The Broad-Spectrum Antimicrobial Potential of [Mn(CO)(4)(S(2)CNMe(CH(2)CO(2)H))], a Water-Soluble CO-Releasing Molecule (CORM-401): Intracellular Accumulation, Transcriptomic and Statistical Analyses, and Membrane Polarization

Aims: Carbon monoxide (CO)-releasing molecules (CORMs) are candidates for animal and antimicrobial therapeutics. We aimed to probe the antimicrobial potential of a novel manganese CORM. Results: [Mn(CO)(4)S(2)CNMe(CH(2)CO(2)H)], CORM-401, inhibits growth of Escherichia coli and several antibiotic-re...

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Autores principales: Wareham, Lauren K., McLean, Samantha, Begg, Ronald, Rana, Namrata, Ali, Salar, Kendall, John J., Sanguinetti, Guido, Mann, Brian E., Poole, Robert K.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Mary Ann Liebert, Inc. 2018
Materias:
Rebound Original Research Communications
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5905950/
https://www.ncbi.nlm.nih.gov/pubmed/28816060
http://dx.doi.org/10.1089/ars.2017.7239
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author Wareham, Lauren K.
McLean, Samantha
Begg, Ronald
Rana, Namrata
Ali, Salar
Kendall, John J.
Sanguinetti, Guido
Mann, Brian E.
Poole, Robert K.
author_facet Wareham, Lauren K.
McLean, Samantha
Begg, Ronald
Rana, Namrata
Ali, Salar
Kendall, John J.
Sanguinetti, Guido
Mann, Brian E.
Poole, Robert K.
author_sort Wareham, Lauren K.
collection PubMed
description Aims: Carbon monoxide (CO)-releasing molecules (CORMs) are candidates for animal and antimicrobial therapeutics. We aimed to probe the antimicrobial potential of a novel manganese CORM. Results: [Mn(CO)(4)S(2)CNMe(CH(2)CO(2)H)], CORM-401, inhibits growth of Escherichia coli and several antibiotic-resistant clinical pathogens. CORM-401 releases CO that binds oxidases in vivo, but is an ineffective respiratory inhibitor. Extensive CORM accumulation (assayed as intracellular manganese) accompanies antimicrobial activity. CORM-401 stimulates respiration, polarizes the cytoplasmic membrane in an uncoupler-like manner, and elicits loss of intracellular potassium and zinc. Transcriptomics and mathematical modeling of transcription factor activities reveal a multifaceted response characterized by elevated expression of genes encoding potassium uptake, efflux pumps, and envelope stress responses. Regulators implicated in stress responses (CpxR), respiration (Arc, Fnr), methionine biosynthesis (MetJ), and iron homeostasis (Fur) are significantly disturbed. Although CORM-401 reduces bacterial growth in combination with cefotaxime and trimethoprim, fractional inhibition studies reveal no interaction. Innovation: We present the most detailed microbiological analysis yet of a CORM that is not a ruthenium carbonyl. We demonstrate CO-independent striking effects on the bacterial membrane and global transcriptomic responses. Conclusions: CORM-401, contrary to our expectations of a CO delivery vehicle, does not inhibit respiration. It accumulates in the cytoplasm, acts like an uncoupler in disrupting cytoplasmic ion balance, and triggers multiple effects, including osmotic stress and futile respiration. Rebound Track: This work was rejected during standard peer review and rescued by rebound peer review (Antioxid Redox Signal 16: 293–296, 2012) with the following serving as open reviewers: Miguel Aon, Giancarlo Biagini, James Imlay, and Nigel Robinson. Antioxid. Redox Signal. 28, 1286–1308.
