Journal
NEURON
Volume 70, Issue 6, Pages 1143-1154Publisher
CELL PRESS
DOI: 10.1016/j.neuron.2011.04.024
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Funding
- National Institutes on Deafness and other Communication Disorders [RO1 DC01362]
- Wellcome Trust [088719]
- RNID [G41]
- RNID [G41] Funding Source: researchfish
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Outer hair cells (OHCs) provide amplification in the mammalian cochlea using somatic force generation underpinned by voltage-dependent conformational changes of the motor protein prestin. However, prestin must be gated by changes in membrane potential on a cycle-by-cycle basis and the periodic component of the receptor potential may be greatly attenuated by low-pass filtering due to the OHC time constant (tau(m)), questioning the functional relevance of this mechanism. Here, we measured tau(m) from OHCs with a range of characteristic frequencies (CF) and found that, at physiological endolymphatic calcium concentrations, approximately half of the mechanotransducer (MT) channels are opened at rest, depolarizing the membrane potential to near -40 mV. The depolarized resting potential activates a voltage-dependent K+ conductance, thus minimizing tau(m) and expanding the membrane filter so there is little receptor potential attenuation at the cell's CF. These data suggest that minimal tau(m) filtering in vivo ensures optimal activation of prestin.
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