Characterization of inside-out oriented H+-ATPases in cholate-pretreated renal brush-border membrane vesicles

Summary Exposure of porcine renal brush-border membrane vesicles to 1.2% cholate and subsequent detergent removal by dialysis reorients almost all N-ethylmaleimide (NEM)-sensitive ATPases from the vesicle inside to the outside. ATP addition to cholate-pretreated, but not to intact, vesicles causes H⁺ uptake as visualized by the pH indicator, acridine organge. The reoriented H⁺-pump is electrogenic because permeant extravesicular anions or intravesicular K⁺ plus valinomycin enhance H⁺ transport. ATP stimulates H⁺ uptake with an apparentK_m of 93 m. Support of H⁺ uptake andP_i liberation by ATP>GTPITP> UTP indicates a preference for ATP and utilization of other nucleotides at lower efficiency. ADP is a potent, competitive inhibitor of ATP-driven H⁺ uptake,(K_i, 24 m). Mg²⁺ and Mn^2– support ATP-driven H⁺ uptake, but Ca²⁺, Ba²⁺ and Zn²⁺ do not. Imm Zn²⁺ inhibits MgATP-driven H⁺ transport completely. NEM-sensitiveP_i liberation is stimulated by Mg²⁺ and Mg^2– and, unlike H⁺ uptake, also by Ca²⁺ suggesting Ca²⁺-dependent ATP hydrolysis unrelated to H⁺ transport. The inside-out oriented H⁺-pump is relatively insensitive toward oligomycin, azide, N,N-dicyclohexylcarbodiimide (DCCD) and vanadate, but efficiently inhibited by NEM (apparentK_i, 0.77 m), and 4-chloro-7-nitro-benzoxa-1,3-diazole (NBD-Cl; apparentK_i, 0.39 m). Taken together, the H⁺-ATPase of proximal tubular brush-border membranes exhibits characteristics very similar to those of vacuolar type (V-type) H⁺-ATPases. Hence,V-type H⁺-ATPases occur not only in intracellular organelles but also in specialized plasma membrane areas.