenitors are tumor-initiating cells during medulloblastoma tumorigenesis and relapse, suggesting Olig2-driven oncogenic networks as potential therapeutic targets.