Integrative analysis identifies the atypical repressor E2F8 as a targetable transcriptional activator driving lethal prostate cancer.

Acquired resistance to androgen receptor (AR)-targeted therapies underscores the need to identify alternative therapeutic targets for treating lethal prostate cancer. In this study, we evaluated the prognostic significance of 1635 human transcription factors (TFs) by analyzing castration-resistant prostate cancer (CRPC) datasets from the West and East Stand Up to Cancer (SU2C) cohorts. Through this screening approach, we identified E2F8, a putative transcriptional repressor, as a TF consistently associated with poorer patient outcomes in both cohorts. Notably, E2F8 is highly expressed and active in AR-negative CRPC compared to AR-positive CRPC. Integrative profiling of E2F8 cistromes and transcriptomes in AR-negative CRPC cells revealed that E2F8 directly and non-canonically activates target oncogenes involved in cancer-associated pathways. To target E2F8 in CRPC, we employed the CRISPR/CasRx system to knockdown E2F8 mRNA, resulting in effective and specific downregulation of E2F8 and its target oncogenes, as well as significant growth inhibition in AR-negative CRPC in both cultured cells and xenograft models. Our findings identify and characterize E2F8 as a targetable transcriptional activator driving CRPC, particularly the growth of AR-negative CRPC.

Duke Scholars

Author Qianben Wang Pathology