Perturbed structural dynamics underlie inhibition and altered efflux of the multidrug resistance pump AcrB
Perturbed structural dynamics underlie inhibition and altered efflux of the multidrug resistance pump AcrB
Resistance–nodulation–division efflux pumps play a key role in inherent and evolved multidrug resistance in bacteria. AcrB, a prototypical member of this protein family, extrudes a wide range of antimicrobial agents out of bacteria. Although high-resolution structures exist for AcrB, its conformational fluctuations and their putative role in function are largely unknown. Here, we determine these structural dynamics in the presence of substrates using hydrogen/deuterium exchange mass spectrometry, complemented by molecular dynamics simulations, and bacterial susceptibility studies. We show that an efflux pump inhibitor potentiates antibiotic activity by restraining drug-binding pocket dynamics, rather than preventing antibiotic binding. We also reveal that a drug-binding pocket substitution discovered within a multidrug resistant clinical isolate modifies the plasticity of the transport pathway, which could explain its altered substrate efflux. Our results provide insight into the molecular mechanism of drug export and inhibition of a major multidrug efflux pump and the directive role of its dynamics.
Reading, Eamonn
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Ahdash, Zainab
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Fais, Chiara
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Ricci, Vito
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Wang-Kan, Xuan
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Grimsey, Elizabeth
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Stone, Jack
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Malloci, Giuliano
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Lau, Andy M.
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Findlay, Heather
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Konijnenberg, Albert
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Booth, Paula J.
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Ruggerone, Paolo
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Vargiu, Attilio V.
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Piddock, Laura J.V.
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Politis, Argyris
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1 December 2020
Reading, Eamonn
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Ahdash, Zainab
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Fais, Chiara
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Ricci, Vito
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Wang-Kan, Xuan
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Grimsey, Elizabeth
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Stone, Jack
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Malloci, Giuliano
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Lau, Andy M.
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Findlay, Heather
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Konijnenberg, Albert
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Booth, Paula J.
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Ruggerone, Paolo
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Vargiu, Attilio V.
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Piddock, Laura J.V.
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Politis, Argyris
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Reading, Eamonn, Ahdash, Zainab, Fais, Chiara, Ricci, Vito, Wang-Kan, Xuan, Grimsey, Elizabeth, Stone, Jack, Malloci, Giuliano, Lau, Andy M., Findlay, Heather, Konijnenberg, Albert, Booth, Paula J., Ruggerone, Paolo, Vargiu, Attilio V., Piddock, Laura J.V. and Politis, Argyris
(2020)
Perturbed structural dynamics underlie inhibition and altered efflux of the multidrug resistance pump AcrB.
Nature Communications, 11 (1), [5565].
(doi:10.1038/s41467-020-19397-2).
Abstract
Resistance–nodulation–division efflux pumps play a key role in inherent and evolved multidrug resistance in bacteria. AcrB, a prototypical member of this protein family, extrudes a wide range of antimicrobial agents out of bacteria. Although high-resolution structures exist for AcrB, its conformational fluctuations and their putative role in function are largely unknown. Here, we determine these structural dynamics in the presence of substrates using hydrogen/deuterium exchange mass spectrometry, complemented by molecular dynamics simulations, and bacterial susceptibility studies. We show that an efflux pump inhibitor potentiates antibiotic activity by restraining drug-binding pocket dynamics, rather than preventing antibiotic binding. We also reveal that a drug-binding pocket substitution discovered within a multidrug resistant clinical isolate modifies the plasticity of the transport pathway, which could explain its altered substrate efflux. Our results provide insight into the molecular mechanism of drug export and inhibition of a major multidrug efflux pump and the directive role of its dynamics.
Text
s41467-020-19397-2
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Accepted/In Press date: 8 October 2020
e-pub ahead of print date: 4 November 2020
Published date: 1 December 2020
Identifiers
Local EPrints ID: 491839
URI: http://eprints.soton.ac.uk/id/eprint/491839
ISSN: 2041-1723
PURE UUID: 4a0046c7-069f-43ea-bf8b-74743b13997c
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Date deposited: 04 Jul 2024 16:58
Last modified: 12 Jul 2024 02:14
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Contributors
Author:
Eamonn Reading
Author:
Zainab Ahdash
Author:
Chiara Fais
Author:
Vito Ricci
Author:
Xuan Wang-Kan
Author:
Elizabeth Grimsey
Author:
Jack Stone
Author:
Giuliano Malloci
Author:
Andy M. Lau
Author:
Heather Findlay
Author:
Albert Konijnenberg
Author:
Paula J. Booth
Author:
Paolo Ruggerone
Author:
Attilio V. Vargiu
Author:
Laura J.V. Piddock
Author:
Argyris Politis
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