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

Autor: Thomas J. Jentsch, Nicola Strenzke, Hannes Maier, Adrian Muenscher, Corina E. Andreescu, Gesa Rickheit, Chris I. De Zeeuw, Anselm A. Zdebik
Přispěvatelé: Pathology/molecular and cellular medicine, Diabetes Clinic
Rok vydání: 2008
Předmět:
Endolymph
Endocrinology
Diabetes and Metabolism
Deafness
Congenital hearing loss
Evoked Potentials/physiology
Hair Cells
Auditory/metabolism
0302 clinical medicine
Stria Vascularis/pathology
Evoked Potentials
Mice
Knockout
0303 health sciences
DNA-Binding Proteins/metabolism
endolymph
SOXE Transcription Factors
General Neuroscience
High Mobility Group Proteins
Stria Vascularis
Sox10
Inner Ear
Otoacoustic Emission
Anion Transport
Potassium Recycling
High Mobility Group Proteins/metabolism
Cochlea
DNA-Binding Proteins
Deafness/complications
medicine.anatomical_structure
Cochlea/metabolism
Chloride channel
Vestibule
Labyrinth/metabolism
Mechanosensitive channels
Vestibule
Labyrinth
medicine.medical_specialty
mice
Endocochlear potential
Biology
Bartter syndrome
Models
Biological
Article
Chloride Channels/metabolism
General Biochemistry
Genetics and Molecular Biology
03 medical and health sciences
Chloride Channels
Internal medicine
Hair Cells
Auditory
otorhinolaryngologic diseases
medicine
Animals
Humans
Transcription Factors/metabolism
Inner ear
Molecular Biology
030304 developmental biology
Integrases
General Immunology and Microbiology
Bartter Syndrome
Membrane Proteins
medicine.disease
Mice
Inbred C57BL
Endocrinology
Membrane Proteins/metabolism
sense organs
Bartter Syndrome/complications
Gene Deletion
030217 neurology & neurosurgery
Transcription Factors
Integrases/metabolism
Zdroj: The EMBO journal, 27(21): 2809-2942
ISSN: 1460-2075
0261-4189
Popis: 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.
Databáze: OpenAIRE
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