Inhibition of Ionic Currents by Fluoxetine in Vestibular Calyces in Different Epithelial Loci
Nesrien M. M. Mohamed, Frances L. Meredith, Katherine J. Rennie

TL;DR
This study explores how fluoxetine affects ion currents in the inner ear's vestibular system, potentially explaining its use in treating balance disorders.
Contribution
The study reveals distinct effects of fluoxetine on K+ and Na+ currents in different regions of the vestibular system.
Findings
Fluoxetine inhibits non-inactivating K+ currents in peripheral zone calyces and reveals a rapidly inactivating K+ current.
Fluoxetine significantly reduces transient inward Na+ currents in both peripheral and central zone calyces.
Fluoxetine has no effect on voltage-dependent K+ currents in vestibular hair cells.
Abstract
Previous studies have suggested a role for selective serotonin reuptake inhibitors (SSRIs) such as fluoxetine (Prozac®) in the treatment of dizziness and inner ear vestibular dysfunction. The potential mechanism of action within the vestibular system remains unclear; however, fluoxetine has been reported to block certain types of K+ channel in other systems. Here, we investigated the direct actions of fluoxetine on membrane currents in presynaptic hair cells and postsynaptic calyx afferents of the gerbil peripheral vestibular system using whole cell patch clamp recordings in crista slices. We explored differences in K+ currents in peripheral zone (PZ) and central zone (CZ) calyces of the crista and their response to fluoxetine application. Outward K+ currents in PZ calyces showed greater inactivation at depolarized membrane potentials compared to CZ calyces. The application of 100 μM…
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Taxonomy
TopicsVestibular and auditory disorders · Connexins and lens biology · Ion channel regulation and function
