The in vitro metabolism and in vivo pharmacokinetics of the bacterial beta-glucuronidase inhibitor UNC10201652

In vitro incubation of the bacterial beta-glucuronidase inhibitor UNC10201652 (4-(8-(piperazin-1-yl)-1,2,3,4-tetrahydro-[1,2,3]triazino[4',5':4,5]thieno[2,3-c]isoquinolin-5-yl)morpholine) with mouse, rat, and human liver microsomes and hepatocytes generated metabolites at multiple sites via deethylations, oxidations and glucuronidation. Two UNC10201652 metabolites were detected in human, and four in mouse and rat liver microsomal incubations. Intrinsic clearances of UNC10201652 in human, mouse, and rat liver microsomes were 48.1, 115, and 194 mu L/min/mg respectively. Intrinsic clearances for human, mouse, and rat hepatocytes were 20.9, 116, and 140 mu L/min/106 cells respectively and 24 metabolites were characterised: 9 for human and 11 for both rodent species. Plasma clearance was 324.8 mL/min/kg with an elimination half-life of 0.66 h following IV administration of UNC10201652 to Swiss Albino mice (3 mg/kg). Pre-treatment with 1-aminobenzotriazole (ABT) decreased clearance to 127.43 mL/min/kg, increasing the t (1/2) to 3.66 h. Comparison of profiles after oral administration of UNC10201652 to control and pre-treated mice demonstrated a large increase in C (max) (from 15.2 ng/mL to 184.0 ng/mL), a delay in Tmax from 0.25 to 1 h and increased AUC from 20.1 to 253 h ng/ml. ABT pre-treatment increased oral bioavailability from 15% to >100% suggesting that CYP450's contributed significantly to UNC10201652 clearance in mice.