Solubilization and reconsitution of renal brush border Na+−H+ exchanger

Abstract

In order to permit future characterization and possible isolation of the Na⁺−H⁺ exchanger from the apical membrane of proximal tubular cells, studies were performed to solubilize and reconstitute this transporter. Rabbit brush border membranes were prepared by a magnesium aggregation method, solubilized with the detergent octyl glucoside, and reconstituted into artificial phospholipid vesicles. In the presence of a pH gradient (pH_in 6.0, pH_out 8.0), the uptake of 1mm ²²Na⁺ into the proteoliposomes was five- to sevenfold higher than into liposomes. Amiloride (2mm) inhibited proton gradient-stimulated uptake of sodium by 50%. As compared to proton gradient conditions, the uptake of sodium was lower in the absence of a pH gradient but was significantly higher when the outside and inside pH was 6.0 than 8.0. TheK _a for sodium in reconstituted proteoliposomes studied under pH gradient conditions was 4mm. The uptake of sodium in proteoliposomes prepared from heat-denatured membrane proteins was significantly decreased. These studies demonstrate that proteoliposomes prepared from octyl glucoside-solubilized brush border membrane proteins and asolectin exhibit proton gradient-stimulated, amiloride-inhibitable, electroneutral uptake of sodium. The ability to solubilize and reconstitute the Na⁺−H⁺ exchanger from the apical membrane of the proximal tubule will be of value in isolating and characterizing this transporter.