The Homo sapiens Na/H antiporter NHA2 (SLC9B2) transports Na or Li in exchange for protons across cell membranes, and its dysfunction results in various pathologies. The activity of HsNHA2 is specifically inhibited by the flavonoid phloretin. Using bioinformatic modeling, we predicted two amino acids (R177 and S178) as being important for the binding of phloretin to the HsNHA2 molecule. Functional expression of HsNHA2 in Saccharomyces cerevisiae and its site-directed mutagenesis revealed that while the R177T mutation resulted in an antiporter that was less sensitive to phloretin, the S178T mutation enhanced the inhibitory effect of phloretin on HsNHA2. Our data corroborate the transport properties of HsNHA2 and its interactions with an inhibitor and can be helpful for the development of new therapeutics targeting this antiporter and its pleiotropic physiological functions.
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Residues R177 and S178 of the human Na/H antiporter NHA2 are involved in its inhibition by the flavonoid phloretin.
FEBS Lett
December 2024
Department of Biochemistry and Molecular Biology, George S. Wise Faculty of Life Sciences, Tel-Aviv University, Israel.
The Homo sapiens Na/H antiporter NHA2 (SLC9B2) transports Na or Li in exchange for protons across cell membranes, and its dysfunction results in various pathologies. The activity of HsNHA2 is specifically inhibited by the flavonoid phloretin. Using bioinformatic modeling, we predicted two amino acids (R177 and S178) as being important for the binding of phloretin to the HsNHA2 molecule.
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