Effects of anions on ATP-activated nonselective cation current in NG108-15 cells.

Abstract

Extracellular ATP induces a nonselective cation current and elevates intracellular Ca2+ concentration via P2Z receptors in NG108-15 cells. We found that the ATP-induced nonselective cation current became larger in methanesulfonic acid (MS-) than in Cl- external solution. We therefore examined the effects of various external anions on the ATP-induced cation current with the use of the whole cell patch-clamp technique. The concentration-response curves for ATP were obtained in different anionic external solutions. The maximum current density (Imax) and the concentration of agonist that gives 50% of maximum response (EC50) value of ATP were obtained by fitting the curves with the use of the Hill coefficient of 2. The apparent Imax decreased in the order of aspartic acid (Asp-) > MS- > F- > Cl- > Br- > or = I-. The apparent EC50 values for ATP were shifted to the right in the sequence of Asp- < F- < MS- < Br- < Cl- < I-. Thus both Imax and EC50 values were affected by anions, indicating that anions are mixed-type inhibitors of the ATP-induced current. The shift of the EC50 values of ATP indicates that anions interfere with ATP binding to the receptor. External Cl- was a noncompetitive inhibitor with respect to external Na+, a major cation carrying the ATP-induced current. We conclude that extracellular anions inhibit the ATP-induced nonselective cation current at least partly by interfering with ATP binding to the P2Z receptor, which is associated with the nonselective cation channels.