OLIG2 Is a Determinant for the Relapse of MYC-Amplified Medulloblastoma

Abstract

Abstract Purpose: Patients with MYC-amplified medulloblastoma (MB) have poor prognosis and frequently develop recurrence, thus new therapeutic approaches to prevent recurrence are needed. Experimental Design: We evaluated OLIG2 expression in a panel of mouse Myc-driven MB tumors, patient MB samples, and patient-derived xenograft (PDX) tumors and analyzed radiation sensitivity in OLIG2–high and OLIG2–low tumors in PDX lines. We assessed the effect of inhibition of OLIG2 by OLIG2-CRISPR or the small molecule inhibitor CT-179 combined with radiotherapy on tumor progression in PDX models. Results: We found that MYC-associated MB can be stratified into OLIG2–high and OLIG2–low tumors based on OLIG2 protein expression. In MYC-amplified MB PDX models, OLIG2–low tumors were sensitive to radiation and rarely relapsed, whereas OLIG2–high tumors were resistant to radiation and consistently developed recurrence. In OLIG2–high tumors, irradiation eliminated the bulk of tumor cells; however, a small number of tumor cells comprising OLIG2– tumor cells and rare OLIG2+ tumor cells remained in the cerebellar tumor bed when examined immediately post-irradiation. All animals harboring residual-resistant tumor cells developed relapse. The relapsed tumors mirrored the cellular composition of the primary tumors with enriched OLIG2 expression. Further studies demonstrated that OLIG2 was essential for recurrence, as OLIG2 disruption with CRISPR-mediated deletion or with the small molecule inhibitor CT-179 prevented recurrence from the residual radioresistant tumor cells. Conclusions: Our studies reveal that OLIG2 is a biomarker and an effective therapeutic target in a high-risk subset of MYC-amplified MB, and OLIG2 inhibitor combined with radiotherapy represents a novel effective approach for treating this devastating disease.