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Differentiating Ligand and Inhibitor Interactions of a Single Antiporter

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Ziegler,  Christine
Department of Structural Biology, Max Planck Institute of Biophysics, Max Planck Society;

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Citation

Kedrov, A., Ziegler, C., & Muller, D. J. (2006). Differentiating Ligand and Inhibitor Interactions of a Single Antiporter. Journal of Molecular Biology, 362(5), 925-932. doi:10.1016/j.jmb.2006.07.049.


Cite as: https://hdl.handle.net/11858/00-001M-0000-0024-D9C9-6
Abstract
Regulatory mechanisms of ion and solute transporters are in focus of biomedical and biochemical studies and build a key for disease therapies. Inhibition of sodium/proton exchangers efficiently prevents ischemic heart disease and reperfusion development in humans, but molecular mechanisms behind are not clear. Using single-molecule force spectroscopy we observe the binding of the inhibitor 2-aminoperimidine (AP) to sodium/proton antiporters NhaA from Escherichia coli. Deactivating interactions were significantly suppressed at enhanced sodium concentrations of 200 mM as well as in the pH-locked inactive conformation of NhaA. New molecular interactions were quantified and localized within the protein occurring upon a competitive inhibitor binding. The inhibitor, which was targeted and bound to the ligand-binding pocket, altered interactions established at alpha-helix IX. These molecular mechanisms deactivating the antiporter were different to those established upon ligand binding and activation of NhaA.