High intracellular chloride delays the activation of the volume-sensitive chloride conductance in mouse L-fibroblasts.

1. The relationship between cell volume and volume-sensitive Cl- conductance during hyposmotic cell swelling of patched cells and the effects of intracellular chloride on the conductance have been studied in mouse L-fibroblasts. To this end, swelling-activated current and cell volume were measured simultaneously in cells dialysed with low-Cl- (16 mM) or high-Cl- (130 mM) solutions using the whole-cell patch-clamp technique and videomicroscopy. 2. The increase in cell volume of patched cells and the volume-sensitive conductance saturated during a 4-5 min exposure to mildly hyposmotic solutions (15-20 % less than isosmotic). The swelling of patched cells varied considerably and was greater than the swelling of intact cells. No correlation between the maximal values of the volume-sensitive conductance and the maximal volumes of swollen cells was evident for cells dialysed with the low-Cl- solutions. 3. The amplitude of the volume-sensitive conductance decreased with a reduction in either extracellular or intracellular Cl- concentration; the size of the maximal conductance was not modulated by intracellular Cl- ions. 4. The activation of the volume-sensitive conductance was slower in high-Cl- cells than in low-Cl- cells whether it was induced by hypotonic cell swelling or by cell inflation; in low-Cl- cells the conductance saturated before the cell volume had reached its maximal value. 5. It is concluded that in patched cells an increase in cell volume triggers activation of the volume-sensitive Cl- conductance but does not determine its amplitude and that the rate of activation of the conductance is affected by the intracellular Cl- concentration.