Mouse model of enlarged vestibular aqueducts defines temporal requirement of Slc26a4 expression for hearing acquisition
Byung Yoon Choi, Hyoung-Mi Kim, Taku Ito, Kyu-Yup Lee, Xiangming Li, Kelly Monahan, Yaqing Wen, Elizabeth Wilson, Kiyoto Kurima, Thomas L. Saunders, Ronald S. Petralia, Philine Wangemann, Thomas B. Friedman, Andrew J. Griffith
Byung Yoon Choi, Hyoung-Mi Kim, Taku Ito, Kyu-Yup Lee, Xiangming Li, Kelly Monahan, Yaqing Wen, Elizabeth Wilson, Kiyoto Kurima, Thomas L. Saunders, Ronald S. Petralia, Philine Wangemann, Thomas B. Friedman, Andrew J. Griffith
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Research Article Otology

Mouse model of enlarged vestibular aqueducts defines temporal requirement of Slc26a4 expression for hearing acquisition

Abstract

Mutations in human SLC26A4 are a common cause of hearing loss associated with enlarged vestibular aqueducts (EVA). SLC26A4 encodes pendrin, an anion-base exchanger expressed in inner ear epithelial cells that secretes HCO3– into endolymph. Studies of Slc26a4-null mice indicate that pendrin is essential for inner ear development, but have not revealed whether pendrin is specifically necessary for homeostasis. Slc26a4-null mice are profoundly deaf, with severe inner ear malformations and degenerative changes that do not model the less severe human phenotype. Here, we describe studies in which we generated a binary transgenic mouse line in which Slc26a4 expression could be induced with doxycycline. The transgenes were crossed onto the Slc26a4-null background so that all functional pendrin was derived from the transgenes. Varying the temporal expression of Slc26a4 revealed that E16.5 to P2 was the critical interval in which pendrin was required for acquisition of normal hearing. Lack of pendrin during this period led to endolymphatic acidification, loss of the endocochlear potential, and failure to acquire normal hearing. Doxycycline initiation at E18.5 or discontinuation at E17.5 resulted in partial hearing loss approximating the human EVA auditory phenotype. These data collectively provide mechanistic insight into hearing loss caused by SLC26A4 mutations and establish a model for further studies of EVA-associated hearing loss.

Authors

Byung Yoon Choi, Hyoung-Mi Kim, Taku Ito, Kyu-Yup Lee, Xiangming Li, Kelly Monahan, Yaqing Wen, Elizabeth Wilson, Kiyoto Kurima, Thomas L. Saunders, Ronald S. Petralia, Philine Wangemann, Thomas B. Friedman, Andrew J. Griffith

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Figure 8

Kcnj10 and pendrin expression in the cochlea.

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Kcnj10 and pendrin expression in the cochlea. (A–D) Anti-Kcnj10 or (E–J)...
(AD) Anti-Kcnj10 or (EJ) anti-pendrin antibodies were used to immunostain Tg[E];Tg[R];Slc26a4Δ/Δ IE18.5 (A, C, F, and I), Tg[E];Tg[R];Slc26a4Δ/+ (B, E, and H), or Slc26a4Δ/Δ (D, G, and J) cochlea (AG) or endolymphatic sac (HJ) at P27 to P34. Insets (BD) show magnified views of the spiral ganglion (SG). Scale bars: 100 μm (A); 50 μm (B, applies to CG); 5 μm (inset in B, applies to insets in C and D); 50 μm (H, applies to I and J). Kcnj10 staining is evident in the intermediate layer of the stria vascularis as well as the spiral ganglion. Kcnj10 immunoreactivity in the lateral wall of Tg[E];Tg[R];Slc26a4Δ/Δ IE18.5 cochleae appears normal or slightly reduced. Pendrin immunoreactivity is reduced in the cochlea and endolymphatic sac of Tg[E];Tg[R];Slc26a4Δ/Δ IE18.5 mice.