Site-Directed Mutagenesis of Cation Coordinating Residues in the Gastric H,K-ATPase

Site-mutations were introduced into putative cation binding site 1 of the H,K-ATPase at glu-797, thr-825, and glu-938. The side chain oxygen of each was not essential but the mutations produced different activation and inhibition kinetics. Site mutations thr-825 (ala, leu) and glu-938 (ala, gln) modestly decreased the apparent affinity to K+, while glu-797 (gln) was equivalent to wild type. As expected of competitive inhibition, mutations of thr-825 and glu-938 that decreased the apparent affinity for K+ also increased the apparent affinity for SCH28080. This is consistent with the participation of thr-825 and glu-938 in a cation binding domain. The sidechain geometry, but not the sidechain charge of glu-797, is essential to ATPase function as the site mutant glu-797 (gly) inactivated the H,K-ATPase, while glu-797 (gln) was active but the apparent affinity to SCH 28080 was decreased by fourfold. Lys-793, a unique residue of the H,K-ATPase, was essential for ATPase function. Since this residue is adjacent to site 1, the result suggests that charge pairing between lys-793 and residues at or near this site may be essential to ATPase function.