Defining splicing factor requirements for androgen receptor variant synthesis in advanced prostate cancer.

Resistance to androgen receptor (AR)-targeted therapies represent a major challenge in prostate cancer (PC). A key mechanism of treatment resistance in patients who progress to castrate-resistant PC (CRPC) is the generation of alternatively spliced androgen receptor variants (AR-Vs). Unlike full-length AR (FL-AR) isoforms, AR-Vs are constitutively active and refractory to current receptor-targeting agents hence drive tumour progression. Identifying regulators of AR-V synthesis may therefore provide new therapeutic opportunities in combination with conventional AR-targeting agents. Our understanding of AR transcript splicing, and the factors that control the synthesis of AR-Vs, remains limited. While candidate-based approaches have identified a small number of AR-V splicing regulators, an unbiased analysis of splicing factors important for AR-V generation is required to fill an important knowledge gap and furnish the field with novel and tractable targets for PC treatment. To that end, we conducted a bespoke CRISPR screen to profile splicing factor requirements for AR-V synthesis. MFAP1 and CWC22 were shown to be required for the generation of AR-V mRNA transcripts and their depletion resulted in reduced AR-V protein abundance and cell proliferation in several CRPC models. Global transcriptomic analysis of MFAP1-depleted cells revealed both AR-dependent and -independent transcriptional impact, including genes associated with DDR. As such, MFAP1 downregulation sensitised PC cells to ionising radiation suggesting therapeutically targeting AR-V splicing could provide novel cellular vulnerabilities which can be exploited in CRPC. Implications: We have utilised a CRISPR screening approach to identify key regulators of pathogenic AR splicing in prostate cancer.