Relationship between intracellular pH and chloride in Xenopus oocytes expressing the chloride channel ClC-0

During maturation of oocytes,Cl conductance (G_Cl) oscillatesand intracellular pH (pH_i) increases. ElevatingpH_i permits the protein synthesis essential to maturation.To examine whether changes in G_Cl andpH_i are coupled, the Cl channel ClC-0 washeterologously expressed. Overexpressing ClC-0 elevatespH_i, decreases intracellular Cl concentration([Cl]_i), and reduces volume. Acuteacidification with butyrate does not activate acid extrusion inClC-0-expressing or control oocytes. The ClC-0-induced pH_ichange increases after overnight incubation at extracellular pH 8.5 butis unaltered after incubation at extracellular pH 6.5. Membranedepolarization did not change pH_i. In contrast, hyperpolarization elevates pH_i. Thus neither membranedepolarization nor acute activation of acid extrusion accounts for theClC-0-dependent alkalinization. Overnight incubation in lowextracellular Cl concentration increases pH_iand decreases [Cl]_i in control and ClC-0expressing oocytes, with the effect greater in the latter. Incubationin hypotonic, low extracellular Cl solutions preventedpH_i elevation, although the decrease in[Cl]_i persisted. Taken together, ourobservations suggest that KCl loss leads to oocyte shrinkage, whichtransiently activates acid extrusion. In conclusion, expressing ClC-0in oocytes increases pH_i and decreases[Cl]_i. These parameters are coupled viashrinkage activation of proton extrusion. Normal, cyclical changes ofoocyte G_Cl may exert an effect onpH_i via shrinkage, thus inducing meiotic maturation.