K+-stimulated ATPase in purified microsomes of bullfrog oxyntic cells

Differential centrifugation of oxyntic cell homogenates yielded microsomal fractions which contained large amounts of mitochondrial membrane. The presence of marker enzymes (succinate dehydrogenase and cytochrome c oxidase) indicated that mitochondrial contamination of crude microsomes ranged from 20 to 60% in different preparations. A discontinuous sucrose density gradient procedure was developed for the routine preparation of purified oxyntic cell microsomes. A K⁺-stimulated, Mg²⁺-requiring ATPase was localized in these purified membranes and coincided with the presence of a K⁺-stimulated p-nitrophenylphosphatase. Na⁺ and ouabain had no effect on the K⁺ stimulation of the microsomal ATPase. The apparent activation constant for K⁺ was approximately 1 mM at pH 7.5, the optimal pH for stimulation.An anion-sensitive ATPase has been widely studied in gastric microsomal preparations. We found that the basal microsomal ATPase (i.e. without K⁺) and the mitochondrial ATPase were inhibited by SCN^? and enhanced by HCO₃^?, however, the K⁺-stimulated component of the microsomal ATPase was virtually unaffected by these anions.