Generation of Somatic Electromechanical Force by Outer Hair Cells May Be Influenced by Prestin-CASK Interaction at the Basal Junction with the Deiter's Cell

Overview

Journal Histochem Cell Biol

Publisher Springer

Specialties Biochemistry
Cell Biology

Date 2013 Apr 2

PMID 23542924

Citations 6

Authors

Jelka Cimerman

Jorg Waldhaus

Csaba Harasztosi

Susanne V Duncker

Juliane Dettling

Paulina Heidrych

Andreas Bress

Claudia Gampe-Braig

Gerhard Frank

Anthony W Gummer

Dominik Oliver

Marlies Knipper

Ulrike Zimmermann

Affiliations

Soon will be listed here.

Abstract

The motor protein, prestin, situated in the basolateral plasma membrane of cochlear outer hair cells (OHCs), underlies the generation of somatic, voltage-driven mechanical force, the basis for the exquisite sensitivity, frequency selectivity and dynamic range of mammalian hearing. The molecular and structural basis of the ontogenetic development of this electromechanical force has remained elusive. The present study demonstrates that this force is significantly reduced when the immature subcellular distribution of prestin found along the entire plasma membrane persists into maturity, as has been described in previous studies under hypothyroidism. This observation suggests that cochlear amplification is critically dependent on the surface expression and distribution of prestin. Searching for proteins involved in organizing the subcellular localization of prestin to the basolateral plasma membrane, we identified cochlear expression of a novel truncated prestin splice isoform named prestin 9b (Slc26A5d) that contains a putative PDZ domain-binding motif. Using prestin 9b as the bait in a yeast two-hybrid assay, we identified a calcium/calmodulin-dependent serine protein kinase (CASK) as an interaction partner of prestin. Co-immunoprecipitation assays showed that CASK and prestin 9b can interact with full-length prestin. CASK was co-localized with prestin in a membrane domain where prestin-expressing OHC membrane abuts prestin-free OHC membrane, but was absent from this area for thyroid hormone deficiency. These findings suggest that CASK and the truncated prestin splice isoform contribute to confinement of prestin to the basolateral region of the plasma membrane. By means of such an interaction, the basal junction region between the OHC and its Deiter's cell may contribute to efficient generation of somatic electromechanical force.

Citing Articles

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Prestin Contributes to Membrane Compartmentalization and Is Required for Normal Innervation of Outer Hair Cells.

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The BEACH protein LRBA is required for hair bundle maintenance in cochlear hair cells and for hearing.

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The chloride-channel blocker 9-anthracenecarboxylic acid reduces the nonlinear capacitance of prestin-associated charge movement.

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