Extrasynaptic Localization of Inactivating Calcium-Activated Potassium Channels in Mouse Inner Hair Cells

Extrasynaptic Localization of Inactivating Calcium-Activated Potassium Channels in Mouse Inner Hair Cells

Auditory hair cells from nonmammalian vertebrates are electrically tuned to specific sound frequencies primarily by the interactions of voltage-gated calcium channels and calcium-activated potassium (BK) channels colocalized at synaptic active zones. Mammalian inner hair cells are not electrically t...

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Veröffentlicht in:The Journal of neuroscience 2004-10, Vol.24 (43), p.9469-9474
Hauptverfasser: Pyott, Sonja J, Glowatzki, Elisabeth, Trimmer, James S, Aldrich, Richard W
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Brief Communications
Fluorescent Antibody Technique
Hair Cells, Auditory, Inner - chemistry
Hair Cells, Auditory, Inner - drug effects
Hair Cells, Auditory, Inner - physiology
Hair Cells, Auditory, Inner - ultrastructure
In Vitro Techniques
Large-Conductance Calcium-Activated Potassium Channels
Membrane Potentials - drug effects
Membrane Potentials - physiology
Mice
Mice, Inbred C57BL
Organ of Corti - growth & development
Patch-Clamp Techniques
Peptides - pharmacology
Potassium Channels, Calcium-Activated - analysis
Potassium Channels, Calcium-Activated - antagonists & inhibitors
Potassium Channels, Calcium-Activated - physiology
Subcellular Fractions - chemistry
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Zusammenfassung:Auditory hair cells from nonmammalian vertebrates are electrically tuned to specific sound frequencies primarily by the interactions of voltage-gated calcium channels and calcium-activated potassium (BK) channels colocalized at synaptic active zones. Mammalian inner hair cells are not electrically tuned and, yet, BK channels are also thought to reside at active zones. Using patch-clamp recordings and immunofluorescence, we characterized BK channel expression in mouse inner hair cells. Unexpectedly, these channels have inactivating currents and are clustered near the apex of the cell away from synaptic sites near the base. These results indicate a novel function of BK channels in mammalian inner hair cells and provide a framework for future research.
ISSN:0270-6474
1529-2401
DOI:10.1523/JNEUROSCI.3162-04.2004