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spelling pubmed-59059502018-05-10 The Broad-Spectrum Antimicrobial Potential of [Mn(CO)(4)(S(2)CNMe(CH(2)CO(2)H))], a Water-Soluble CO-Releasing Molecule (CORM-401): Intracellular Accumulation, Transcriptomic and Statistical Analyses, and Membrane Polarization Wareham, Lauren K. McLean, Samantha Begg, Ronald Rana, Namrata Ali, Salar Kendall, John J. Sanguinetti, Guido Mann, Brian E. Poole, Robert K. Antioxid Redox Signal Rebound Original Research Communications Aims: Carbon monoxide (CO)-releasing molecules (CORMs) are candidates for animal and antimicrobial therapeutics. We aimed to probe the antimicrobial potential of a novel manganese CORM. Results: [Mn(CO)(4)S(2)CNMe(CH(2)CO(2)H)], CORM-401, inhibits growth of Escherichia coli and several antibiotic-resistant clinical pathogens. CORM-401 releases CO that binds oxidases in vivo, but is an ineffective respiratory inhibitor. Extensive CORM accumulation (assayed as intracellular manganese) accompanies antimicrobial activity. CORM-401 stimulates respiration, polarizes the cytoplasmic membrane in an uncoupler-like manner, and elicits loss of intracellular potassium and zinc. Transcriptomics and mathematical modeling of transcription factor activities reveal a multifaceted response characterized by elevated expression of genes encoding potassium uptake, efflux pumps, and envelope stress responses. Regulators implicated in stress responses (CpxR), respiration (Arc, Fnr), methionine biosynthesis (MetJ), and iron homeostasis (Fur) are significantly disturbed. Although CORM-401 reduces bacterial growth in combination with cefotaxime and trimethoprim, fractional inhibition studies reveal no interaction. Innovation: We present the most detailed microbiological analysis yet of a CORM that is not a ruthenium carbonyl. We demonstrate CO-independent striking effects on the bacterial membrane and global transcriptomic responses. Conclusions: CORM-401, contrary to our expectations of a CO delivery vehicle, does not inhibit respiration. It accumulates in the cytoplasm, acts like an uncoupler in disrupting cytoplasmic ion balance, and triggers multiple effects, including osmotic stress and futile respiration. Rebound Track: This work was rejected during standard peer review and rescued by rebound peer review (Antioxid Redox Signal 16: 293–296, 2012) with the following serving as open reviewers: Miguel Aon, Giancarlo Biagini, James Imlay, and Nigel Robinson. Antioxid. Redox Signal. 28, 1286–1308. Mary Ann Liebert, Inc. 2018-05-10 2018-05-10 /pmc/articles/PMC5905950/ /pubmed/28816060 http://dx.doi.org/10.1089/ars.2017.7239 Text en © Lauren K. Wareham et al., 2018; Published by Mary Ann Liebert Inc. This Open Access article is distributed under the terms of the Creative Commons License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Rebound Original Research Communications
Wareham, Lauren K.
McLean, Samantha
Begg, Ronald
Rana, Namrata
Ali, Salar
Kendall, John J.
Sanguinetti, Guido
Mann, Brian E.
Poole, Robert K.
The Broad-Spectrum Antimicrobial Potential of [Mn(CO)(4)(S(2)CNMe(CH(2)CO(2)H))], a Water-Soluble CO-Releasing Molecule (CORM-401): Intracellular Accumulation, Transcriptomic and Statistical Analyses, and Membrane Polarization
title The Broad-Spectrum Antimicrobial Potential of [Mn(CO)(4)(S(2)CNMe(CH(2)CO(2)H))], a Water-Soluble CO-Releasing Molecule (CORM-401): Intracellular Accumulation, Transcriptomic and Statistical Analyses, and Membrane Polarization
title_full The Broad-Spectrum Antimicrobial Potential of [Mn(CO)(4)(S(2)CNMe(CH(2)CO(2)H))], a Water-Soluble CO-Releasing Molecule (CORM-401): Intracellular Accumulation, Transcriptomic and Statistical Analyses, and Membrane Polarization
title_fullStr The Broad-Spectrum Antimicrobial Potential of [Mn(CO)(4)(S(2)CNMe(CH(2)CO(2)H))], a Water-Soluble CO-Releasing Molecule (CORM-401): Intracellular Accumulation, Transcriptomic and Statistical Analyses, and Membrane Polarization
title_full_unstemmed The Broad-Spectrum Antimicrobial Potential of [Mn(CO)(4)(S(2)CNMe(CH(2)CO(2)H))], a Water-Soluble CO-Releasing Molecule (CORM-401): Intracellular Accumulation, Transcriptomic and Statistical Analyses, and Membrane Polarization
title_short The Broad-Spectrum Antimicrobial Potential of [Mn(CO)(4)(S(2)CNMe(CH(2)CO(2)H))], a Water-Soluble CO-Releasing Molecule (CORM-401): Intracellular Accumulation, Transcriptomic and Statistical Analyses, and Membrane Polarization
title_sort broad-spectrum antimicrobial potential of [mn(co)(4)(s(2)cnme(ch(2)co(2)h))], a water-soluble co-releasing molecule (corm-401): intracellular accumulation, transcriptomic and statistical analyses, and membrane polarization
topic Rebound Original Research Communications
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5905950/
https://www.ncbi.nlm.nih.gov/pubmed/28816060
http://dx.doi.org/10.1089/ars.2017.7239
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