Effects of pH, Potential, Chloride and Furosemide on Passive Na+ and K+ Effluxes From Human Red Blood Cells
Document Type
Article
Publication Date
8-1-1988
Abstract
Ouabain-resistant effluxes from pretreated cells containing K+/Na+=1.5 into K+ and Na+ free media were measured.Furosemide-sensitive cation effluxes from cells with nearly normal membrane potential and pH were lower in NO −3 media than in Cl− media; they were reduced when pH was lowered in Cl− media. When the membrane potential was positive inside furosemide increased the effluxes of Na+ and K+ (7 experiments). With inside-positive membrane potential thefurosemideinsensitive effluxes were markedly increased, they decreased with decreasing pH at constant internal Cl− and also when internal Cl− was reduced at constant pH. The correlation between cation flux and the membrane potential was different for cells with high or low internal chloride concentrations. The data with chloride≧47mm showed a better fit with the single-barrier model than with the infinite number-of-barriers model. With low chloride no significant correlation between flux and membrane potential was found. The data are not compatible with pure independent diffusion of Na+ and K+ in the presence of ouabain and furosemide.
Repository Citation
Zade-Oppen, A. M.,
Adragna, N. C.,
& Tosteson, D. C.
(1988). Effects of pH, Potential, Chloride and Furosemide on Passive Na+ and K+ Effluxes From Human Red Blood Cells. The Journal of Membrane Biology, 103 (3), 217-225.
https://corescholar.libraries.wright.edu/ptox/256
DOI
10.1007/BF01993981
