Lysosomal membrane adenosine triphosphatase; solubilization and partial characterization

Membranes prepared from Triton WR-1339-filled lysosomes (tritosomes) contained ATPase activity with a pH optimum of 5–8. These membranes also showed adenosine diphosphatase, adenosine monophosphatase, acid β-glycerol phosphatase, and acid pyrophosphatase activities. The soluble (nonmembrane) fraction of the tritosomes also contained these activities, but the properties of the soluble adenine nucleotide phosphatase activities were different from the membrane-associated enzymes. The pH optimum of tritosomal membrane ATPase changed to 5 after solubilization with Triton X-100, but ADPase and AMPase optima remained at 6–7. The pH optimum of intact membrane ATPase was also 5 when the substrate was α,β-methylene-ATP. Thus, tritosomal membrane ATPase apparently exhibits a pH 8 optimum only when acting in concert with ADPase and AMPase in intact membranes. Rates of ATP hydrolysis to adenosine were also significantly greater in intact membranes than in Triton X-100-solubilized fraction. Centrifugation of Triton X-100-solubilized tritosomal membranes in sucrose density gradients showed that ATPase and ADPase activities sedimented to one peak, and that AMPase, acid phosphatase, and pyrophosphatase were grouped in another peak. Thus, tritosomal membrane ATPase activity was not due to the latter enzymes. The resulting purification was about fourfold for ATPase. The Mr for ATPase and ADPase was estimated to be about 65,000 and for AMPase, acid phosphatase, and pyrophosphatase about 200,000.