Cell pH and luminal acidification inNecturus proximal tubule

Abstract

Cellular potential and pH measurements (pH _i ) were carried out in the perfused kidney ofNecturus on proximal tubules with standard and recessed-tip glass microelectrodes under control conditions and after stimulation of tubular bicarbonate reabsorption. Luminal pH and net bicarbonate reabsorption were measured in parallel experiments with recessed-tip glass or antimony electrodes, both during stationary microperfusions as well as under conditions of isosmotic fluid transport. A mean cell pH of 7.15 was obtained in control conditions. When the luminal bicarbonate concentration was raised to 25 and 50mm, pH _i rose to 7.44 and 7.56, respectively. These changes in pH _i were fully reversible. Under all conditions intracellular H⁺ was below electrochemical equilibrium. Thus the maintenance of intracellular pH requires “active” H⁺ extrusion across one or both of the cell membranes. The observed rise in pH _i and the peritubular depolarization after stimulation of bicarbonate reabsorption are consistent with enhanced luminal hydrogen ion secretion and augmentation of peritubular bicarbonate exit via an anion-conductive transport pathway.