Bafilomycin Inhibits Vacuolar pH Regulation in a Fresh Water Charophyte,Chora corallina

Bafilomycin A₁, known as an inhibitor of vacuolar type H⁺-ATPase, was used to study involvement of the vacuolar ATP-dependent H⁺-pump in the vacuolar pH regulation in a fresh water charophyte, Chara corallina. When bafilomycin A₁ (100 nM) was externally given to intact cells, the vacuolar pH (about 5) was not affected. Internodal cells were then pretreated with 100 nM bafilomycin for 1 ? 2 h and the vacuolar sap was replaced with a weakly buffered solution of pH 7.4. The readjustment of the modified vacuolar pH in bafilomycin-treated cells was significantly retarded compared with that in untreated cells. Next, bafilomycin A₁ was directly introduced into the vacuole by vacuolar perfusion with the artificial cell sap of pH 7.4. At 100 nM bafilomycin A₁, the decrease in the vacuolar pH was significantly inhibited. When cell sap was replaced with the artificial cell sap containing no buffer (pH 5.2 ? 5.5), the vacuolar pH increased in the presence of vacuolar bafilomycin, suggesting that the PP₁- dependent H⁺ pumping alone was not sufficient for the pH regulation of Chara vacuoles. Intracellular bafilomycin A₁ had no effect on the plasma membrane potential of tonoplast-free cells, which is evidence that it does not affect the electrogenic H⁺-pump in the plasma membrane. Bafilomycin A₁ inhibited the ATP-dependent H⁺ transport of tonoplast vesicles but not the PP₁-dependent H⁺ transport. The ATPase activity of tonoplast vesicles was also inhibited by bafilomycin A₁.