HERG-Lite??: A novel comprehensive high-throughput screen for drug-induced hERG risk
Wible BA, Hawryluk P, Ficker E, Kuryshev YA, Kirsch G, Brown AM
Journal of Pharmacological and Toxicological Methods - vol. 52 136-145 (2005)
Journal of Pharmacological and Toxicological Methods
Introduction: Direct block of IKr by non-antiarrhythmic drugs (NARDs) is a major cause of QT prolongation and torsades de pointes (TdP), and has made the hERG potassium channel a major target of drug safety programs in cardiotoxicity. Block of hERG currents is not the only way that drugs can adversely impact the repolarizing current IKr, however. We have shown recently that two drugs in clinical use do not block hERG but produce long QT syndrome (LQTS) and TdP by inhibiting trafficking of hERG to the cell surface. To address the need for an inexpensive, rapid, and comprehensive assay to predict both types of hERG risk early in the drug development process, we have developed a novel antibody-based chemiluminescent assay called HERG-Lite??. Methods: HERG-Lite?? monitors the expression of hERG at the cell surface in two different stable mammalian cell lines. One cell line acts as a biosensor for drugs that inhibit hERG trafficking, while the other predicts hERG blockers based on their ability to act as pharmacological chaperones. In this study, we have validated the HERG-Lite?? assay using a panel of 100 drugs: 50 hERG blockers and 50 nonblockers. Results: HERG-Lite?? correctly predicted hERG risk for all 100 test compounds with no false positives or negatives. All 50 hERG blockers were detected as drugs with hERG risk in the HERG-Lite?? assay, and fell into two classes: B (for blocker) and C (for complex; block and trafficking inhibition). Discussion: HERG-Lite?? is the most comprehensive assay available for predicting drug-induced hERG risk. It accurately predicts both channel blockers and trafficking inhibitors in a rapid, cost-effective manner and is a valuable non-clinical assay for drug safety testing. ?? 2005 Elsevier Inc. All rights reserved.