ABSTRACT:10-((4-Hydroxypiperidin-1-yl)methyl)chromeno[4,3,2-de]phthalazin-3(2H)-one (E7016), an inhibitor of poly(ADP-ribose) polymerase, is being developed for anticancer therapy. One of the major metabolites identified in preclinical animal studies was the product of an apparent oxidation and ring opening of the 4-hydroxypiperidine. In vitro, this oxidized metabolite could not be generated by incubating E7016 with animal or human liver microsomes. Further studies revealed the formation of this unique metabolite in hepatocytes. In a NAD(P)؉ -dependent manner, this metabolite was also generated by liver S9 fractions and recombinant human flavincontaining monooxygenase (FMO) 5 that was fortified with liver cytosol fractions. In animal and human liver S9, this metabolic pathway could be inhibited by 4-methylpyrazole, bis-p-nitrophenylphosphate (BNPP), or a brief heat treatment at 50°C. Based on these results, the overall metabolic pathway was believed to involve a two-step oxidation process: dehydrogenation of the secondary alcohol in liver cytosol followed by an FMO5-mediated Baeyer-Villiger oxidation in liver microsomes.
E6201 exhibited high clearance, high to moderate distribution, and fast elimination in preclinical species. In vitro results suggested that E6201 has low risk of drug-drug interactions due to CYP inhibition and induction in humans. In the first-in-man study, E6201 exhibited high clearance, which was well predicted by allometric scaling.
For high throughput screens, the quickest methodology possible is desirable, but a substantial amount of potentially useful information is lacking since most screens for metabolic stability are conducted at one concentration, and sometimes at one time point. Information that would benefit projects during the discovery phase are to know the metabolic rate linearity (K(m) value) and projected hepatic clearance (CL(h) value), which is possible by the addition of one more concentration. This study used the FDA-preferred probe cytochrome P450 substrates to determine K(m), V(max), and CL(int) values. The results showed that compounds with relatively high metabolic rates produced more accurate and reproducible results that match well with predicted K(m) values according to the FDA. On the other hand, compounds with relatively low metabolic rates yielded more variable results. Thus, the use of two substrate concentrations should be useful with screening assays for assessing the kinetic values for other compounds.
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