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The Journal of Neuroscience, December 15, 2000, 20(24):8996-9003

Water Permeability of Cochlear Outer Hair Cells: Characterization and Relationship to Electromotility

Inna A. Belyantseva¹, Gregory I. Frolenkov¹, James B. Wade², Fabio Mammano³, and Bechara Kachar¹

¹ Section on Structural Cell Biology, National Institute on Deafness and other Communication Disorders, National Institutes of Health, Bethesda, Maryland 20892, ² Department of Physiology, University of Maryland School of Medicine, Baltimore, Maryland 21201, and ³ Laboratory of Biophysics and Istituto Nazionale di Fisica della Materia, International School for Advanced Studies, Trieste, Italy, 34014

The distinguishing feature of the mammalian outer hair cells (OHCs) is to elongate and shorten at acoustic frequencies, when their intracellular potential is changed. This "electromotility" or "electromechanics" depends critically on positive intracellular pressure (turgor), maintained by the inflow of water through yet uncharacterized water pathways. We measured the water volume flow, J_v, across the plasma membrane of isolated guinea pig and rat OHCs after osmotic challenges and estimated the osmotic water permeability coefficient, P_f, to be ~10² cm/sec. This value is within the range reported for osmotic flow mediated by the water channel proteins, aquaporins. J_v was inhibited by HgCl₂, which is known to block aquaporin-mediated water transport. P_f values that were estimated for OHCs from neonatal rats were of the order of ~2×10³ cm/sec, equivalent to that of membranes lacking water channel proteins. In an immunofluorescence assay we showed that an anti-peptide antibody specific for aquaporins labels the lateral plasma membrane of the OHC in the region in which electromotility is generated. Using patch-clamp recording, we found that water influx into the OHC is regulated by intracellular voltage. We also found that the most pronounced increases of the electromotility-associated charge movement and of the expression of OHC water channels occur between postnatal days 8 and 12, preceding the onset of hearing function in the rat. Our data indicate that electromotility and water transport in OHCs may influence each other structurally and functionally.

Key words: mechanosensory transduction; electromotility; water permeability; aquaporins; voltage-dependent capacitance; postnatal development; organ of Corti; patch clamp

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Copyright © 2000 Society for Neuroscience  0270-6474/00/20248996-08$05.00/0

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				G. I. Frolenkov Regulation of electromotility in the cochlear outer hair cell J. Physiol., October 1, 2006; 576(1): 43 - 48. [Abstract] [Full Text] [PDF]

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