Effects of insulin and phosphatase on a Ca2(+)-dependent Cl- channel in a distal nephron cell line (A6)

A Cl- channel with a small single-channel conductance (3 pS) was observed in cell-attached patches formed on the apical membrane of cells from the distal nephron cell line (A6) cultured on permeable supports. The current-voltage (I-V) relationship from cell-attached patches or inside-out patches with 1 microM cytosolic Ca2+ strongly rectified with no inward current at potentials more negative than ECl. However, the rectification decreased (i.e., inward current increased) when the cytosolic Ca2+ concentration (Ca2+]i) was increased above 1 microM. If Ca2+]i is increased to 800 microM, the I-V relationship became linear. Besides the change in the I-V relationship, an increase in Ca2+]i also increases the open probability of the channel. Regardless of the recording condition, the channel has one open and one closed state. Both closing and opening rates were dependent on Ca2+]i; an increase of Ca2+]i decreased the closing rate and increased the opening rate. The Ca2+ dependence of transition rates at positive membrane potentials (cell interior with respect to external surface) were much larger than the dependence at negative intracellular potentials. The I-V relationship of chloride channels in inside-out patches from cells pretreated with insulin was linear even with 1 microM Ca2+]i, while channel currents from cells under similar conditions but without insulin still strongly rectified. Alkaline phosphatase applied to the intracellular surface of inside-out patches altered the outward rectification of single channels in a manner qualitatively similar to that of insulin pretreatment. These observations suggest that phosphorylation/dephosphorylation of the channel modulates the sensitivity of the Cl- channel to cytosolic Ca2+ and that insulin produces its effect by promoting dephosphorylation of the channel.