Disrupting iron homeostasis can potentiate colistin activity and overcome colistin resistance mechanisms in Gram-Negative Bacteria
Disrupting iron homeostasis can potentiate colistin activity and overcome colistin resistance mechanisms in Gram-Negative Bacteria
Acinetobacter baumannii is a Gram-negative priority pathogen that can readily overcome antibiotic treatment through a range of intrinsic and acquired resistance mechanisms. Treatment of carbapenem-resistant A. baumannii largely relies on the use of colistin in cases where other treatment options have been exhausted. However, the emergence of resistance against this last-line drug has significantly increased amongst clinical strains. In this study, we identify the phytochemical kaempferol as a potentiator of colistin activity. When administered singularly, kaempferol has no effect on growth but does impact biofilm formation. Nonetheless, co-administration of kaempferol with sub-inhibitory concentrations of colistin exposes bacteria to a metabolic Achilles heel, whereby kaempferol-induced dysregulation of iron homeostasis leads to bacterial killing. We demonstrate that this effect is due to the disruption of Fenton’s reaction, and therefore to a lethal build-up of toxic reactive oxygen species in the cell. Furthermore, we show that this vulnerability can be exploited to overcome both intrinsic and acquired colistin resistance in clinical strains of A. baumannii and E. coli in vitro and in the Galleria mellonella model of infection. Overall, our findings provide a proof-of-principle demonstration that targeting iron homeostasis is a promising strategy for enhancing the efficacy of colistin and overcoming colistin-resistant infections.
Gadar, Kavita
fe117ace-174b-4716-addb-f760294be08d
de Dios, Rubén
f8fffd7b-f295-418a-b96f-f14192995961
Kadeřábková, Nikol
954e5b4c-cfb0-41be-be39-519b349b047d
Prescott, Thomas A. K.
e359a6dd-2a6a-4e03-bee1-64ab184f9c2a
Mavridou, Despoina A. I.
04d5f36d-09e9-4f03-ba90-564377de2817
McCarthy, Ronan R.
0b2cf2e0-b0ff-4c92-aa04-92d91182d1f2
13 September 2023
Gadar, Kavita
fe117ace-174b-4716-addb-f760294be08d
de Dios, Rubén
f8fffd7b-f295-418a-b96f-f14192995961
Kadeřábková, Nikol
954e5b4c-cfb0-41be-be39-519b349b047d
Prescott, Thomas A. K.
e359a6dd-2a6a-4e03-bee1-64ab184f9c2a
Mavridou, Despoina A. I.
04d5f36d-09e9-4f03-ba90-564377de2817
McCarthy, Ronan R.
0b2cf2e0-b0ff-4c92-aa04-92d91182d1f2
Gadar, Kavita, de Dios, Rubén, Kadeřábková, Nikol, Prescott, Thomas A. K., Mavridou, Despoina A. I. and McCarthy, Ronan R.
(2023)
Disrupting iron homeostasis can potentiate colistin activity and overcome colistin resistance mechanisms in Gram-Negative Bacteria.
Communications Biology, 6.
(doi:10.1038/s42003-023-05302-2).
Abstract
Acinetobacter baumannii is a Gram-negative priority pathogen that can readily overcome antibiotic treatment through a range of intrinsic and acquired resistance mechanisms. Treatment of carbapenem-resistant A. baumannii largely relies on the use of colistin in cases where other treatment options have been exhausted. However, the emergence of resistance against this last-line drug has significantly increased amongst clinical strains. In this study, we identify the phytochemical kaempferol as a potentiator of colistin activity. When administered singularly, kaempferol has no effect on growth but does impact biofilm formation. Nonetheless, co-administration of kaempferol with sub-inhibitory concentrations of colistin exposes bacteria to a metabolic Achilles heel, whereby kaempferol-induced dysregulation of iron homeostasis leads to bacterial killing. We demonstrate that this effect is due to the disruption of Fenton’s reaction, and therefore to a lethal build-up of toxic reactive oxygen species in the cell. Furthermore, we show that this vulnerability can be exploited to overcome both intrinsic and acquired colistin resistance in clinical strains of A. baumannii and E. coli in vitro and in the Galleria mellonella model of infection. Overall, our findings provide a proof-of-principle demonstration that targeting iron homeostasis is a promising strategy for enhancing the efficacy of colistin and overcoming colistin-resistant infections.
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Published date: 13 September 2023
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Local EPrints ID: 506169
URI: http://eprints.soton.ac.uk/id/eprint/506169
ISSN: 2399-3642
PURE UUID: c19e3c6a-bf35-4f55-9a08-9611bd9f63a5
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Date deposited: 29 Oct 2025 17:42
Last modified: 15 Nov 2025 03:27
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Author:
Kavita Gadar
Author:
Rubén de Dios
Author:
Nikol Kadeřábková
Author:
Thomas A. K. Prescott
Author:
Despoina A. I. Mavridou
Author:
Ronan R. McCarthy
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