Proton-coupled Transport Mechanism of the Efflux Pump NorA

Overview

Journal Nat Commun

Specialty Biology

Date 2024 May 27

PMID 38802368

Authors

Jianping Li

Yan Li

Akiko Koide

Huihui Kuang

Victor J Torres

Shohei Koide

Da-Neng Wang

Nathaniel J Traaseth

Affiliations

Soon will be listed here.

Abstract

Efflux pump antiporters confer drug resistance to bacteria by coupling proton import with the expulsion of antibiotics from the cytoplasm. Despite efforts there remains a lack of understanding as to how acid/base chemistry drives drug efflux. Here, we uncover the proton-coupling mechanism of the Staphylococcus aureus efflux pump NorA by elucidating structures in various protonation states of two essential acidic residues using cryo-EM. Protonation of Glu222 and Asp307 within the C-terminal domain stabilized the inward-occluded conformation by forming hydrogen bonds between the acidic residues and a single helix within the N-terminal domain responsible for occluding the substrate binding pocket. Remarkably, deprotonation of both Glu222 and Asp307 is needed to release interdomain tethering interactions, leading to opening of the pocket for antibiotic entry. Hence, the two acidic residues serve as a "belt and suspenders" protection mechanism to prevent simultaneous binding of protons and drug that enforce NorA coupling stoichiometry and confer antibiotic resistance.

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