Targetable BET proteins- and E2F1-dependent transcriptional program maintains the malignancy of glioblastoma
Menée sur des lignées cellulaires de glioblastome, cette étude montre que le programme transcriptionnel dépendant du facteur de transcription E2F1 et des protéines BET maintient le caractère agressif des cellules tumorales
Glioblastoma (GBM) cells develop intrinsic or acquired insensitiveness to BET bromodomain inhibitors (BBIs) yet develop persistent BET protein dependency. Selective degradation of BET proteins by a next-generation chemical compound undermines the BET protein dependency and exerts superior antineoplastic effects over inhibition of BET bromodomain. Given the significant difference between bromodomain dependency and BET protein dependency in GBM cells, chemically induced degradation of BET proteins serves as a promising strategy to overcome anticipated clinical BBIs resistance.Competitive BET bromodomain inhibitors (BBIs) targeting BET proteins (BRD2, BRD3, BRD4, and BRDT) show promising preclinical activities against brain cancers. However, the BET protein-dependent glioblastoma (GBM)-promoting transcriptional network remains elusive. Here, with mechanistic exploration of a next-generation chemical degrader of BET proteins (dBET6), we reveal a profound and consistent impact of BET proteins on E2F1- dependent transcriptional program in both differentiated GBM cells and brain tumor-initiating cells. dBET6 treatment drastically reduces BET protein genomic occupancy, RNA-Pol2 activity, and permissive chromatin marks. Subsequently, dBET6 represses the proliferation, self-renewal, and tumorigenic ability of GBM cells. Moreover, dBET6-induced degradation of BET proteins exerts superior antiproliferation effects compared to conventional BBIs and overcomes both intrinsic and acquired resistance to BBIs in GBM cells. Our study reveals crucial functions of BET proteins and provides the rationale and therapeutic merits of targeted degradation of BET proteins in GBM.