e15167 Background: CYP17 is a single protein with two distinct enzyme activities, 17 α-hydroxylase (hydroxylase) and 17,20-lyase (lyase). Reduction of extra-gonadal androgen production through CYP17 inhibition is a validated CRPC treatment paradigm. While treatment with the recently-approved CYP17 inhibitor, abiraterone acetate (AA), increases overall survival in post-docetaxel CRPC patients (de Bono et al, N Engl J Med 2011; 364:1995-2005), it is also associated with cortisol (F) suppression and increased steroid concentrations up-stream of CYP17 hydroxylase. The clinical candidate VT-464 is an oral, non-steroidal, lyase-selective CYP17 inhibitor. The study objectives were to compare VT-464 to abiraterone in regards to in vitro selectivity and to compare VT-464 to AA in regards to in vivo primate endocrine response. Methods: Human CYP17 hydroxylase and lyase IC50 values were determined for VT-464 and abiraterone in vitro. Plasma progesterone (P), F, and testosterone (T) responses were measured 0-24 hours after single subcutaneous doses of AA (12.5 mg/kg), VT-464 (6.25 and 12.5 mg/kg), or vehicle in adult, castrate, male rhesus monkeys. Results: Human lyase and hydroxylase IC50 values were 69nM and 670nM for VT-464 and 15nM and 2.5nM for abiraterone, respectively. AA and both dose levels of VT-464 produced a similar overall reduction in plasma T, compared to vehicle (p ≤ 0.009). AA treatment resulted in an elevated plasma P (peak increase >9,000%; p ≤ 0.05), compared to both VT-464 treatments and vehicle. F was not affected by either VT-464 dose, whereas AA resulted in F suppression (p ≤ 0.005) compared to vehicle. Conclusions: VT-464 was 10-fold more selective for human CYP17 lyase vs. hydroxylase inhibition. This selectivity was associated with androgen suppression, but not increases of up-stream steroids or F suppression in male monkeys. In contrast, abiraterone was 6-fold more selective for hydroxylase vs. lyase inhibition resulting in associations with increased up-stream steroids and F suppression in AA-treated male monkeys, consistent with clinical observations in CRPC. VT-464 may thus provide a more lyase-selective alternative to AA for extra-gonadal androgen suppression in CRPC.