Endocochlear potential depends on Cl- channels: mechanism underlying deafness in Bartter syndrome IV

Gesa Rickheit, Hannes Maier, Nicola Strenzke, Corina E Andreescu, Chris I De Zeeuw, Adrian Muenscher, Anselm A Zdebik, Thomas J Jentsch

Research output: Contribution to journalArticlepeer-review

92 Citations (Scopus)

Abstract

Human Bartter syndrome IV is an autosomal recessive disorder characterized by congenital deafness and severe renal salt and fluid loss. It is caused by mutations in BSND, which encodes barttin, a beta-subunit of ClC-Ka and ClC-Kb chloride channels. Inner-ear-specific disruption of Bsnd in mice now reveals that the positive potential, but not the high potassium concentration, of the scala media depends on the presence of these channels in the epithelium of the stria vascularis. The reduced driving force for K(+)-entry through mechanosensitive channels into sensory hair cells entails a profound congenital hearing loss and subtle vestibular symptoms. Although retaining all cell types and intact tight junctions, the thickness of the stria is reduced early on. Cochlear outer hair cells degenerate over several months. A collapse of endolymphatic space was seen when mice had additionally renal salt and fluid loss due to partial barttin deletion in the kidney. Bsnd(-/-) mice thus demonstrate a novel function of Cl(-) channels in generating the endocochlear potential and reveal the mechanism leading to deafness in human Bartter syndrome IV.

Original languageEnglish
Pages (from-to)2907-2917
Number of pages11
JournalEMBO Journal
Volume27
Issue number21
DOIs
Publication statusPublished - 5 Nov 2008

Keywords

  • Animals
  • Bartter Syndrome/complications
  • Chloride Channels/metabolism
  • Cochlea/metabolism
  • DNA-Binding Proteins/metabolism
  • Deafness/complications
  • Endolymph
  • Evoked Potentials/physiology
  • Gene Deletion
  • Hair Cells, Auditory/metabolism
  • High Mobility Group Proteins/metabolism
  • Humans
  • Integrases/metabolism
  • Membrane Proteins/metabolism
  • Mice
  • Mice, Inbred C57BL
  • Mice, Knockout
  • Models, Biological
  • SOXE Transcription Factors
  • Stria Vascularis/pathology
  • Transcription Factors/metabolism
  • Vestibule, Labyrinth/metabolism

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