Na+ for H+ exchange in rabbit erythrocytes.

Abstract

The effect of a transmembrane pH gradient on the ouabain, bumetanide, and phloretin resistant H+ efflux was studied in rabbit erythrocytes. Proton equilibration was reduced by the use of DIDS (125 microM) and acetazolamide (1 mM). H+ efflux from acid loaded erythrocytes (pHi = 6.1) was measured in a K+ (145 mM) medium, pH0 = 8.0, in the presence and absence of 60 microM 5,N,N-dimethyl-amiloride (DMA). The H+ efflux rate in a K+-containing medium was 116.38 +/- 4.5 mmol/l cell X hr. Substitution of Nao+ for Ko+ strongly stimulated H+ efflux to 177.89 +/- 7.9 mmol/l cell X hr. The transtimulation of H+ efflux by Nao+ was completely abolished by DMA falling to values not different from controls with an ID50 of about 8.6 X 10(-7) M. The sequence of substrate selectivities for the external transport site were Na greater than greater than greater than Li greater than choline, Cs, K, and Glucamine. The transport system has no specific anion requirement, but is inhibited by NO3-. The DMA sensitive H+ efflux was a saturable function of [Na+]o, with an apparent Km and Vmax of about 14.75 +/- 1.99 mM and 85.37 +/- 7.68 mmol/l cell X hr, respectively. However, the Nao+-dependent and DMA-sensitive H+ efflux was sigmoidally activated by [H+]i, suggesting that Hi+ interacts at both transport and modifier sites. An outwardly directed H+ gradient (pHi 6.1, pH = 8.0) also promoted DMA sensitive Na+ entry (61.2 +/- 3.0 mmol/l cell X hr) which was abolished when pHo was reduced to 6.0. The data is therefore consistent with the presence of a Na+/H+ exchange system in rabbit erythrocytes.