Chemical modification of gastric microsomal potassium-stimulated ATPase

Selective chemical modification was used to examine amino acid residues that might be critical for the operation of the gastric K⁺-stimulated ATPase. Modification of amino groups with the fluorigenic reagent 2-methoxy-2,4-diphenyl-3-dihydrofuranone resulted in selective inhibition of the K⁺-stimulated ATPase and H⁺-transporting activities of the gastric microsomes, while the Mg²⁺-ATPase was not affected. Half-maximal inhibition occurred at about 3 μg 2-methoxy-2,4-diphenyl-3-dihydrofuranone/ml at pH 8.5. ATP provided complete protection against inhibition; the apparent K_m for ATP protection was about 50 μM. Nucleotide selectivity for protection was ATP > ADP > ITP > GTP > CTP > AMP. Sodium dodecyl sulfate gel electrophoresis of the reacted microsomes showed that virtually all the fluorescent label was on the M_r 100 000 peptide band, a very small peptide, and aminolipids. In the presence of ATP there was about 75% reduction in the fluorescent label on the M_r 100 000 peptide, but no change in the labeling of the other components. The arginine specific reagent, butanedione, inhibited Mg²⁺-ATPase and K⁺-ATPase activities, with the former being much less reactive. Similar to 2-methoxy-2,4-diphenyl-3-dihydrofuranone, ATP provided complete protection from butanedione treatment. It is concluded that amino and guanidino groups are critical to the function of the K⁺-ATPase and may be actually at the ATP binding site.