Abstract
BACKGROUND: BET-bromodomain proteins bind to H3K27ac enhancers and recruit transcriptional proteins to facilitate the expression of genes. Inhibition of BET-bromodomain proteins shows preclinical promise for MYC-driven tumors such as medulloblastoma (MB), however the mechanism of action and means of resistance are not well described. We hypothesized that genes required for MB cell growth and were sufficient to rescue the effects of BET-bromodomain inhibition (BETi) would signify key downstream effectors of this class of inhibitors. METHODS: We applied an integrative genomics approach: expression profiling of genes suppressed following BETi with JQ1, genome-scale CRISPR/Cas9 screens to determine which of the suppressed genes are also essential for cell viability, and a near-genome scale open reading frame (ORF) rescue screen to determine which of the suppressed genes are also sufficient to drive resistance to BETi. Genes that were nominated by all three data sets were considered BETi transcriptional targets responsible for BET-induced reduced cell viability. RESULTS: BETi in MYC-driven MB cell lines generated widespread changes in gene expression. Genes suppressed by BETi had the tendency to be essential to cell survival. The most frequently included pathways were cell-cycle, DNA replication, and RNA processing/transcription. In each cell line, we identified ORF constructs that significantly rescued cells from BETi which included BCL2 family proteins, which also represented genetic dependencies in treatment naïve cell. Overexpression of BCL2 family member BCL2L1 attenuated both apoptosis and JQ1 mediated cell cycle arrest and expression of the pro-apoptotic genes BAX and BAK were required for BETi response. BCL2 family genes were also validated in drug-tolerant cell lines as having been suppressed by BETi and re-expressed in drug-tolerant cells thus demonstrating their relevance in resistance. CONCLUSION: Integrative genomic analysis identifies BCL2 family members as key mediators of response of MB cells to BET-bromodomain inhibition and also mediate resistance to BETi.