Background: Targeted degradation of androgen receptor (AR) and androgen receptor variants (ARV) remains an attractive therapeutic opportunity for patients with castrate resistant prostate cancer (CRPC). E1A binding protein (p300) and CREB binding protein (CBP) are two closely related histone acetyl transferase proteins that act as transcriptional activators of AR. We have developed potent, selective and orally active small molecule inhibitors of the bromodomain of p300/CBP and investigated their role in regulating the expression and function of AR and ARV. Methods: Binding affinity to p300, CBP and BRD4 was measured in a surface plasmon resonance (SPR) assay and potency and functional activity was demonstrated in a panel of prostate cells lines representing hormone responsive (LNCaP), hormone independent (DU145, PC3) and castrate resistant disease (22Rv1, C4-2, VCaP, LNCaP-AR). Effects of p300/CBP inhibitors (and the BET inhibitor, JQ1), on AR, AR-V7 splice variant and c-Myc protein, as well as c-Myc, KLK3 and TMPRSS2 gene expression, were assessed in 22Rv1 cells in vitro. In vivoeffects on biomarkers were measured in a 22Rv1 xenograft model. Results: CCS1357, an in vitro probe compound, binds to p300 and CBP with high affinity (Kd=4nM) and selectivity (Kd=245nM; BRD4) and is a potent inhibitor of cell proliferation in castrate resistant cell lines (IC50=100nM in LnCaP-AR; 350nM in 22Rv1) with minimal effects in hormone independent lines. CCS1357 significantly down-regulated AR-FL, AR-V7 and c-Myc protein by Western, an effect not seen with JQ1 at equivalent proliferation IC50s. CCS1357 effects were reversed by the proteasome inhibitor, MG132. CCS1357 also caused a profound inhibition of c-Myc, KLK3 and TMPRSS2 genes measured by qPCR in 22Rv1 cells in vitro. A preclinical candidate (CCS1477) given as a single oral dose (30mg/kg) inhibited plasma PSA and tumour AR and AR-V7 in a 22Rv1 xenograft model. Conclusions: Small molecule inhibition of the bromodomain of p300/CBP, leads to down-regulation of AR, ARV and c-Myc as well as inhibition of key downstream PD biomarkers including PSA and TMPRSS2 and represents a promising new approach for the treatment of CRPC.