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Characteristics of ouabain binding to isolated trout hepatocytes
Authors:Laurence Bianchini  Barthélémy Fossat  Jacqueline Porthé-Nibelle  Brahim Lahlou
Affiliation:(1) Laboratoire de Physiologie Cellulaire et Comparée, Faculté des Sciences, Université de Nice-Sophia Antipolis, Parc Valrose, 06034 Nice Cedex, France;(2) UA CNRS 651, Faculté des Sciences, Université de Nice-Sophia Antipolis, Parc Valrose, 06034 Nice Cedex, France
Abstract:Summary Na+, K+ exchanges were studied in isolated hepatocytes of the rainbow trout, Salmo gairdneri. Ouabain at 10–4M produced maximal inhibition (95%) of K+ uptake and enhanced intracellular Na+ accumulation, showing that active fluxes account for a very large proportion of Na+ and K+ exchanges. Inhibition of the Na–K pump by ouabain was significant at low concentrations (10–8M). When external K+ concentration was reduced from 7 mM to 0.5 mM, half maximum inhibition (IC50) of K+ uptake was obtained at a 22-fold lower concentration of ouabain confirming that ouabain and potassium compete at the same pump site. Time-course analysis of [3H]ouabain binding indicated a two-component kinetics: one component saturable and dependent on K+ concentration in the medium, the other linear and independent of external K+. The ouabain binding site number, determined by Scatchard plots, remained constant (ca. 2.5·105 per cell) and independent of the external K+ concentration (7, 0.5 or 0 mM), while the dissociation constant (KD) decreased from 4.2 mgrM to 7.3 nM when K+ was removed from the Hank's medium. These ouabain binding sites are characterized by an exceptionally low turnover rate (400 min–1), as estimated from ouabain-sensitive K+ flux, in comparison to those described in other cell types of higher vertebrates. At each external K+ concentration studied, the inhibition of K+ uptake and ouabain binding measured as a function of ouabain concentration indicated a strict correlation between the degree of K pump inhibition and the amount of bound glycoside.
Keywords:Cation fluxes  Trout (Salmo gaidneri)  Hepatocytes  Ouabain binding kinetics  Ouabain sites number
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