A P-gp vesicular transport inhibition assay - optimization and validation for drug-drug interaction testing

Abstract

Accurate determination of potential drug-drug interaction mediated by efflux transporters (tDDI) is crucial to assess the risk of pharmacokinetic interaction and toxicity of drugs. Passive permeability and uptake transporter mediated transport are important covariates of cell-based inhibition assays that need to be taken into consideration when performing kinetic analysis of data. Vesicular uptake inhibition has been considered by regulatory agencies as a viable alternative for testing tDDI potential of low passive permeability drugs in particular. Membranes prepared from a P-gp overexpressing human cell line has superior transport properties over membranes prepared from Sf9 cells and cholesterol enriched Sf9 membranes. P-gp expressed in this membrane effluxes N-methyl-quinidine (NMQ) with high affinity (K(m) is 3.65 μM) and a high rate (V(max) is 656 pmol/mg protein/min). Digoxin, vinblastine and paclitaxel, established P-gp substrates inhibited transport of NMQ with estimated K(i) values of 250, 0.1 and 0.6 μM, respectively. A panel of 11 drugs that have been listed by regulatory agencies as reference inhibitors were used to validate the assay to predict clinical inhibition potential. All the drugs that have been implicated in P-gp mediated DDI were found to be inhibitors in a relevant concentration range.

Keywords: ABCB1; DDI; Human cell membrane; N-methyl quinidine; P-glycoprotein; Vesicular uptake.