Leucine transport coupled to proton movement in membrane vesicles from Chang liver cells.

Leucine transport into membrane vesicles obtained from Chang liver cells was stimulated by an inward H+ gradient. The stimulatory effect of the proton gradient on the rate of leucine uptake (1 min) was inhibited by the presence of carbonyl cyanide p-trifluoromethoxyphenylhydrazone. When the vesicles had been preloaded with a high concentration of KCl, addition of valinomycin stimulated leucine uptake by the vesicles, showing that the leucine transport is dependent on potential gradient. Leucine-coupled H+ accumulation inside the vesicles was confirmed by measuring leucine dependent quenching of the fluorescence of 9-aminoacridine added to medium. These results imply that electrochemical gradient of proton can serve as a driving force for leucine transport across the cell membrane and proton movement is coupled to leucine transport.