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Artificial sweeteners inhibit multidrug‐resistant pathogen growth and potentiate antibiotic activity

Artificial sweeteners inhibit multidrug‐resistant pathogen growth and potentiate antibiotic activity
Artificial sweeteners inhibit multidrug‐resistant pathogen growth and potentiate antibiotic activity
Antimicrobial resistance is one of the most pressing concerns of our time. The human diet is rich with compounds that alter bacterial gut communities and virulence‐associated behaviours, suggesting food additives may be a niche for the discovery of novel anti‐virulence compounds. Here, we identify three artificial sweeteners, saccharin, cyclamate and acesulfame‐K (ace‐K), that have a major growth inhibitory effect on priority pathogens. We further characterise the impact of ace‐K on multidrug‐resistant Acinetobacter baumannii, demonstrating that it can disable virulence behaviours such as biofilm formation, motility and the ability to acquire exogenous antibiotic‐resistant genes. Further analysis revealed the mechanism of growth inhibition is through bulge‐mediated cell lysis and that cells can be rescued by cation supplementation. Antibiotic sensitivity assays demonstrated that at sub‐lethal concentrations, ace‐K can resensitise A. baumannii to last resort antibiotics, including carbapenems. Using a novel ex vivo porcine skin wound model, we show that ace‐K antimicrobial activity is maintained in the wound microenvironment. Our findings demonstrate the influence of artificial sweeteners on pathogen behaviour and uncover their therapeutic potential.
1757-4684
de Dios, Rubén
f8fffd7b-f295-418a-b96f-f14192995961
Proctor, Chris R
5b24a721-e3f9-4246-8f40-1c5b5ab20480
Maslova, Evgenia
e9c2b3d3-66ca-4efb-8644-4a61460e3f84
Dzalbe, Sindija
f979142c-e29a-4f0a-ad28-c1cea7e3818f
Rudolph, Christian J
b573d97c-d62c-4066-8651-70ec45960d7d
McCarthy, Ronan R
0b2cf2e0-b0ff-4c92-aa04-92d91182d1f2
de Dios, Rubén
f8fffd7b-f295-418a-b96f-f14192995961
Proctor, Chris R
5b24a721-e3f9-4246-8f40-1c5b5ab20480
Maslova, Evgenia
e9c2b3d3-66ca-4efb-8644-4a61460e3f84
Dzalbe, Sindija
f979142c-e29a-4f0a-ad28-c1cea7e3818f
Rudolph, Christian J
b573d97c-d62c-4066-8651-70ec45960d7d
McCarthy, Ronan R
0b2cf2e0-b0ff-4c92-aa04-92d91182d1f2

de Dios, Rubén, Proctor, Chris R, Maslova, Evgenia, Dzalbe, Sindija, Rudolph, Christian J and McCarthy, Ronan R (2023) Artificial sweeteners inhibit multidrug‐resistant pathogen growth and potentiate antibiotic activity. EMBO Molecular Medicine, 15, [e16397]. (doi:10.15252/emmm.202216397).

Record type: Article

Abstract

Antimicrobial resistance is one of the most pressing concerns of our time. The human diet is rich with compounds that alter bacterial gut communities and virulence‐associated behaviours, suggesting food additives may be a niche for the discovery of novel anti‐virulence compounds. Here, we identify three artificial sweeteners, saccharin, cyclamate and acesulfame‐K (ace‐K), that have a major growth inhibitory effect on priority pathogens. We further characterise the impact of ace‐K on multidrug‐resistant Acinetobacter baumannii, demonstrating that it can disable virulence behaviours such as biofilm formation, motility and the ability to acquire exogenous antibiotic‐resistant genes. Further analysis revealed the mechanism of growth inhibition is through bulge‐mediated cell lysis and that cells can be rescued by cation supplementation. Antibiotic sensitivity assays demonstrated that at sub‐lethal concentrations, ace‐K can resensitise A. baumannii to last resort antibiotics, including carbapenems. Using a novel ex vivo porcine skin wound model, we show that ace‐K antimicrobial activity is maintained in the wound microenvironment. Our findings demonstrate the influence of artificial sweeteners on pathogen behaviour and uncover their therapeutic potential.

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Published date: 11 January 2023

Identifiers

Local EPrints ID: 506170
URI: http://eprints.soton.ac.uk/id/eprint/506170
DOI: doi:10.15252/emmm.202216397
ISSN: 1757-4684
PURE UUID: 2e0920b9-4fac-4856-9cc6-8b7c5df2ed3d
ORCID for Rubén de Dios: ORCID iD orcid.org/0000-0001-6704-9149
ORCID for Ronan R McCarthy: ORCID iD orcid.org/0000-0002-7480-6352

Catalogue record

Date deposited: 29 Oct 2025 17:42
Last modified: 15 Nov 2025 03:27

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Contributors

Author: Rubén de Dios ORCID iD
Author: Chris R Proctor
Author: Evgenia Maslova
Author: Sindija Dzalbe
Author: Christian J Rudolph
Author: Ronan R McCarthy ORCID iD

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