Abstract
Hepatocyte drug depletion-time assays are well established for determination of metabolic clearance in vitro. The present study focuses on the refinement and evaluation of a "media loss" assay, an adaptation of the conventional depletion assay involving centrifugation of hepatocytes prior to sampling, allowing estimation of uptake in addition to metabolism. Using experimental procedures consistent with a high throughput, a selection of 12 compounds with a range of uptake and metabolism characteristics (atorvastatin, cerivastatin, clarithromycin, erythromycin, indinavir, pitavastatin, repaglinide, rosuvastatin, saquinavir, and valsartan, with two control compounds-midazolam and tolbutamide) were investigated in the presence and absence of the cytochrome P450 inhibitor 1-aminobenzotriazole and organic anion transporter protein inhibitor rifamycin SV in rat hepatocytes. Data were generated simultaneously for a given drug, and provided, through the use of a mechanistic cell model, clearance terms characterizing metabolism, active and passive uptake, together with intracellular binding and partitioning parameters. Results were largely consistent with the particular drug characteristics, with active uptake, passive diffusion, and metabolic clearances ranging between 0.4 and 777, 3 and 383, and 2 and 236 μl/min per milligram protein, respectively. The same experiments provided total and unbound drug cellular partition coefficients ranging between 3.8 and 254 and 2.3 and 8.3, respectively, and intracellular unbound fractions between 0.014 and 0.263. Following in vitro-in vivo extrapolation, the lowest prediction bias was noted using uptake clearance, compared with metabolic clearance or apparent clearance from the media loss assay alone. This approach allows rapid and comprehensive characterization of hepatocyte drug disposition valuable for prediction of hepatic processes in vivo.
Highlights
An array of in vitro methodologies have been developed to measure permeability and metabolic properties of drugs and new chemical entities; within the pharmaceutical industry there is more confidence in using the latter than the former for predicting in vivo pharmacokinetics (Jones et al, 2015)
The diversity of drugs selected in this study resulted in a range of drug depletion-time profiles in both the media loss and conventional assays
All conventional depletion assays were monophasic, the majority of media loss profiles were biphasic, indicating that uptake occurred at a different rate to that of the subsequent metabolism
Summary
An array of in vitro methodologies have been developed to measure permeability and metabolic properties of drugs and new chemical entities; within the pharmaceutical industry there is more confidence in using the latter than the former for predicting in vivo pharmacokinetics (Jones et al, 2015). Monolayer and sandwich- cultured hepatocyte formats have been developed that offer certain advantages, and can be used to generate similar estimates of uptake (Menochet et al, 2012; De Bruyn et al, 2013) These systems require hours or days of culture time before drug assays can commence. The course of drug depletion is monitored over time and from the simultaneous use of the media loss (involving the centrifugation of cells prior to sampling) and the conventional assay (involving direct sampling from the cell suspension) estimation of uptake and metabolism is achieved, making it possible to determine the probable rate-determining step in the hepatic clearance of the drug in question (Soars et al, 2007; Jigorel and Houston, 2012)
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