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Biophys J. 2013 Dec 17;105(12):2666-75. doi: 10.1016/j.bpj.2013.11.021.

Non-uniform distribution of outer hair cell transmembrane potential induced by extracellular electric field.

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Oregon Hearing Research Center, Department of Otolaryngology, Oregon Health & Science University, Portland, Oregon.
Oregon Hearing Research Center, Department of Otolaryngology, Oregon Health & Science University, Portland, Oregon; Kresge Hearing Research Institute, University of Michigan, Ann Arbor, Michigan. Electronic address:


Intracochlear electric fields arising out of sound-induced receptor currents, silent currents, or electrical current injected into the cochlea induce transmembrane potential along the outer hair cell (OHC) but its distribution along the cells is unknown. In this study, we investigated the distribution of OHC transmembrane potential induced along the cell perimeter and its sensitivity to the direction of the extracellular electric field (EEF) on isolated OHCs at a low frequency using the fast voltage-sensitive dye ANNINE-6plus. We calibrated the potentiometric sensitivity of the dye by applying known voltage steps to cells by simultaneous whole-cell voltage clamp. The OHC transmembrane potential induced by the EEF is shown to be highly nonuniform along the cell perimeter and strongly dependent on the direction of the electrical field. Unlike in many other cells, the EEF induces a field-direction-dependent intracellular potential in the cylindrical OHC. We predict that without this induced intracellular potential, EEF would not generate somatic electromotility in OHCs. In conjunction with the known heterogeneity of OHC membrane microdomains, voltage-gated ion channels, charge, and capacitance, the EEF-induced nonuniform transmembrane potential measured in this study suggests that the EEF would impact the cochlear amplification and electropermeability of molecules across the cell.

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