Fluoxetine Blocks Nav1.5 Channels via a Mechanism Similar to That of Class 1 Antiarrhythmics

The voltage-gated Nav1.5 channel is essential for the propagation of action potentials in the heart. Malfunctions of this channel are known to cause hereditary diseases. It is a prime target for class 1 antiarrhythmic drugs and a number of antidepressants. Our study investigated the Nav1.5 blocking...

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Bibliographic Details
Published in:Molecular pharmacology 2014-10, Vol.86 (4), p.378-389
Main Authors: Poulin, Hugo, Bruhova, Iva, Timour, Quadiri, Theriault, Olivier, Beaulieu, Jean-Martin, Frassati, Dominique, Chahine, Mohamed
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Anti-Arrhythmia Agents - pharmacology
Binding Sites
Fluoxetine - adverse effects
Fluoxetine - pharmacokinetics
Fluoxetine - pharmacology
HEK293 Cells
Humans
Inhibitory Concentration 50
Ion Channel Gating
Molecular Sequence Data
Mutation
NAV1.5 Voltage-Gated Sodium Channel - chemistry
NAV1.5 Voltage-Gated Sodium Channel - genetics
NAV1.5 Voltage-Gated Sodium Channel - metabolism
Protein Binding
Selective Serotonin Reuptake Inhibitors - adverse effects
Selective Serotonin Reuptake Inhibitors - pharmacokinetics
Selective Serotonin Reuptake Inhibitors - pharmacology
Sodium Channel Blockers - pharmacokinetics
Sodium Channel Blockers - pharmacology
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Summary:The voltage-gated Nav1.5 channel is essential for the propagation of action potentials in the heart. Malfunctions of this channel are known to cause hereditary diseases. It is a prime target for class 1 antiarrhythmic drugs and a number of antidepressants. Our study investigated the Nav1.5 blocking properties of fluoxetine, a selective serotonin reuptake inhibitor. Nav1.5 channels were expressed in HEK-293 cells, and Na+ currents were recorded using the patch-clamp technique. Dose-response curves of racemic fluoxetine (IC50 = 39 μM) and its optical isomers had a similar IC50 [40 and 47 μM for the (+) and (−) isomers, respectively]. Norfluoxetine, a fluoxetine metabolite, had a higher affinity than fluoxetine, with an IC50 of 29 μM. Fluoxetine inhibited currents in a frequency-dependent manner, shifted steady-state inactivation to more hyperpolarized potentials, and slowed the recovery of Nav1.5 from inactivation. Mutating a phenylalanine (F1760) and a tyrosine (Y1767) in the S6 segment of domain (D) IV (DIVS6) significantly reduced the affinity of fluoxetine and its frequency-dependent inhibition. We used a noninactivating Nav1.5 mutant to show that fluoxetine displays open-channel block behavior. The molecular model of fluoxetine in Nav1.5 was in agreement with mutational experiments in which F1760 and Y1767 were found to be the key residues in binding fluoxetine. We concluded that fluoxetine blocks Nav1.5 by binding to the class 1 antiarrhythmic site. The blocking of cardiac Na+ channels should be taken into consideration when prescribing fluoxetine alone or in association with other drugs that may be cardiotoxic or for patients with conduction disorders.
ISSN:0026-895X
1521-0111
1521-0111
DOI:10.1124/mol.114.093104