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Broadly conserved Na+-binding site in the N-lobe of prokaryotic multidrug MATE transporters.


ABSTRACT: Multidrug and toxic-compound extrusion (MATE) proteins comprise an important but largely uncharacterized family of secondary-active transporters. In both eukaryotes and prokaryotes, these transporters protect the cell by catalyzing the efflux of a broad range of cytotoxic compounds, including human-made antibiotics and anticancer drugs. MATEs are thus potential pharmacological targets against drug-resistant pathogenic bacteria and tumor cells. The activity of MATEs is powered by transmembrane electrochemical ion gradients, but their molecular mechanism and ion specificity are not understood, in part because high-quality structural information is limited. Here, we use computational methods to study PfMATE, from Pyrococcus furiosus, whose structure is the best resolved to date. Analysis of available crystallographic data and additional molecular dynamics simulations unequivocally reveal an occupied Na+-binding site in the N-lobe of this transporter, which had not been previously recognized. We find this site to be selective against K+ and broadly conserved among prokaryotic MATEs, including homologs known to be Na+-dependent such as NorM-VC, VmrA, and ClbM, for which the location of the Na+ site had been debated. We note, however, that the chemical makeup of the proposed Na+ site indicates it is weakly specific against H+, explaining why MATEs featuring this Na+-binding motif may be solely driven by H+ in laboratory conditions. We further posit that the concurrent coupling to H+ and Na+ gradients observed for some Na+-driven MATEs owes to a second H+-binding site, within the C-lobe. In summary, our study provides insights into the structural basis for the complex ion dependency of MATE transporters.

SUBMITTER: Ficici E 

PROVIDER: S-EPMC6142261 | biostudies-literature | 2018 Jul

REPOSITORIES: biostudies-literature

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Broadly conserved Na<sup>+</sup>-binding site in the N-lobe of prokaryotic multidrug MATE transporters.

Ficici Emel E   Zhou Wenchang W   Castellano Steven S   Faraldo-Gómez José D JD  

Proceedings of the National Academy of Sciences of the United States of America 20180618 27


Multidrug and toxic-compound extrusion (MATE) proteins comprise an important but largely uncharacterized family of secondary-active transporters. In both eukaryotes and prokaryotes, these transporters protect the cell by catalyzing the efflux of a broad range of cytotoxic compounds, including human-made antibiotics and anticancer drugs. MATEs are thus potential pharmacological targets against drug-resistant pathogenic bacteria and tumor cells. The activity of MATEs is powered by transmembrane el  ...[more]

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