Mechano-electrical transduction currents in isolated vestibular hair cells of the chick.

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Mechano-electrical transduction currents in isolated vestibular hair cells of the chick.

H Ohmori

Properties of a mechano-electrical transduction channel werestudied in enzymatically dissociated chick vestibular hair cellsby using a whole-cell recording variation of the patch voltage-clamptechnique. The apical hair bundle was stimulated by a glassrod which moved along a one-dimensional axis when stimulatedby either a triangular or a trapezoidal command voltage. Themotion of the glass rod was monitored optically using a photodiode.In response to triangular stimuli, the hair cell generated acurrent of triangular wave form with occasional step-like spikyor zigzag-appearing events. Control experiments confirmed thatthe current was generated only when the hair bundle was displacedtowards the tallest stereocilium. The mechano-sensitive currentwas blocked by streptomycin and by neomycin. The blockage bystreptomycin was clearly voltage dependent: the reduction ofthe current became larger with hyperpolarization of the membrane.This suggests that the positively charged antibiotic moleculesplug the mechanically gated channels. From the evidence presentedin 3 and 4 above, the mechano-sensitive current recorded herewas identified as the mechano-electrical transduction (m-e.t.)current. The permeability of the m-e.t. channel to various monovalentcations was determined from reversal potential measurements.Since a CsCl-EGTA intracellular medium was used, all the permeabilitieswere calculated relative to PCs. The sequence of permeabilitieswas Li greater than Na greater than or equal to K greater thanor equal to Rb greater than Cs greater than choline greaterthan TMA greater than TEA. External Ca ions were indispensablefor the recording of transduction current and Sr ions couldreplace Ca ions without loss of the transduction activity. Theminimum [Ca]o for stable generation of the m-e.t. current was20 microM in Cs saline. The addition of 50-200 microM-Ca tothe isotonic Ba saline could maintain the m-e.t. current. Them-e.t. current was observed in isotonic Ca and in Sr salines.Isotonic Ba, Mg and Mn salines were enriched with 1-2 mM-Cain order to generate the m-e.t. current. The permeabilitiesof the divalent cations relative to Cs were calculated fromthe reversal potentials, and the sequence of permeabilitiesamong divalent cations was Ca greater than Sr greater than Bagreater than Mn greater than Mg. Step-like m-e.t. currents wereobserved in Cs saline. The smallest step amplitude with clearresolution had a conductance of 49.7 +/- 4.5 pS (mean +/- S.D.,n = 7 cells). This is likely to be an elementary m-e.t. channelconductance.(ABSTRACT TRUNCATED AT 400 WORDS)

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				J. R. Meyers, R. B. MacDonald, A. Duggan, D. Lenzi, D. G. Standaert, J. T. Corwin, and D. P. Corey Lighting up the Senses: FM1-43 Loading of Sensory Cells through Nonselective Ion Channels J. Neurosci., May 15, 2003; 23(10): 4054 - 4065. [Abstract] [Full Text] [PDF]

				A. Ricci Differences in Mechano-Transducer Channel Kinetics Underlie Tonotopic Distribution of Fast Adaptation in Auditory Hair Cells J Neurophysiol, April 1, 2002; 87(4): 1738 - 1748. [Abstract] [Full Text] [PDF]

				J. E. Gale, W. Marcotti, H. J. Kennedy, C. J. Kros, and G. P. Richardson FM1-43 Dye Behaves as a Permeant Blocker of the Hair-Cell Mechanotransducer Channel J. Neurosci., September 15, 2001; 21(18): 7013 - 7025. [Abstract] [Full Text] [PDF]

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