Relative lack of ATP-driven H+ translocase activity in isolated parotid secretory granules.

The possible presence of ATP-driven H+ translocase activity in isolated rat parotid secretory granules has been examined by several approaches. First the transmembrane pH difference measured by either [14C] methylamine or [3H]acetate distribution is not substantially affected by ATP in the presence of membrane-permeating anions. Second, despite a low intrinsic H+ permeability of parotid granule membranes, only a small variably detectable inside-positive transmembrane potential is observed (by altered distribution of radioactive ions) when ATP is added in the absence of permeant anions. Third, ATP-induced lysis of parotid granules is minor and appears to be independent of ATP hydrolysis. Finally, ATP-hydrolase activity of the parotid granule fraction is not stimulated by an H+ ionophore, nor is it susceptible to inhibition by 7-chloro-4-nitrobenz-2-oxa-1,3-diazole at a concentration which decreases the measured ATPase of purified chromaffin granule membranes by more than 80%. These findings suggest that this exocrine secretory granule type, which is characterized by storage of a heterogeneous mixture of secretory proteins, exhibits H+ pump activity which is at most a small fraction of that observed in biogenic amine storage granules of neural and endocrine tissues.