Because proton secretion and K+ reabsorption in the late distal tubule of amphibians are active, we evaluated whether these processes could be mediated by an H(+)-K(+)-ATPase similar to the gastric H(+)-K+ pump and to the K(+)-ATPase previously described in the terminal segments of the mammalian nephron. K(+)-stimulated ATPase activity was detected in microdissected segments of frog and Necturus nephron: its activity was high in the late distal and collecting tubules, whereas it was undetectable in the proximal convoluted tubule and early distal tubule. In frog collecting tubule, K(+)-ATPase had a high affinity for K+ (Km approximately 0.30 mM), was inhibited by vanadate, omeprazole, and the imidazopyridine Sch 28080, and was insensitive to ouabain. Furthermore, in vivo administration of Sch 28080 to anesthetized Necturus induced a significant rise of the steadystate intratubular pH in the late distal tubule, demonstrating that this drug inhibited tubular fluid acidification. It is suggested that K(+)-ATPase present in the terminal segments of amphibian nephron is similar to the gastric H(+)-K+ pump and is involved in urinary acidification.