Modulation of Voltage-dependent Properties of a Swelling-activated Cl- Current

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J. Cell Biol.
© The Rockefeller University Press
0022-1295/97/08/313/13 $2.00
Volume 110, Number 2, August 1, 1997 313-325

Modulation of Voltage-dependent Properties of a Swelling-activated Cl Current

Thomas Voets, Guy Droogmans, and Bernd Nilius

From KU Leuven, Laboratorium voor Fysiologie, Campus Gasthuisberg, B-3000 Leuven, Belgium

We used the patch-clamp technique to study the voltage-dependent properties of the swelling-activated Cl current (I_Cl,swell) in BC₃H1 myoblasts. This Cl current is outwardly rectifying and exhibits time-dependent inactivationat positive potentials (potential for half-maximal inactivationof +75 mV). Single-channel Cl currents with similar voltage-dependent characteristics couldbe measured in outside-out patches pulled from swollen cells.The estimated single-channel slope conductance in the region between+60 and +140 mV was 47 pS. The time course of inactivation waswell described by a double exponential function, with a voltage-independentfast time constant (~60 ms) and a voltage-dependent slow timeconstant (>200 ms). Recovery from inactivation, which occurredover the physiological voltage range, was also well describedby a double exponential function, with a voltage-dependent fasttime constant (10-80 ms) and a voltage-dependent slow time constant(>100 ms). The inactivation process was significantly acceleratedby reducing the pH, increasing the Mg²⁺ concentration or reducing the Cl concentration of the extracellular solution. Replacing extracellularCl by other permeant anions shifted the inactivation curve in parallelwith their relative permeabilities (SCN > I > NO₃ > Cl >> gluconate). A leftward shift of the inactivation curve couldalso be induced by channel blockers. Additionally, the permeantanion and the channel blockers, but not external pH or Mg²⁺, modulated the recovery from inactivation. In conclusion, ourresults show that the voltage-dependent properties of I_Cl,swellare strongly influenced by external pH , external divalent cations,and by the nature of the permeant anion.

Key words: anion channel; hypotonic cell swelling; kinetic model; voltage dependence

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J. Cell Biol. © The Rockefeller University Press0022-1295/97/08/313/13 $2.00 Volume 110, Number 2, August 1, 1997 313-325

Modulation of Voltage-dependent Properties of a Swelling-activated Cl Current

J. Cell Biol.
© The Rockefeller University Press
0022-1295/97/08/313/13 $2.00
Volume 110, Number 2, August 1, 1997 313-325