Sunghi Ryu scite author profile

To characterize drug binding to the human ether-a-go-go related gene (hERG) channel, a synergic approach interplaying patch-clamp experiments and a docking study was developed. Mutations were introduced into concatenated dimers of the hERG channel that were assembled into a heterotetramer with mutated diagonal subunits. The binding affinities of three drugs (cisapride, terfenadine, and N-[4-[[1-[2-(6-methyl-2-pyridinyl)ethyl]-4-piperidinyl]carbonyl]phenyl]methanesulfonamide dihydrochloride (E-4031, 1)) to a set of mutant channels were examined electrophysiologically to assess the involved residues, their number, and relative positions. Cisapride and 1 interacted with Tyr652 residues on adjacent subunits, while terfenadine interacted with Tyr652 residues on diagonal, but not on adjacent, subunits. Phe656 was involved in the binding of all three drugs, and Ser624 was found to be only involved in cisapride and 1. The docking models demonstrated that pi-pi and CH-pi interactions rather than cation-pi interaction play a key role in drug binding to the hERG channel.

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Identification of Basic Residues Involved in Drug Export Function of Human Multidrug Resistance-associated Protein 2

Ryu¹,

Kawabe²,

Nada³

et al. 2000

Journal of Biological Chemistry

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Topological Mapping of the Asymmetric Drug Binding to the Human Ether-à-go-go-Related Gene Product (HERG) Potassium Channel by Use of Tandem Dimers

Myokai¹,

Ryu²,

Shimizu³

et al. 2008

Mol Pharmacol

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The human ether-à -go-go related gene product (HERG) channel is essential for electrical activity of heart cells, and block of this channel by many drugs leads to lethal arrhythmias. Tyr 652 and Phe 656 of the sixth transmembrane helix are candidates for the drug binding site. In the tetrameric HERG channel, a drug with asymmetric structure should interact unevenly with multiple residues from different subunits. To elucidate the topology of the drug-binding site, we constructed tandem dimers of HERG channels and the aromatic Tyr 652 and Phe 656 residues were replaced by alanine singly or doubly. Eight types of HERG channels, including homotetrameric mutants, having different numbers and arrangements of aromatic residues at the blocking site, were studied. Effects of cisapride on channels expressed in Xenopus laevis oocytes were examined electrophysiologically. The inhibition constants (K i ) were increased significantly as the diagonal Tyr 652 were deleted, whereas those for the diagonal Phe 656 -deleted mutant were not changed. These results suggest that Tyr 652 residues from adjacent subunits contributed to the binding. Two types of double mutants of tandem dimers showed significantly distinct affinities, suggesting that the coexistence of Tyr 652 and Phe 656 on a subunit in diagonal position is crucial to having a high affinity. Thermodynamic double-mutant cycle analyses revealed interactions between Tyr 652 and Phe 656 upon binding. The kinetics and voltage-dependence of blocking suggested transitions of the binding site from low to high affinity. These approaches using a set of mutant HERG channels gave a dynamic picture of the spatial arrangements of residues that contribute to the drug-channel interaction.

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Synthesis, Structure–Activity Relationship, and Pharmacological Studies of Novel Melanin-Concentrating Hormone Receptor 1 Antagonists 3-Aminomethylquinolines: Reducing Human Ether-a-go-go-Related Gene (hERG) Associated Liabilities

et al. 2012

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Recently, we discovered 3-aminomethylquinoline derivative 1, a selective, highly potent, centrally acting, and orally bioavailable human MCH receptor 1 (hMCHR1) antagonist, that inhibited food intake in F344 rats with diet-induced obesity (DIO). Subsequent investigation of 1 was discontinued because 1 showed potent hERG K(+) channel inhibition in a patch-clamp study. To decrease hERG K(+) channel inhibition, experiments with ligand-based drug designs based on 1 and a docking study were conducted. Replacement of the terminal p-fluorophenyl group with a cyclopropylmethoxy group, methyl group introduction on the benzylic carbon at the 3-position of the quinoline core, and employment of a [2-(acetylamino)ethyl]amino group as the amine portion eliminated hERG K(+) channel inhibitory activity in a patch-clamp study, leading to the discovery of N-{3-[(1R)-1-{[2-(acetylamino)ethyl]amino}ethyl]-8-methylquinolin-7-yl}-4-(cyclopropylmethoxy)benzamide (R)-10h. The compound (R)-10h showed potent inhibitory activity against hMCHR1 and dose-dependently suppressed food intake in a 2-day study on DIO-F344 rats. Furthermore, practical chiral synthesis of (R)-10h was performed to determine the molecule's absolute configuration.

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Sunghi Ryu

Docking Model of Drug Binding to the Human Ether-à-go-go Potassium Channel Guided by Tandem Dimer Mutant Patch-Clamp Data: A Synergic Approach

Identification of Basic Residues Involved in Drug Export Function of Human Multidrug Resistance-associated Protein 2

Topological Mapping of the Asymmetric Drug Binding to the Human Ether-à-go-go-Related Gene Product (HERG) Potassium Channel by Use of Tandem Dimers

Synthesis, Structure–Activity Relationship, and Pharmacological Studies of Novel Melanin-Concentrating Hormone Receptor 1 Antagonists 3-Aminomethylquinolines: Reducing Human Ether-a-go-go-Related Gene (hERG) Associated Liabilities

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