Mechanism of calcium-dependent salt tolerance in cells of Nitellopsis obtusa: role of intracellular adenine nucleotides

Abstract. The tonoplasts of internodal cells of Nitellopsis were removed by perfusing the vacuoles with media containing a Ca² chelator, EGTA. Treatment of tonoplast-free cells with 100 mol m³ NaCl induces a large membrane depolarization, a drastic decrease in the membrane resistance and an increase in Na⁺ influx. These events are identical to those that occur in intact cells subjected to high NaCl. These responses to NaCl are prevented if 10 mol m³ Ca²⁺ is supplied together with 100 mol m³ NaCl. The protective effect of Ca²⁺ is evident only when the intracellular ATP concentration exceeds 0.1 mol m³ and does not occur full when the intracellular ATP is removed. AMP at concentrations greater than 0.5 mol m³ or 0.25 mol m³ AMPPNP can replace ATP. It is concluded that ATP does not act as an energy source nor as a substrate for protein phosphorylation. ATP seems to exert its effects as a coeffector with Ca²⁺ in regulating the Na⁺ permeability of the plasma membrane.