Two-step voltage-sensor activation of the human KV7.4 channel and effect of a deafness-associated mutation
Mario Nappi, Damon J. A. Frampton, Ali S. Kusay, Kaiqian Wang, S. Suheda Yasarbas, Serena Pozzi, Francesco Miceli, Sara I. Liin, Maurizio Taglialatela, Antonios Pantazis

TL;DR
This study investigates how KV7.4 potassium channels in the inner ear open and how a specific mutation linked to hearing loss disrupts this process.
Contribution
The study reveals a two-step voltage-sensor activation mechanism in KV7.4 channels and how a deafness-associated mutation affects this process.
Findings
KV7.4 voltage-sensor activation involves multiple voltage-dependent transitions, some matching the kinetics of channel opening.
The R216H mutation impairs VSD movement and channel opening by destabilizing the active VSD configuration.
Molecular dynamics simulations confirm the mutation's effect on VSD destabilization.
Abstract
KCNQ4-encoded KV7.4 voltage-gated potassium channels are expressed in hair-cells of the inner ear. Loss-of-function variants in KCNQ4 cause non-syndromic progressive hearing loss (DFNA2). KV7.4 pore opening requires voltage-dependent conformational changes (activation) of the voltage-sensor domains (VSDs); however, how fast charge displacement during VSD activation is coupled to slow channel opening is currently unclear. Here, we optically tracked KV7.4 VSD activation with voltage-clamp fluorometry, leveraging two fluorophores and pulsed excitation, and found that VSD activation comprises several voltage-dependent transitions, some with kinetics and voltage-dependence matching those of channel opening and closing. The DFNA2-causing R216H mutation impairs VSD movement and channel opening by destabilizing the active VSD configuration, a result confirmed by molecular dynamics simulations.…
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Taxonomy
TopicsHearing, Cochlea, Tinnitus, Genetics · Ion channel regulation and function · Vestibular and auditory disorders
