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School of Life Sciences, University of Sussex, Falmer, Brighton BN1 9QG, UK

Ca²⁺-activated K⁺ currents were studied in inner hair cells (IHCs) of mature mice. I_K,f, the large-conductance Ca²⁺-activated K⁺ current (BK) characteristic of mature IHCs, had a fast activation time constant (0.4 ms at –25 mV at room temperature) and did not inactivate during 170 ms. Its amplitude, measured at –25 mV, and activation time constant were similar between IHCs in the apical and basal regions of the cochlea. I_K,f was selectively blocked by 30 nM IbTx but was unaffected by superfusion of Ca²⁺-free solution, nifedipine or Bay K 8644, excluding the direct involvement of voltage-gated Ca²⁺ channels in I_K,f activation. Increasing the intracellular concentration of the Ca²⁺ chelator BAPTA from 0.1 mM to 30 mM reduced the amplitude of I_K,f at –25 mV and shifted its activation by 37 mV towards more depolarized potentials. A reduction in the size of I_K,f and a depolarizing shift of its activation were also seen when either thapsigargin and caffeine or ryanodine were added intracellularly, suggesting that I_K,f is modulated by voltage-dependent release from intracellular Ca²⁺ stores. Mature IHCs had a small additional Ca²⁺-activated K⁺ current (I_K(Ca)), activated by Ca²⁺ flowing through L-type Ca²⁺ channels. This current was still present during superfusion of either IbTx (60 nM) or apamin (300 nM) but was abolished in Cs⁺-based intracellular solution or during superfusion of 5 mM TEA, suggesting the presence of an additional BK-channel type. Current clamp experiments at body temperature show that I_K,f, but not I_K(Ca), is essential for fast voltage responses of mature IHCs.

(Received 22 December 2003; accepted after revision 30 March 2004; first published online 2 April 2004)
Corresponding author C. J. Kros: School of Life Sciences, University of Sussex, Falmer, Brighton BN1 9QG, UK. Email: c.j.kros{at}sussex.ac.uk

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