Cell cycle-dependent expression of volume-activated chloride currents in nasopharyngeal carcinoma cells

Patch-clamping and cell imageanalysis techniques were used to study the expression of thevolume-activated Cl current,I_Cl(vol), and regulatory volume decrease (RVD)capacity in the cell cycle in nasopharyngeal carcinoma cells (CNE-2Z). Hypotonic challenge caused CNE-2Z cells to swell and activated aCl current with a linear conductance, negligibletime-dependent inactivation, and a reversal potential close to theCl equilibrium potential. The sequence of anionpermeability was I > Br > Cl > gluconate. The Cl channelblockers tamoxifen, 5-nitro-2-(3-phenylpropylamino)benzoic acid (NPPB),and ATP inhibited I_Cl(vol). Synchronous cultures of cells were obtained by the mitotic shake-off technique and by adouble chemical-block (thymidine and hydroxyurea) technique. Theexpression of I_Cl(vol) was cell cycle dependent,being high in G₁ phase, downregulated in S phase, butincreasing again in M phase. Hypotonic solution activated RVD, whichwas cell cycle dependent and inhibited by the Cl channelblockers NPPB, tamoxifen, and ATP. The expression of I_Cl(vol) was closely correlated with the RVDcapacity in the cell cycle, suggesting a functional relationship.Inhibition of I_Cl(vol) by NPPB (100 µM)arrested cells in G₀/G₁. The data also suggest that expression of I_Cl(vol) and RVD capacity areactively modulated during the cell cycle. The volume-activatedCl current associated with RVD may therefore play animportant role during the cell cycle progress.