Na+/Na+ exchange and Na+/H+ antiport in rabbit erythrocytes: Two distinct transport systems

Summary Rabbit erythrocytes are well known for possessing highly active Na⁺/Na⁺ and Na⁺/H⁺ countertransport systems. Since these two transport systems share many similar properties, the possibility exists that they represent different transport modes of a single transport molecule. Therefore, we evaluated this hypothesis by measuring Na⁺ transport through these exchangers in acid-loaded cells. In addition, selective inhibitors of these transport systems such as ethylisopropyl-amiloride (EIPA) and N-ethylmaleimide (NEM) were used. Na⁺/Na⁺ exchange activity, determined as the Na_o⁺-dependent²²Na efflux or Na_i ⁺-induced²²Na entry was completely abolished by NEM. This inhibitor, however, did not affect the H_i⁺-induced Na⁺ entry sensitive to amiloride (Na⁺/H⁺ exchange activity). Similarly, EIPA, a strong inhibitor of the Na⁺/H⁺ exchanger, did not inhibit Na⁺/Na^– countertransport, suggesting the independent nature of both transport systems. The possibility that the NEM-sensitive Na⁺/Na⁺ exchanger could be involved in Na⁺/H⁺ countertransport was suggested by studies in which the net Na⁺ transport sensitive to NEM was determined. As expected, net Na⁺ transport through this transport system was zero at different [Na⁺]_i/[Na⁺]_o ratios when intracellular pH was 7.2. However, at pH_i=6.1, net Na⁺ influx occurred when [Na⁺]_i was lower than 39mm. Valinomycin, which at low [K⁺]_o was lower than 39mm. Valinomycin, which at low [K⁺]_o clamps the membrane potential close to the K⁺ equilibrium potential, did not affect the net NEM-sensitive Na⁺ entry but markedly stimulated, the EIPA-and NEM-resistant Na⁺ uptake. This suggest that the net Na⁺ entry through the NEM-sensitive pathway at low pH_i, is mediated by an electroneutral process possibly involving Na⁺/H⁺ exchange. In contrast, the EIPA-sensitive Na⁺/H⁺ exchanger is not involved in Na⁺/Na⁺ countertransport, because Na⁺ transport through this mechanism is not affected by an increase in cell Na^– from 0.4 to 39mm. Altogether, these findings indicate that both transport systems: the Na⁺/Na⁺ and Na⁺/H⁺ exchangers, are mediated by distinct transport proteins.