Gap junctions and cochlear homeostasis

Publikation: Beitrag in FachzeitschriftÜbersichtsarbeitForschungPeer-Review

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  • University of Kentucky
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Details

OriginalspracheEnglisch
Seiten (von - bis)177-86
Seitenumfang10
FachzeitschriftThe journal of membrane biology
Jahrgang209
Ausgabenummer2-3
PublikationsstatusVeröffentlicht - 15 Juni 2006

Abstract

Gap junctions play a critical role in hearing and mutations in connexin genes cause a high incidence of human deafness. Pathogenesis mainly occurs in the cochlea, where gap junctions form extensive networks between non-sensory cells that can be divided into two independent gap junction systems, the epithelial cell gap junction system and the connective tissue cell gap junction system. At least four different connexins have been reported to be present in the mammalian inner ear, and gap junctions are thought to provide a route for recycling potassium ions that pass through the sensory cells during the mechanosensory transduction process back to the endolymph. Here we review the cochlear gap junction networks and their hypothesized role in potassium ion recycling mechanism, pharmacological and physiological gating of cochlear connexins, animal models harboring connexin mutations and functional studies of mutant channels that cause human deafness. These studies elucidate gap junction functions in the cochlea and also provide insight for understanding the pathogenesis of this common hereditary deafness induced by connexin mutations.

Zitieren

Gap junctions and cochlear homeostasis. / Zhao, H-B; Kikuchi, T; Ngezahayo, A et al.
in: The journal of membrane biology, Jahrgang 209, Nr. 2-3, 15.06.2006, S. 177-86.

Publikation: Beitrag in FachzeitschriftÜbersichtsarbeitForschungPeer-Review

Zhao HB, Kikuchi T, Ngezahayo A, White TW. Gap junctions and cochlear homeostasis. The journal of membrane biology. 2006 Jun 15;209(2-3):177-86. doi: 10.1007/s00232-005-0832-x
Zhao, H-B ; Kikuchi, T ; Ngezahayo, A et al. / Gap junctions and cochlear homeostasis. in: The journal of membrane biology. 2006 ; Jahrgang 209, Nr. 2-3. S. 177-86.
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T1 - Gap junctions and cochlear homeostasis

AU - Zhao, H-B

AU - Kikuchi, T

AU - Ngezahayo, A

AU - White, T W

PY - 2006/6/15

Y1 - 2006/6/15

N2 - Gap junctions play a critical role in hearing and mutations in connexin genes cause a high incidence of human deafness. Pathogenesis mainly occurs in the cochlea, where gap junctions form extensive networks between non-sensory cells that can be divided into two independent gap junction systems, the epithelial cell gap junction system and the connective tissue cell gap junction system. At least four different connexins have been reported to be present in the mammalian inner ear, and gap junctions are thought to provide a route for recycling potassium ions that pass through the sensory cells during the mechanosensory transduction process back to the endolymph. Here we review the cochlear gap junction networks and their hypothesized role in potassium ion recycling mechanism, pharmacological and physiological gating of cochlear connexins, animal models harboring connexin mutations and functional studies of mutant channels that cause human deafness. These studies elucidate gap junction functions in the cochlea and also provide insight for understanding the pathogenesis of this common hereditary deafness induced by connexin mutations.

AB - Gap junctions play a critical role in hearing and mutations in connexin genes cause a high incidence of human deafness. Pathogenesis mainly occurs in the cochlea, where gap junctions form extensive networks between non-sensory cells that can be divided into two independent gap junction systems, the epithelial cell gap junction system and the connective tissue cell gap junction system. At least four different connexins have been reported to be present in the mammalian inner ear, and gap junctions are thought to provide a route for recycling potassium ions that pass through the sensory cells during the mechanosensory transduction process back to the endolymph. Here we review the cochlear gap junction networks and their hypothesized role in potassium ion recycling mechanism, pharmacological and physiological gating of cochlear connexins, animal models harboring connexin mutations and functional studies of mutant channels that cause human deafness. These studies elucidate gap junction functions in the cochlea and also provide insight for understanding the pathogenesis of this common hereditary deafness induced by connexin mutations.

KW - Animals

KW - Cochlea/metabolism

KW - Connexins/genetics

KW - Disease Models, Animal

KW - Gap Junctions/metabolism

KW - Hearing Loss/genetics

KW - Homeostasis/genetics

KW - Humans

KW - Mice

KW - Mutation

U2 - 10.1007/s00232-005-0832-x

DO - 10.1007/s00232-005-0832-x

M3 - Review article

C2 - 16773501

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JO - The journal of membrane biology

JF - The journal of membrane biology

SN - 0022-2631

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ER -

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