Abstract
Abstract BACKGROUND SMARCB1 is a member of the SWI/SNF chromatin remodeling complex that is responsible for determining cellular pluripotency and lineage commitment. Atypical Teratoid Rhabdoid Tumor (ATRT) is a highly aggressive pediatric brain tumor and characterized by SMARCB1 deletion. METHODS Genome wide RNAi screen, RNA-seq and ChIP-Seq analysis, colony formation assay, cell cycle, western blotting, immunoprecipitation, mass spectrometry analysis, mouse xenograft model, IVIS and MRI imaging. RESULTS We performed an RNAi-based functional genomic screen to identify key epigenetic regulators that co-operate with SMARCB1 loss and contribute to tumorigenesis in ATRT. 406 genes associated with epigenetic regulation in patient-derived ATRT cell lines were targeted. This screen identified BMI1, a component of the Polycomb Repressive Complex 1 (PRC1), as one of the top targets essential for ATRT cell growth. Using RNA-seq and ChIP-Seq analysis we demonstrated that BMI1 co-operates with SMARCB1 deletion to suppress transcription of pro-differentiation pathways and promote self-renewal of tumor stem cells. In SMARCB1 deficient cells BMI1 forms a partial PRC1 complex devoid of DNA binding components. We found that genetic inactivation of BMI1 suppresses ATRT cell clonogenicity and neurosphere formation, leads to S-phase arrest and induces ATRT cell differentiation in vitro. In vivo BMI1 inhibition induces apoptosis, leading to significantly increasing survival of treated mice. By Doxycycline-inducible SMARCB1 re-expression system we revealed activation of proapoptotic proteins p16 and p21. With immunoprecipitation for BMI1, followed by mass spectrometry analysis we demonstrated that re-expression of SMARCB1 activates two PRC1 chromatin localizing components CBX4 and CBX8. Moreover, SMARCB1 re-expression significantly prolongs mice survival and decreases tumor size as evaluated by IVIS imaging system and T2-MRI. CONCLUSION Thus, we demonstrated that SMARCB1 deletion results in reprograming of BMI1 chromatin occupancy away from lineage specification by altering the components of the PRC1 complex and that PRC1/BMI1 inhibition is a novel therapeutic approach in ATRT.
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