‘Carbon-Monoxide-Releasing Molecule-2 (CORM-2)’ Is a Misnomer: Ruthenium Toxicity, Not CO Release, Accounts for Its Antimicrobial Effects

‘Carbon-Monoxide-Releasing Molecule-2 (CORM-2)’ Is a Misnomer: Ruthenium Toxicity, Not CO Release, Accounts for Its Antimicrobial Effects

Carbon monoxide (CO)-releasing molecules (CORMs) are used to deliver CO, a biological ‘gasotransmitter’, in biological chemistry and biomedicine. CORMs kill bacteria in culture and in animal models, but are reportedly benign towards mammalian cells. CORM-2 (tricarbonyldichlororuthenium(II) dimer, Ru...

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Main Authors: Hannah M. Southam, Michael P. Williamson, Jonathan A. Chapman, Rhiannon L. Lyon, Clare R. Trevitt, Peter J. F. Henderson, Robert K. Poole
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Antioxidants
Subjects:
amino acid
antimicrobial agent
bacteria
carbon monoxide
CORM-2
glutathione
Online Access:https://www.mdpi.com/2076-3921/10/6/915
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spelling doaj-ca0d8164965a40a4a4945fe361283e672021-06-30T23:22:52ZengMDPI AGAntioxidants2076-39212021-06-011091591510.3390/antiox10060915‘Carbon-Monoxide-Releasing Molecule-2 (CORM-2)’ Is a Misnomer: Ruthenium Toxicity, Not CO Release, Accounts for Its Antimicrobial EffectsHannah M. Southam0Michael P. Williamson1Jonathan A. Chapman2Rhiannon L. Lyon3Clare R. Trevitt4Peter J. F. Henderson5Robert K. Poole6Department of Molecular Biology and Biotechnology, The University of Sheffield, Western Bank, Sheffield S10 2TN, UKDepartment of Molecular Biology and Biotechnology, The University of Sheffield, Western Bank, Sheffield S10 2TN, UKDepartment of Molecular Biology and Biotechnology, The University of Sheffield, Western Bank, Sheffield S10 2TN, UKDepartment of Molecular Biology and Biotechnology, The University of Sheffield, Western Bank, Sheffield S10 2TN, UKDepartment of Molecular Biology and Biotechnology, The University of Sheffield, Western Bank, Sheffield S10 2TN, UKSchool of Biomedical Sciences and Astbury Centre for Structural Molecular Biology, University of Leeds, Leeds LS2 9JT, UKDepartment of Molecular Biology and Biotechnology, The University of Sheffield, Western Bank, Sheffield S10 2TN, UKCarbon monoxide (CO)-releasing molecules (CORMs) are used to deliver CO, a biological ‘gasotransmitter’, in biological chemistry and biomedicine. CORMs kill bacteria in culture and in animal models, but are reportedly benign towards mammalian cells. CORM-2 (tricarbonyldichlororuthenium(II) dimer, Ru<sub>2</sub>Cl<sub>4</sub>(CO)<sub>6</sub>), the first widely used and commercially available CORM, displays numerous pharmacological, biochemical and microbiological activities, generally attributed to CO release. Here, we investigate the basis of its potent antibacterial activity against <i>Escherichia coli</i> and demonstrate, using three globin CO sensors, that CORM-2 releases negligible CO (<0.1 mol CO per mol CORM-2). A strong negative correlation between viability and cellular ruthenium accumulation implies that ruthenium toxicity underlies biocidal activity. Exogenous amino acids and thiols (especially cysteine, glutathione and N-acetyl cysteine) protected bacteria against inhibition of growth by CORM-2. Bacteria treated with 30 μM CORM-2, with added cysteine and histidine, exhibited no significant loss of viability, but were killed in the absence of these amino acids. Their prevention of toxicity correlates with their CORM-2-binding affinities (Cys, <i>K</i><sub>d</sub> 3 μM; His, <i>K</i><sub>d</sub> 130 μM) as determined by <sup>1</sup>H-NMR. Glutathione is proposed to be an important intracellular target of CORM-2, with CORM-2 having a much higher affinity for reduced glutathione (GSH) than oxidised glutathione (GSSG) (GSH, <i>K</i><sub>d</sub> 2 μM; GSSG, <i>K</i><sub>d</sub> 25,000 μM). The toxicity of low, but potent, levels (15 μM) of CORM-2 was accompanied by cell lysis, as judged by the release of cytoplasmic ATP pools. The biological effects of CORM-2 and related CORMs, and the design of biological experiments, must be re-examined in the light of these data.https://www.mdpi.com/2076-3921/10/6/915amino acidantimicrobial agentbacteriacarbon monoxideCORM-2glutathione
