Effects of mutations in M4 of the gastric H+,K+-ATPase on inhibition kinetics of SCH28080.

Abstract

The effects of site-directed mutagenesis were used to explore the role of residues in M4 on the apparent Ki of a selective, K+-competitive inhibitor of the gastric H+,K+ ATPase, SCH28080. A double transfection expression system is described, utilizing HEK293 cells and separate plasmids encoding the alpha and beta subunits of the H+,K+-ATPase. The wild-type enzyme gave specific activity (micromoles of Pi per hour per milligram of expressed H+,K+-ATPase protein), apparent Km for ammonium (a K+ surrogate), and apparent Ki for SCH28080 equal to the H+, K+-ATPase purified from hog gastric mucosa. Amino acids in the M4 transmembrane segment of the alpha subunit were selected from, and substituted with, the nonconserved residues in M4 of the Na+, K+-ATPase, which is insensitive to SCH28080. Most of the mutations produced competent enzyme with similar Km,app values for NH4+ and Ki,app for SCH28080. SCH28080 affinity was decreased 2-fold in M330V and 9-fold in both M334I and V337I without significant effect on Km,app. Hence methionine 334 and valine 337 participate in binding but are not part of the NH4+ site. Methionine 330 may be at the periphery of the inhibitor site, which must have minimum dimensions of approximately 16 x 8 x 5 A and be accessible from the lumen in the E2-P conformation. Multiple sequence alignments place the membrane surface near arginine 328, suggesting that the side chains of methionine 334 and valine 337, on one side of the M4 helix, project into a binding cavity within the membrane domain.