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Vol. 28, Issue 4, 460-466, April 2000
Drug Metabolism, Merck Research Laboratories, West Point,
Pennsylvania
L-754,394, a furanopyridine derivative, is an experimental HIV
protease inhibitor. Previous studies from this laboratory have demonstrated that L-754,394 is cleared very rapidly in animals, and
that this drug is a potent mechanism-based inactivator (suicide inhibitor) for CYP3A4 in human liver microsomes. Because L-754,394 is a
high-clearance drug and an enzyme inactivator, it is expected that this
drug will be subject to significant first-pass metabolism, and that the
degree of enzyme inactivation will be dependent not only on the dose,
but also on the route of administration. The purpose of this study is
to examine the effects of dose and route of administration on the
kinetics of L-754,394 using rats and dogs as animal models. In both
rats and dogs, L-754,394 exhibited marked dose-dependent
pharmacokinetics after i.v. and oral administration. Irrespective of
i.v. or oral administration, the area under the plasma
concentration-time curve from zero to infinity increased with dose in a
greater than proportional manner. However, the magnitude of area under
the plasma concentration-time curve from zero to infinity
increase was much greater after oral dosing than after i.v.
administration, indicating route-dependent pharmacokinetics. Data from
in vitro and in vivo studies suggested that the dose- and
route-dependent pharmacokinetics were due mainly to the inactivation (destruction) of the enzymes responsible for its own metabolism.
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