Antibiotic potentiation and inhibition of cross-resistance in pathogens associated with cystic fibrosis
Antibiotic potentiation and inhibition of cross-resistance in pathogens associated with cystic fibrosis
Critical Gram-negative pathogens, like Pseudomonas, Stenotrophomonas and Burkholderia, have become resistant to most antibiotics. Complex resistance profiles together with synergistic interactions between these organisms increase the likelihood of treatment failure in distinct infection settings, for example in the lungs of cystic fibrosis (CF) patients. Here, we discover that cell envelope protein homeostasis pathways underpin both antibiotic resistance and cross-protection in CF-associated bacteria. We find that inhibition of oxidative protein folding inactivates multiple species-specific resistance proteins. Using this strategy, we sensitize multidrug-resistant Pseudomonas aeruginosa to β-lactam antibiotics and demonstrate promise of new treatment avenues for the recalcitrant emerging pathogen Stenotrophomonas maltophilia. The same approach also inhibits cross-protection between resistant S. maltophilia and susceptible P. aeruginosa, allowing eradication of both commonly co-occurring CF-associated organisms. Our results provide the basis for the development of next-generation strategies that target antibiotic resistance, while also impairing specific interbacterial interactions that enhance the severity of polymicrobial infections.
Kadeřábková, Nikol
be047d52-4d76-412e-b649-68eed98634d7
Furniss, R Christopher D
7932dd03-6b2f-4d11-9570-7cfbbc5284e5
Maslova, Evgenia
f323944e-87f4-485a-a62f-4c393fa858c4
Potter, Kathryn E
92163ddc-8ed5-4ac9-8d66-235eb62751dc
Eisaiankhongi, Lara
b57bf348-b455-41b7-a2b0-9a9a0ef5942e
Bernal, Patricia
cd96f10c-e162-4bf4-b960-f8f0d9db77b7
Filloux, Alain
6f79a42e-17d2-4fb1-bab9-a27c41a5b029
Landeta, Cristina
11c4022c-1c81-4094-a140-6ebce54d7fba
Gonzalez, Diego
0b4e3941-5def-493e-8a05-1b11501d5766
McCarthy, Ronan R
0b2cf2e0-b0ff-4c92-aa04-92d91182d1f2
Mavridou, Despoina AI
cc50a485-380c-4359-849c-7e54ee2e612e
11 September 2025
Kadeřábková, Nikol
be047d52-4d76-412e-b649-68eed98634d7
Furniss, R Christopher D
7932dd03-6b2f-4d11-9570-7cfbbc5284e5
Maslova, Evgenia
f323944e-87f4-485a-a62f-4c393fa858c4
Potter, Kathryn E
92163ddc-8ed5-4ac9-8d66-235eb62751dc
Eisaiankhongi, Lara
b57bf348-b455-41b7-a2b0-9a9a0ef5942e
Bernal, Patricia
cd96f10c-e162-4bf4-b960-f8f0d9db77b7
Filloux, Alain
6f79a42e-17d2-4fb1-bab9-a27c41a5b029
Landeta, Cristina
11c4022c-1c81-4094-a140-6ebce54d7fba
Gonzalez, Diego
0b4e3941-5def-493e-8a05-1b11501d5766
McCarthy, Ronan R
0b2cf2e0-b0ff-4c92-aa04-92d91182d1f2
Mavridou, Despoina AI
cc50a485-380c-4359-849c-7e54ee2e612e
Kadeřábková, Nikol, Furniss, R Christopher D, Maslova, Evgenia, Potter, Kathryn E, Eisaiankhongi, Lara, Bernal, Patricia, Filloux, Alain, Landeta, Cristina, Gonzalez, Diego, McCarthy, Ronan R and Mavridou, Despoina AI
(2025)
Antibiotic potentiation and inhibition of cross-resistance in pathogens associated with cystic fibrosis.
(doi:10.7554/eLife.91082).
Abstract
Critical Gram-negative pathogens, like Pseudomonas, Stenotrophomonas and Burkholderia, have become resistant to most antibiotics. Complex resistance profiles together with synergistic interactions between these organisms increase the likelihood of treatment failure in distinct infection settings, for example in the lungs of cystic fibrosis (CF) patients. Here, we discover that cell envelope protein homeostasis pathways underpin both antibiotic resistance and cross-protection in CF-associated bacteria. We find that inhibition of oxidative protein folding inactivates multiple species-specific resistance proteins. Using this strategy, we sensitize multidrug-resistant Pseudomonas aeruginosa to β-lactam antibiotics and demonstrate promise of new treatment avenues for the recalcitrant emerging pathogen Stenotrophomonas maltophilia. The same approach also inhibits cross-protection between resistant S. maltophilia and susceptible P. aeruginosa, allowing eradication of both commonly co-occurring CF-associated organisms. Our results provide the basis for the development of next-generation strategies that target antibiotic resistance, while also impairing specific interbacterial interactions that enhance the severity of polymicrobial infections.
This record has no associated files available for download.
More information
Published date: 11 September 2025
Identifiers
Local EPrints ID: 506212
URI: http://eprints.soton.ac.uk/id/eprint/506212
PURE UUID: 9448e82a-c4e8-4006-a8b6-fd539b04bdc3
Catalogue record
Date deposited: 30 Oct 2025 17:39
Last modified: 31 Oct 2025 03:11
Export record
Altmetrics
Contributors
Author:
Nikol Kadeřábková
Author:
R Christopher D Furniss
Author:
Evgenia Maslova
Author:
Kathryn E Potter
Author:
Lara Eisaiankhongi
Author:
Patricia Bernal
Author:
Alain Filloux
Author:
Cristina Landeta
Author:
Diego Gonzalez
Author:
Ronan R McCarthy
Author:
Despoina AI Mavridou
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics