Reduced Endocochlear Potential in vivo Prevents Hair Cell Degeneration in Tmprss3- deficient Mice

Abstract

Background: Transmembrane serine protease 3 (TMPRSS3) is a transmembrane serine prote­ase with proteolytic activity essential for normal auditory function in mice and humans. While Tmprss3 mutations are the most common gene variant adain cochlear implant recipients, details behind its cellular mechanism remain elusive. Tmprss3-mutant mice exhibit normal hair cell (HC) development until postnatal day 12 (P12), followed by rapid HC degeneration within 48 hours, resulting in deafness. The HC degenera­tion temporally correlates with the rapid rise in endocochlear potential (EP) that is required for hearing. This phenotype mirrors other mouse models with defects in genes expressing tight junctions (TJs). Thus, we hypothesize that TM­PRSS3 regulates tight junctions and cell death is mediated through high EP.

Methods: Our laboratory has previously demon­strated that performing cochlear explants at P7 followed by in vitro cultures for an additional 7 days leads to complete preservation of HCs in Tmprss3-mutant mice. It is unknown if the observed HC survival is due directly from re­moving EP or from other extracellular factors. Here we investigated the role of EP in Tm­prss3-deficient mice using in vivo experiments. We crossed the Tmprss3-mutant mice with Pou3f4-mutant mice, which fail to generate EP. Cochlear whole mounts were dissected, fixed, and stained for four groups of mice: wild-type, Tmprss3-mutant, Pou3f4-mutant, and dou­ble-mutant mice. Inner and outer hair cells were quantified within a span of 125 μm and com­pared between groups.

Results: We found significant preservation of HCs (p<0.001) in double mutant mice with reduced EP compared to Tmprss3-mutant mice. Thus, HC degeneration in Tmprss3-deficient mice is due to endocochlear potential driven K+ toxicity. Tmprss3-deficient mice likely have faulty apical TJs that result in leakage of K+ ions from the endolymph to the basolateral side of HCs, leading to HC degeneration.

Conclusion: Future research should work to elucidate TMPRSS3’s proteolytic target and its mechanism of TJ-related regulation.