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Abstract
Resistance to androgen receptor (AR)-targeted therapies in prostate cancer (PC) is a major clinical problem. A key mechanism of treatment resistance in advanced PC is the generation of alternatively spliced forms of the AR termed AR variants (AR-Vs) that are refractory to targeted agents and drive tumour progression. Our understanding of how AR-Vs function is limited due to difficulties in distinguishing their discriminate activities from full-length AR (FL-AR). Here we report the development of a novel CRISPR-derived cell line which is a derivative of CWR22Rv1 cells, called CWR22Rv1-AR-EK, that has lost expression of FL-AR, but retains all endogenous AR-Vs. From this, we show that AR-Vs act unhindered by loss of FL-AR to drive cell growth and expression of androgenic genes. Global transcriptomics demonstrate that AR-Vs drive expression of a cohort of DNA damage response genes and depletion of AR-Vs sensitises cells to ionising radiation. Moreover, we demonstrate that AR-Vs interact with PARP1 and PARP2 and are dependent upon their catalytic function for transcriptional activation. Importantly, PARP blockade compromises expression of AR-V-target genes and reduces growth of CRPC cell lines suggesting a synthetic lethality relationship between AR-Vs and PARP, advocating the use of PARP inhibitors in AR-V positive PC.
Highlights
BARD1; DNA2; BRIP1; BRCA1; BLM; EXO1; BRCA2; RFC3; RAD51B; RAD51AP1; RMI1; RAD51; POLA1; XRCC2; RMI2; CLSPN; TEX15; POLE2; RAD54L; TICRR; POLQ; BLM; EXO1; RAD1; PARPBP; RFC3; RAD51B; RAD51AP1; WDHD1; RFC5; CDK1; RFC4; ZRANB3; RAD51; ZBTB1; SMC1A; POLA1; XRCC2; UBE2T; UHRF1; FEN1; PARP2; USP28; MSH2; LIG1; FANCD2; PDS5B; DNA ligation involved in DNA repair HMGB2; PARP2; LIG1; DNA damage checkpoint CLSPN; CEP63; CLOCK; BRIP1; RAD1; RHNO1; DONSON; USP28; E2F1; DNA damage response, signal transduction by p53 class mediator resulting in cell cycle arrest PCNA; CNOT6; CDC25C; CENPJ; CDK1; SFN; CCNB1; E2F7; E2F1; Double‐strand break repair via homologous recombination AUNIP; RAD54B; MCM8; RAD54L; MMS22L; POLQ; BRCA1; BLM; BRCA2; RAD51B; RAD51AP1; RAD51; GEN1; NUCKS1; XRCC2; FEN1; SMC6; Supplementary Table S5 (Primers used for qRT‐PCR and ChIP) Sequence (5’→3’)
RAD54B XRCC2 EXO1 RAD54L RAD51C CHEK1 RMI2 NBN1 BRCA2 DMC1 BRCA1 RAD21 ABCF2 RAD51AP1
Summary
KLHL42; NCAPG2; CDC25C; KIF11; RB1; CCNE2; MIS18A; CCSAP; CEP63; KNSTRN; KNTC1; MAD2L1; CETN3; ITGB3BP; CDCA8; REEP4; CDC7; MASTL; LRRCC1; MIS18BP1; REEP3; CENPJ; ERCC6L; NUF2; CDC6; KIF20B; HELLS; GNAI2; SMC4; KIF14; EPB41; DYNLT1; CDK1; NCAPG; BORA; SKA3; NUP43; CCNB2; SMC2; SMC1A; CCNA2; NDC80; HAUS3; SPAG5; KIF18B; BUB1B; CCNB1; SPDL1; UBE2C; FBXO5; HAUS6; TTC28; CDC20; LIG1; ZWINT; BOD1; SPC25; CENPE; ZWILCH; NEDD1; CCNE1; PDS5B; CENPF; POLE2; POLQ; RFC3; WDHD1; RFC5; RFC4; POLA1; CCNE2; POLE2; MCM8; MCM10; CDC7; PRIM1; MCM3; CDC6; POLA2; GINS4; POLA1; MCM6; ORC3; ORC1; MCM4; PRIM2; CCNE1; DNA replication RRM1; CDC25C; CLSPN; BARD1; RRM2; POLE2; MCM8; TICRR; DNA2; BRIP1; MCM10; BRCA1; CDC7; DTD1; MCM3; BLM; EXO1; RAD1; CDC6; RFC3; RFC5; RMI1; CDK1; RFC4; RHNO1; DONSON; POLA2; POLA1; MCM6; ORC3; FEN1; RMI2; ORC1; MCM4; Mitotic cell cycle
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