collection DOAJ
language English
format Article
sources DOAJ
author Hannah M. Southam
Michael P. Williamson
Jonathan A. Chapman
Rhiannon L. Lyon
Clare R. Trevitt
Peter J. F. Henderson
Robert K. Poole
spellingShingle Hannah M. Southam
Michael P. Williamson
Jonathan A. Chapman
Rhiannon L. Lyon
Clare R. Trevitt
Peter J. F. Henderson
Robert K. Poole
‘Carbon-Monoxide-Releasing Molecule-2 (CORM-2)’ Is a Misnomer: Ruthenium Toxicity, Not CO Release, Accounts for Its Antimicrobial Effects
Antioxidants
amino acid
antimicrobial agent
bacteria
carbon monoxide
CORM-2
glutathione
author_facet Hannah M. Southam
Michael P. Williamson
Jonathan A. Chapman
Rhiannon L. Lyon
Clare R. Trevitt
Peter J. F. Henderson
Robert K. Poole
author_sort Hannah M. Southam
title ‘Carbon-Monoxide-Releasing Molecule-2 (CORM-2)’ Is a Misnomer: Ruthenium Toxicity, Not CO Release, Accounts for Its Antimicrobial Effects
title_short ‘Carbon-Monoxide-Releasing Molecule-2 (CORM-2)’ Is a Misnomer: Ruthenium Toxicity, Not CO Release, Accounts for Its Antimicrobial Effects
title_full ‘Carbon-Monoxide-Releasing Molecule-2 (CORM-2)’ Is a Misnomer: Ruthenium Toxicity, Not CO Release, Accounts for Its Antimicrobial Effects
title_fullStr ‘Carbon-Monoxide-Releasing Molecule-2 (CORM-2)’ Is a Misnomer: Ruthenium Toxicity, Not CO Release, Accounts for Its Antimicrobial Effects
title_full_unstemmed ‘Carbon-Monoxide-Releasing Molecule-2 (CORM-2)’ Is a Misnomer: Ruthenium Toxicity, Not CO Release, Accounts for Its Antimicrobial Effects
title_sort ‘carbon-monoxide-releasing molecule-2 (corm-2)’ is a misnomer: ruthenium toxicity, not co release, accounts for its antimicrobial effects
publisher MDPI AG
series Antioxidants
issn 2076-3921
publishDate 2021-06-01
description Carbon monoxide (CO)-releasing molecules (CORMs) are used to deliver CO, a biological ‘gasotransmitter’, in biological chemistry and biomedicine. CORMs kill bacteria in culture and in animal models, but are reportedly benign towards mammalian cells. CORM-2 (tricarbonyldichlororuthenium(II) dimer, Ru<sub>2</sub>Cl<sub>4</sub>(CO)<sub>6</sub>), the first widely used and commercially available CORM, displays numerous pharmacological, biochemical and microbiological activities, generally attributed to CO release. Here, we investigate the basis of its potent antibacterial activity against <i>Escherichia coli</i> and demonstrate, using three globin CO sensors, that CORM-2 releases negligible CO (<0.1 mol CO per mol CORM-2). A strong negative correlation between viability and cellular ruthenium accumulation implies that ruthenium toxicity underlies biocidal activity. Exogenous amino acids and thiols (especially cysteine, glutathione and N-acetyl cysteine) protected bacteria against inhibition of growth by CORM-2. Bacteria treated with 30 μM CORM-2, with added cysteine and histidine, exhibited no significant loss of viability, but were killed in the absence of these amino acids. Their prevention of toxicity correlates with their CORM-2-binding affinities (Cys, <i>K</i><sub>d</sub> 3 μM; His, <i>K</i><sub>d</sub> 130 μM) as determined by <sup>1</sup>H-NMR. Glutathione is proposed to be an important intracellular target of CORM-2, with CORM-2 having a much higher affinity for reduced glutathione (GSH) than oxidised glutathione (GSSG) (GSH, <i>K</i><sub>d</sub> 2 μM; GSSG, <i>K</i><sub>d</sub> 25,000 μM). The toxicity of low, but potent, levels (15 μM) of CORM-2 was accompanied by cell lysis, as judged by the release of cytoplasmic ATP pools. The biological effects of CORM-2 and related CORMs, and the design of biological experiments, must be re-examined in the light of these data.
topic amino acid
antimicrobial agent
bacteria
carbon monoxide
CORM-2
glutathione
url https://www.mdpi.com/2076-3921/10/6/915
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