The role of loop 6/7 in folding and functional performance of Na,K-ATPase

Changes in electrostatic surface potential of Na+/K+-ATPase cytoplasmic headpiece induced by cytoplasmic ligand(s) binding

A set of single-tryptophan mutants of the Na(+)/K(+)-ATPase isolated, large cytoplasmic loop connecting transmembrane helices M4 and M5 (C45) was prepared to monitor effects of the natural cytoplasmic ligands (i.e., Mg(2+) and/or ATP) binding. We introduced a novel method for the monitoring of the changes in the electrostatic surface potential (ESP) induced by ligand binding, using the quenching of the intrinsic tryptophan fluorescence by acrylamide or iodide. This approach opens a new way to understanding the interactions within the proteins. Our experiments revealed that the C45 conformation in the presence of the ATP (without magnesium) substantially differed from the conformation in the presence of Mg(2+) or MgATP or in the absence of any ligand not only in the sense of geometry but also in the sense of the ESP. Notably, the set of ESP-sensitive residues was different from the set of geometry-sensitive residues. Moreover, our data indicate that the effect of the ligand binding is not restricted only to the close environment of the binding site and that the information is in fact transmitted also to the distal parts of the molecule. This property could be important for the communication between the cytoplasmic headpiece and the cation binding sites located within the transmembrane domain.

Role of the charged amino acid residues in the cytoplasmic loop between putative transmembrane segments 6 and 7 of Na+-ATPase of an alkaliphilic bacterium, Exiguobacterium aurantiacum

ATPase activity of the membrane-bound Na(+)-ATPase of an alkaliphilic bacterium, Exiguobacterium aurantiacum, was measured in various concentrations of NaCl. Hill plot analysis showed a Hill number of 1.7 with 5.2 mM as the K(0.5) value for Na(+). When the site-directed mutagenesis of seven charged amino acid residues in the cytoplasmic loop (L6/7) between putative transmembrane segments 6 and 7 of the enzyme was conducted, all the mutated enzymes exhibited Hill numbers close to that of the wild-type enzyme (WT). When reconstituted with lecithin, all the mutants exhibited Na(+)-transport activity. While alanine substitution for several residues gave some significant effects on the enzyme function, the most remarkable effect was observed in the substitution for Glu-733. The K(0.5) value of E733A for Na(+) was 83.2 mM. The mutant exhibited only 8.5% of the ATPase activity and 54.0% of the energy-coupling efficiency for Na(+) transport as compared with those of WT, respectively. Drastic decreases of apparent affinity for Na(+) and energy efficiency of ion transport were also observed in E733K and E733T, respectively.