A Simple and Rapid Bioluminescence-Based Functional Assay of Organic Anion Transporter 1 as a D-Luciferin Transporter.

Abstract

Organic anion transporter 1 (SLC22A6/OAT1) plays a key role in renal tubular excretion of endo- and exogenous anionic substances including drugs. Since the inhibition of OAT1 function by a concomitant drug may cause pharmacokinetic drug-drug interactions (DDIs) in clinical practice, an in vitro uptake study to evaluate the inhibition potency of OAT1 is useful for the prediction and avoidance of DDIs and recommended for drug candidates in drug development. In this chapter, we describe a rapid and highly sensitive functional assay of OAT1 based on bioluminescence (BL) detection using D-luciferin as a substrate in living cells. The principle of measurement simply relies on the biochemical feature of D-luciferin to be recognized as a substrate of OAT1, and the BL intensity depending on intracellular D-luciferin level and luciferase activity, thereby allowing the quantitative analysis of OAT1-mediated D-luciferin transport. The BL measurement can be completed within 1min without experimental procedures for removing extracellular uptake solution and washing cells, both of which involve in the conventional uptake studies using isotope-labeled or fluorescent compounds. The present method is applicable to high-throughput screening to identify and avoid potential OAT1 inhibitors in drug development.