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  2. Interactions between amiodarone and the hERG potassium channel pore determined with mutagenesis and in silico docking

Interactions between amiodarone and the hERG potassium channel pore determined with mutagenesis and in silico docking

  • Biochem Pharmacol. 2016 Aug 1;113:24-35. doi: 10.1016/j.bcp.2016.05.013.
Yihong Zhang 1 Charlotte K Colenso 2 Aziza El Harchi 1 Hongwei Cheng 1 Harry J Witchel 3 Chris E Dempsey 4 Jules C Hancox 5
Affiliations

Affiliations

  • 1 School of Physiology and Pharmacology and Cardiovascular Research Laboratories, Medical Sciences Building, University of Bristol, University Walk, Bristol BS8 1TD, UK.
  • 2 School of Biochemistry, Medical Sciences Building, University of Bristol, University Walk, Bristol BS8 1TD, UK.
  • 3 Brighton and Sussex Medical School, University of Sussex, Falmer BN1 9PX, UK.
  • 4 School of Biochemistry, Medical Sciences Building, University of Bristol, University Walk, Bristol BS8 1TD, UK. Electronic address: C.Dempsey@bristol.ac.uk.
  • 5 School of Physiology and Pharmacology and Cardiovascular Research Laboratories, Medical Sciences Building, University of Bristol, University Walk, Bristol BS8 1TD, UK. Electronic address: Jules.hancox@bristol.ac.uk.
Abstract

The antiarrhythmic drug amiodarone delays cardiac repolarisation through inhibition of hERG-encoded potassium channels responsible for the rapid delayed rectifier potassium current (IKr). This study aimed to elucidate molecular determinants of amiodarone binding to the hERG channel. Whole-cell patch-clamp recordings were made at 37°C of ionic current (IhERG) carried by wild-type (WT) or mutant hERG channels expressed in HEK293 cells. Alanine mutagenesis and ligand docking were used to investigate the roles of pore cavity amino-acid residues in amiodarone binding. Amiodarone inhibited WT outward IhERG tails with a half-maximal inhibitory concentration (IC50) of ∼45nM, whilst inward IhERG tails in a high K(+) external solution ([K(+)]e) of 94mM were blocked with an IC50 of 117.8nM. Amiodarone's inhibitory action was contingent upon channel gating. Alanine-mutagenesis identified multiple residues directly or indirectly involved in amiodarone binding. The IC50 for the S6 aromatic Y652A mutation was increased to ∼20-fold that of WT IhERG, similar to the pore helical mutant S624A (∼22-fold WT control). The IC50 for F656A mutant IhERG was ∼17-fold its corresponding WT control. Computational docking using a MthK-based hERG model differentiated residues likely to interact directly with drug and those whose Ala mutation may affect drug block allosterically. The requirements for amiodarone block of aromatic residues F656 and Y652 within the hERG pore cavity are smaller than for other high affinity IhERG inhibitors, with relative importance to amiodarone binding of the residues investigated being S624A∼Y652A>F656A>V659A>G648A>T623A.

Keywords

Amiodarone; Amiodarone hydrochloride (PubChem CID: 441325); Antiarrhythmic; I(Kr); Long QT; QT interval; hERG.

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