Combined allosteric and competitive interaction between extracellular Na(+) and K(+) during ion transport by the alpha(1), alpha(2), and alpha(3) isoforms of the Na, K-ATPase |
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Authors: | Balshaw D M Millette L A Tepperman K Wallick E T |
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Affiliation: | Department of Pharmacology and Cell Biophysics, College of Medicine, University of Cincinnati, Cincinnati, Ohio 45267-0575 USA. balshaw@med.unc.edu |
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Abstract: | A combined allosteric and competitive model describes the interaction between extracellular Na(+) and Rb(+) during ion transport mediated by the Na, K-ATPase. The model was developed from experiments based on (86)Rb uptake by whole cells transfected with rat isoforms of the enzyme. In the absence of Na(+), only a single transport site for extracellular Rb(+) exists. After the occupation of the Na(+)-specific allosteric site, the Rb(+) transport pocket opens to allow occupation by an additional Rb(+) and the subsequent transport of the two Rb(+) ions into the cells. Na(+) can also directly compete with Rb(+) for binding to at least one of the transport sites. While the model derived here applies to each of the three rat isoforms of the Na, K-ATPase expressed in HeLa cells, subtle differences exist among the isoforms. The alpha(3)* isoform has an increased intrinsic affinity for Rb(+) and a lower affinity for the allosteric Na(+) site than alpha(1) or alpha(2)*. The stimulation of uptake observed according to the best-fit model is due to the displacement by Rb(+) of inhibitory Na(+) bound to the transport site. |
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