pH-stat experiments in proximal renal tubules

Summary The pH-stat technique has been used to measure H⁺ fluxes in gastric mucosa and urinary bladder in vitro while keeping mucosal pH constant. We now report application of this method in renal tubules. We perfused proximal tubules with double-barreled micropipettes, blocked luminal fluid columns with oil and used a double-barreled Sb/reference microelectrode to measure pH, and Sb or 1n HC1-filled microelectrodes to inject OH^– or H⁺ ions into the tubule lumen. By varying current injection, pH was kept constant at adjustable levels by an electronic clamping circuit. We could thus obtain ratios of current (nA) to pH change (apparent H⁺-ion conductance). These ratios were reduced after luminal 10^–4m acetazolamide, during injection of OH^–, but they increased during injection of H⁺. The point-like injection source causes pH to fall off with distance from the injecting electrode tip even in oil-blocked segments. Therefore, a method analogous to cable analysis was used to obtain H⁺ fluxes per cm² epithelium. The relation betweenJ_H⁺ and pH gradient showed saturation kinetics of H fluxes, both during OH^– and H⁺ injection. This kinetic behavior is compatible with inhibition ofJ_H by luminal H⁺. It is also compatible with dependence on Na⁺ and H⁺ gradients of a saturable Na/H exchanger. H⁺-ion back-flux into the tubule lumen also showed saturation kinetics. This suggests that H⁺ flow is mediated by a membrane component, most likely the Na⁺–H⁺ exchanger.