Endocochlear potential contributes to hair cell death in TMPRSS3 hearing loss
A. Eliot Shearer, Yuan-Siao Chen, Stephanie L. Rouse, Xiaohan Wang, Janmaris Marin Fermin, Kevin T.A. Booth, Jasmine Moawad, Nicole Bianca Libiran, Jinan Li, Hae-Young Kim, Michael Hoa, Rafal Olszewski, Jing-Yu Lei, Ernesto Cabrera, Douglas J. Totten, Bo Zhao, Jeffrey R. Holt, Rick F. Nelson
A. Eliot Shearer, Yuan-Siao Chen, Stephanie L. Rouse, Xiaohan Wang, Janmaris Marin Fermin, Kevin T.A. Booth, Jasmine Moawad, Nicole Bianca Libiran, Jinan Li, Hae-Young Kim, Michael Hoa, Rafal Olszewski, Jing-Yu Lei, Ernesto Cabrera, Douglas J. Totten, Bo Zhao, Jeffrey R. Holt, Rick F. Nelson
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Research Article Cell biology Otology

Endocochlear potential contributes to hair cell death in TMPRSS3 hearing loss

Abstract

Pathogenic variants in the gene TMPRSS3 are a common cause of hearing loss in humans, although the causal mechanisms remain unknown. Previous work has shown that Tmprss3Y260X/Y260X mice exhibit normal hair cell development, mechanosensory transduction, and spiral ganglion patterning, but experience rapid hair cell death from P12 to P14 at the onset of hearing. Here, we demonstrate that Tmprss3Y260X/Y260X mice display an early and temporary spike in endocochlear potential (EP) prior to the onset of hair cell death. In vitro experiments with cochlear explants from Tmprss3Y260X/Y260X mice and in vivo studies with Tmprss3Y260X/Y260X mice crossed with 2 different mutant models that lacked EP generation promoted hair cell survival. Furthermore, systemic administration of furosemide, a drug that reduces EP in vivo, reduced hair cell death in Tmprss3Y260X/Y260X mice. These findings suggest that extracellular factors, including EP, play a role in TMPRSS3-related hair cell survival and hearing loss, and suggest that modulating EP could be a therapeutic strategy.

Authors

A. Eliot Shearer, Yuan-Siao Chen, Stephanie L. Rouse, Xiaohan Wang, Janmaris Marin Fermin, Kevin T.A. Booth, Jasmine Moawad, Nicole Bianca Libiran, Jinan Li, Hae-Young Kim, Michael Hoa, Rafal Olszewski, Jing-Yu Lei, Ernesto Cabrera, Douglas J. Totten, Bo Zhao, Jeffrey R. Holt, Rick F. Nelson

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Figure 2

Spiral ganglion subtype composition is normal in Tmprss3Y260X/Y260X mice, aside from type II SGN increase.

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Spiral ganglion subtype composition is normal in Tmprss3Y260X/Y260X mice...
(A) Representative sections of spiral ganglion taken at P11 stained for neuron-specific class III β-tubulin (TuJ1) and antibodies specific for type IA SGNs (calretinin), type IB SGNs (calbindin), type IC SGNs (POU4F1, BRN3A), and type II SGNs (NGFR). Top row shows TuJ1 channel, middle row shows SGN subtype-specific channel, and the bottom row shows merged channels. Arrows indicate costaining; arrowheads indicate negative costaining. Scale bars: 20 μm. (B) Counted subtype-specific neurons at P11 and P21 for Tmprss3Y260X/Y260X and wild-type mice show no difference aside from increased type II SGNs in wild-type mice at P21. Each point represents cell count from 1 cochlea (n = 3 cochleae per genotype and day).