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The Monoclonal Antibody 1F6 Identifies a pH-dependent Conformational Change in the Hydrophilic NH2 Terminus of NhaA Na+/H+ Antiporter of Escherichia coli

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Venturi,  Miro
Department of Molecular Membrane Biology, Max Planck Institute of Biophysics, Max Planck Society;

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Hunte,  Carola
Department of Molecular Membrane Biology, Max Planck Institute of Biophysics, Max Planck Society;

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Michel,  Hartmut       
Department of Molecular Membrane Biology, Max Planck Institute of Biophysics, Max Planck Society;

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Citation

Venturi, M., Rimons, A., Gerchman, Y., Hunte, C., Padan, E., & Michel, H. (2000). The Monoclonal Antibody 1F6 Identifies a pH-dependent Conformational Change in the Hydrophilic NH2 Terminus of NhaA Na+/H+ Antiporter of Escherichia coli. The Journal of Biological Chemistry, 271(7), 4734-4742. doi:10.1074/jbc.275.7.4734.


Cite as: https://hdl.handle.net/21.11116/0000-0007-0DB2-2
Abstract
One of the most interesting properties of the NhaA Na+/H+ antiporter of Escherichia coli is the strong regulation of its activity by pH. This regulation is accompanied by a conformational change that can be probed by digestion with trypsin and involves the hydrophilic loop connecting the transmembrane helices VIII-IX. In the present work we show that a monoclonal antibody (mAb), 1F6, recognizes yet another domain of NhaA in a pH-dependent manner. This antibody binds NhaA at pH 8.5 but not at pH 4.5, whereas two other mAbs bind to NhaA independently of pH. The epitope of mAb 1F6 was located at the NH2 terminus of NhaA by probing proteolytic fragments in Western blot analysis and amino acid sequencing. The antibody bound to the peptide HLHRFFSS, starting at the third amino acid of NhaA. A synthetic peptide with this sequence was shown to bind mAb 1F6 both at acidic and alkaline pH suggesting that this peptide is accessible to mAb 1F6 in the native protein only at alkaline pH. Although slightly shifted to acidic pH, the pH profile of the binding of mAb 1F6 to the antiporter is similar to that of both the Na+/H+ antiporter activity as well as to its sensitivity to trypsin. We thus suggest that these pH profiles reflect a pH-dependent conformational change, which leads to activation of the antiporter. Indeed, a replacement of Gly-338 by Ser (G338S), which alleviates the pH dependence of both the NhaA activity as well as its sensitivity to trypsin, affects in a similar pattern the binding of mAb 1F6 to NhaA. Furthermore, the binding site of mAb 1F6 is involved in the functioning of the antiporter as follows: a double Cys replacement H3C/H5C causes an acidic shift by half a pH unit in the pH dependence of the antiporter; N-ethylmaleimide, which does not inhibit the wild-type protein, inhibits H3C/H5C antiporter to an extent similar to that exerted by mAb 1F6.