Abstract
Gentisamide (GAM), the hydroxylated metabolite of salicylamide (SAM), underwent sequential metabolism, and GAM-5-glucuronide was the only metabolite detected in the single-pass in situ rat liver preparation (10 ml/min/liver) perfused at varying SAM steady-state input concentrations (CIn). The exclusive formation of GAM-5-glucuronide was unexpected, because GAM, when administered to the rat liver, formed predominantly monosulfate conjugates at the 5- and 2-positions (Morris et al., J. Pharmacol. Exp. Ther. 245: 614-624, 1988). Kinetic parameters obtained from single-pass studies for SAM sulfation (CIn increasing from 31 to 347 microM) and glucuronidation and hydroxylation (CIn decreasing from 1383 to 130 microM, with 0.85 mM SO4(2-), and CIn increasing from 32 to 800 microM in an absence of SO4(2-), with 2,6-dichloro-4-nitrophenol, a sulfation inhibitor) revealed sulfation as a high-affinity, high-capacity pathway, glucuronidation as a lower-affinity, high-capacity pathway and hydroxylation as a low-affinity, low-capacity pathway. However, these parameters would not explain the exclusive glucuronidation of GAM when generated from SAM. Rather the zonal localization of metabolizing activities [a periportal sulfation, evenly distributed glucuronidation, and perivenous hydroxylation system (Xu and Pang, J. Pharmacokinet. Biopharm. 17: 645-671, 1989; Morris et al., J. Pharmacokinet. Biopharm. 16: 633-656, 1988)] could explain the complete lack of sulfation in SAM sequential metabolism. The different metabolite patterns arising from the administrations of a metabolite precursor (SAM) versus a preformed metabolite (GAM), due to the proximity of enzymes for formation and sequential metabolism, may serve to explain the differential toxic or pharmacologic effects observed in other precursor-metabolite pairs.
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