Cryo-EM Structure and Molecular Dynamics Analysis of the Fluoroquinolone Resistant Mutant of the AcrB Transporter from Salmonella

Salmonella is an important genus of Gram-negative pathogens, treatment of which has become problematic due to increases in antimicrobial resistance. This is partly attributable to the overexpression of tripartite efflux pumps, particularly the constitutively expressed AcrAB-TolC. Despite its clinica...

Descripción completa

Detalles Bibliográficos
Autores principales: Johnson, Rachel M., Fais, Chiara, Parmar, Mayuriben, Cheruvara, Harish, Marshall, Robert L., Hesketh, Sophie J., Feasey, Matthew C., Ruggerone, Paolo, Vargiu, Attilio V., Postis, Vincent L. G., Muench, Stephen P., Bavro, Vassiliy N.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2020
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7355581/
https://www.ncbi.nlm.nih.gov/pubmed/32585951
http://dx.doi.org/10.3390/microorganisms8060943
_version_ 1783558309349949440
author Johnson, Rachel M.
Fais, Chiara
Parmar, Mayuriben
Cheruvara, Harish
Marshall, Robert L.
Hesketh, Sophie J.
Feasey, Matthew C.
Ruggerone, Paolo
Vargiu, Attilio V.
Postis, Vincent L. G.
Muench, Stephen P.
Bavro, Vassiliy N.
author_facet Johnson, Rachel M.
Fais, Chiara
Parmar, Mayuriben
Cheruvara, Harish
Marshall, Robert L.
Hesketh, Sophie J.
Feasey, Matthew C.
Ruggerone, Paolo
Vargiu, Attilio V.
Postis, Vincent L. G.
Muench, Stephen P.
Bavro, Vassiliy N.
author_sort Johnson, Rachel M.
collection PubMed
description Salmonella is an important genus of Gram-negative pathogens, treatment of which has become problematic due to increases in antimicrobial resistance. This is partly attributable to the overexpression of tripartite efflux pumps, particularly the constitutively expressed AcrAB-TolC. Despite its clinical importance, the structure of the Salmonella AcrB transporter remained unknown to-date, with much of our structural understanding coming from the Escherichia coli orthologue. Here, by taking advantage of the styrene maleic acid (SMA) technology to isolate membrane proteins with closely associated lipids, we report the very first experimental structure of Salmonella AcrB transporter. Furthermore, this novel structure provides additional insight into mechanisms of drug efflux as it bears the mutation (G288D), originating from a clinical isolate of Salmonella Typhimurium presenting an increased resistance to fluoroquinolones. Experimental data are complemented by state-of-the-art molecular dynamics (MD) simulations on both the wild type and G288D variant of Salmonella AcrB. Together, these reveal several important differences with respect to the E. coli protein, providing insights into the role of the G288D mutation in increasing drug efflux and extending our understanding of the mechanisms underlying antibiotic resistance.
format Online
Article
Text
id pubmed-7355581
institution National Center for Biotechnology Information
language English
publishDate 2020
publisher MDPI
record_format MEDLINE/PubMed
spelling pubmed-73555812020-07-23 Cryo-EM Structure and Molecular Dynamics Analysis of the Fluoroquinolone Resistant Mutant of the AcrB Transporter from Salmonella Johnson, Rachel M. Fais, Chiara Parmar, Mayuriben Cheruvara, Harish Marshall, Robert L. Hesketh, Sophie J. Feasey, Matthew C. Ruggerone, Paolo Vargiu, Attilio V. Postis, Vincent L. G. Muench, Stephen P. Bavro, Vassiliy N. Microorganisms Article Salmonella is an important genus of Gram-negative pathogens, treatment of which has become problematic due to increases in antimicrobial resistance. This is partly attributable to the overexpression of tripartite efflux pumps, particularly the constitutively expressed AcrAB-TolC. Despite its clinical importance, the structure of the Salmonella AcrB transporter remained unknown to-date, with much of our structural understanding coming from the Escherichia coli orthologue. Here, by taking advantage of the styrene maleic acid (SMA) technology to isolate membrane proteins with closely associated lipids, we report the very first experimental structure of Salmonella AcrB transporter. Furthermore, this novel structure provides additional insight into mechanisms of drug efflux as it bears the mutation (G288D), originating from a clinical isolate of Salmonella Typhimurium presenting an increased resistance to fluoroquinolones. Experimental data are complemented by state-of-the-art molecular dynamics (MD) simulations on both the wild type and G288D variant of Salmonella AcrB. Together, these reveal several important differences with respect to the E. coli protein, providing insights into the role of the G288D mutation in increasing drug efflux and extending our understanding of the mechanisms underlying antibiotic resistance. MDPI 2020-06-23 /pmc/articles/PMC7355581/ /pubmed/32585951 http://dx.doi.org/10.3390/microorganisms8060943 Text en © 2020 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Johnson, Rachel M.
Fais, Chiara
Parmar, Mayuriben
Cheruvara, Harish
Marshall, Robert L.
Hesketh, Sophie J.
Feasey, Matthew C.
Ruggerone, Paolo
Vargiu, Attilio V.
Postis, Vincent L. G.
Muench, Stephen P.
Bavro, Vassiliy N.
Cryo-EM Structure and Molecular Dynamics Analysis of the Fluoroquinolone Resistant Mutant of the AcrB Transporter from Salmonella
title Cryo-EM Structure and Molecular Dynamics Analysis of the Fluoroquinolone Resistant Mutant of the AcrB Transporter from Salmonella
title_full Cryo-EM Structure and Molecular Dynamics Analysis of the Fluoroquinolone Resistant Mutant of the AcrB Transporter from Salmonella
title_fullStr Cryo-EM Structure and Molecular Dynamics Analysis of the Fluoroquinolone Resistant Mutant of the AcrB Transporter from Salmonella
title_full_unstemmed Cryo-EM Structure and Molecular Dynamics Analysis of the Fluoroquinolone Resistant Mutant of the AcrB Transporter from Salmonella
title_short Cryo-EM Structure and Molecular Dynamics Analysis of the Fluoroquinolone Resistant Mutant of the AcrB Transporter from Salmonella
title_sort cryo-em structure and molecular dynamics analysis of the fluoroquinolone resistant mutant of the acrb transporter from salmonella
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7355581/
https://www.ncbi.nlm.nih.gov/pubmed/32585951
http://dx.doi.org/10.3390/microorganisms8060943
work_keys_str_mv AT johnsonrachelm cryoemstructureandmoleculardynamicsanalysisofthefluoroquinoloneresistantmutantoftheacrbtransporterfromsalmonella
AT faischiara cryoemstructureandmoleculardynamicsanalysisofthefluoroquinoloneresistantmutantoftheacrbtransporterfromsalmonella
AT parmarmayuriben cryoemstructureandmoleculardynamicsanalysisofthefluoroquinoloneresistantmutantoftheacrbtransporterfromsalmonella
AT cheruvaraharish cryoemstructureandmoleculardynamicsanalysisofthefluoroquinoloneresistantmutantoftheacrbtransporterfromsalmonella
AT marshallrobertl cryoemstructureandmoleculardynamicsanalysisofthefluoroquinoloneresistantmutantoftheacrbtransporterfromsalmonella
AT heskethsophiej cryoemstructureandmoleculardynamicsanalysisofthefluoroquinoloneresistantmutantoftheacrbtransporterfromsalmonella
AT feaseymatthewc cryoemstructureandmoleculardynamicsanalysisofthefluoroquinoloneresistantmutantoftheacrbtransporterfromsalmonella
AT ruggeronepaolo cryoemstructureandmoleculardynamicsanalysisofthefluoroquinoloneresistantmutantoftheacrbtransporterfromsalmonella
AT vargiuattiliov cryoemstructureandmoleculardynamicsanalysisofthefluoroquinoloneresistantmutantoftheacrbtransporterfromsalmonella
AT postisvincentlg cryoemstructureandmoleculardynamicsanalysisofthefluoroquinoloneresistantmutantoftheacrbtransporterfromsalmonella
AT muenchstephenp cryoemstructureandmoleculardynamicsanalysisofthefluoroquinoloneresistantmutantoftheacrbtransporterfromsalmonella
AT bavrovassiliyn cryoemstructureandmoleculardynamicsanalysisofthefluoroquinoloneresistantmutantoftheacrbtransporterfromsalmonella

Ejemplares similares