142 Background: The androgen receptor (AR) pathway drives most metastatic castration-resistant prostate cancers (mCRPC) even in late stages of the disease. Anti-androgen resistance mechanisms include AR gene amplification, C-terminal ligand-binding domain (LBD) mutations and expression of constitutively active AR splice variants lacking the LBD (e.g. AR-V7). Selective inhibition of the N-terminal domain (NTD) of the AR can inhibit its’ transcriptional activity even in the presence of LBD-driven resistance. In a phase I trial, the first-generation AR NTD inhibitor (aniten) EPI-002, demonstrated minor PSA declines in mCRPC patients. The efficacy and safety profile of second generation aniten IND-candidate EPI-7386 will be presented. Methods: Novel aniten chemical structures were developed to increase molecule potency using a wide variety of CRPC models. Similarly, the stability and selectivity of the molecule were characterized with screening and functional assays. IND-enabling studies further support the compounds’ safety profile. Results: EPI-7386 demonstrated a 20-fold improvement in AR-driven cellular potency compared to EPI-002, while being highly stable in human hepatocytes and across animal species. In vitro proliferation assays demonstrated on-target activity across a panel of prostate cancer cell lines, with activity in AR-V7-driven cellular models. EPI-7386 was able to induce tumor regression in CRPC xenografts and show superiority to enzalutamide (ENZ) in ENZ resistant models. In addition, the combination of ENZ with EPI-7386 demonstrated a more robust antitumor response. IND-enabling studies demonstrate a safe and well-tolerated profile supporting an IND filing in 1Q 2020. Pharmacodynamic markers specific to anitens will be presented, in addition to early clinical development plans. Conclusions: The next generation aniten compound EPI-7386 is more active and metabolically stable than EPI-002. It demonstrated potential as a single agent in overcoming anti-androgen clinical resistance as well as in combination therapy in earlier stages of the disease. The clinical strategy supporting the development of this new generation of aniten will be discussed.