Down-Regulation of the Plasmalemma H+ Pump Activity by Nicotine-Induced Intracellular Alkalinization: a Balance between Base Accumulation, Biochemical pH-Stat Response and Intracellular pH Increase

Nicotine was used to induce an intracellular alkalinizationin Elodea densa leaves in order to study the regulation of theplasmalemma H⁺ pump activity by alkaline intracellular pH values.Nicotine was found to enter the cells rapidly in the unchargedform and to induce a significant intracellular pH increase,measured either directly as cell sap pH or as vacuolar and cytoplasmicpH by calculation from the distribution at equilibrium of labelledpH probes. The nicotine-induced alkalinization was associatedwith a progressive decrease in K⁺ uptake. A strong inhibitionof net H⁺ efflux was also evident in the presence of K⁺ in theexternal medium, whereas no nicotine effect on net H⁺ effluxwas detected in the absence of K⁺ (in spite of the larger accumulationof nicotine in the tissue) in agreement with a down-regulationof the activity of the K⁺-dependent plasmalemma H⁺-ATPase byalkaline intracellular pH values. The increase in vacuolar pHresulting from nicotine accumulation was small compared to thebase load calculated from the vacuolar buffer capacity and theintracellular dissociation of nicotine. Conversely, the nicotine-inducedincrease in cytoplasmic pH was considerably larger than expectedon the basis of the cytoplasmic buffer capacity and of the theoreticalaccumulation of nicotine in the experimental conditions adopted.A balance sheet between nicotine accumulation, intracellularalkalinization and malate system response was drawn up, andthe seeming discrepancies observed were discussed. (Received August 11, 1997; Accepted November 21, 1997)