Sodium Movements in the Human Red Blood Cell

Abstract

Measurements were made of the sodium outflux rate constant, ^ok_Na, and sodium influx rate constant, ⁱk_Na, at varying concentrations of extracellular (Na_o) and intracellular (Na_c) sodium. ^ok_Na increases with increasing [Na_o] in the presence of extracellular potassium (K_o) and in solutions containing ouabain. In K-free solutions which do not contain ouabain, ^ok_Na falls as [Na_o] rises from 0 to 6 mM; above 6 mM, ^ok_Na increases with increasing [Na_o]. Part of the Na outflux which occurs in solutions free of Na and K disappears when the cells are starved or when the measurements are made in solutions containing ouabain. As [Na_o] increases from 0 to 6 mM, ⁱk_Na decreases, suggesting that sites involved in the sodium influx are becoming saturated. As [Na_c] increases, ^ok_Na at first increases and then decreases; this relation between ^ok_Na and [Na_c] is found when the measurements are made in high Na, high K solutions; high Na, K-free solutions; and in (Na + K)-free solutions. The relation may be the consequence of the requirement that more than one Na ion must react with the transport mechanism at the inner surface of the membrane before transport occurs. Further evidence has been obtained that the ouabain-inhibited Na outflux and Na influx in K-free solutions represent an exchange of Na_c for Na_o via the Na-K pump mechanism.