Kinetics and stoichiometry of the human red cell Na+/H+ exchanger

Abstract

We have investigated the kinetic properties of the human red blood cell Na⁺/H⁺ exchanger to provide a tool to study the role of genetic, hormonal and environmental factors in its expression as well as its functional properties in several clinical conditions. The present study reports its stoichiometry and the kinetic effects of internal H⁺ (H _i ) and external Na⁺ (Na _o ) in red blood cells of normal subjects. Red blood cells with different cell Na⁺ (Na _i ) and pH (pH _i ) were prepared by nystatin and DIDS treatment of acid-loaded cells. Unidirectional and net Na⁺ influx were measured by varying pH _i (from 5.7 to 7.4), external pH (pH _o ), Na _i and Na _o and by incubating the cells in media containing ouabain, bumetanide and methazolamide. Net Na⁺ influx (Na _i o = 150mm) increased sigmoidally (Hill coefficient 2.5) when pH _i fell below 7.0 and the external pH _o was 8.0, but increased linearly at pH _o 6.0. The net Na⁺ influx driven by an outward H⁺ gradient was estimated from the difference of Na⁺ influx at the two pH _o levels (pH _o 8 and pH _o 6). The H⁺-driven Na⁺ influx reached saturation between pH _i 5.9 and 6.1. TheV _max had a wide interindividual variation (6 to 63 mmol/liter cell · hr, 31.0±3, mean±sem,n=20). TheK _m for H _i to activate H⁺-driven Na⁺ influx was 347±30nm (n=7). Amiloride (1mm) or DMA (20 μm) partially (59±10%) inhibited red cell Na⁺/H⁺ exchange. The stoichiometric ratio between H⁺-driven Na⁺ influx and Na⁺-driven H⁺ efflux was 1∶1. The dependence of Na⁺ influx from Na _o was studied at pH _i 6.0, and Na _i lower than 2 mmol/liter cell at pH _o 6.0 and 8.0. The meanK _m for Na _o of the H⁺-gradient-driven Na⁺ influx was 55±7mm. An increase in Na _i from 2 to 20 mmol/liter cell did not change significantly H⁺-driven net Na⁺ influx as...