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Redox and catalase-like activities of four widely used carbon monoxide releasing molecules (CO-RMs)

The pathophysiological roles of the endogenous signaling molecule, carbon monoxide (CO), have been extensively studied and validated in cell culture and animal models. Further, evidence supporting the therapeutic effects of CO in various human diseases has been mounting over the last two decades. Al...

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Autores principales: Yuan, Zhengnan, Yang, Xiaoxiao, Wang, Binghe
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The Royal Society of Chemistry 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8513939/
https://www.ncbi.nlm.nih.gov/pubmed/34745532
http://dx.doi.org/10.1039/d1sc03832j
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author Yuan, Zhengnan
Yang, Xiaoxiao
Wang, Binghe
author_facet Yuan, Zhengnan
Yang, Xiaoxiao
Wang, Binghe
author_sort Yuan, Zhengnan
collection PubMed
description The pathophysiological roles of the endogenous signaling molecule, carbon monoxide (CO), have been extensively studied and validated in cell culture and animal models. Further, evidence supporting the therapeutic effects of CO in various human diseases has been mounting over the last two decades. Along this line, there has been intensive interest in developing various delivery forms including CO gas, CO in solution, metal–carbonyl complexes widely known as CO-releasing molecules (CO-RMs), and organic CO prodrugs. Among them, two ruthenium-based carbonyl complexes, CORM-2 and -3, occupy a very special place because they have been used in over 500 published studies. One of the mechanisms for CO's actions is known to be through attenuation of oxidative stress and regulation of production of reactive oxygen species (ROS). For this reason, it is important that CO delivery forms do not have intrinsic chemical redox properties. Herein, we describe our findings of catalase-like activities of CORM-2 and -3 in a CO-independent fashion, leading to the rapid degradation of hydrogen peroxide (H(2)O(2)) in PBS buffer (pH = 7.4) and in cell culture media. Further, we have found that CORM-2 and CORM-3 possess potent radical scavenging abilities. We have also studied two other widely used CO donors: CORM-401 and CORM-A1. Both showed chemical reactivity with ROS, but to a lesser degree than CORM-2 and -3. Because of the central role of ROS in some of the proposed mechanisms of actions for CO biology, the discovery of intrinsic chemical redox properties for these CO-RMs means that additional attention in designing proper controls is needed in future biological experiments using these CO-RMs for their CO-donating functions. Further, much more work is needed to understand the true implications of the chemical reactivity of these CO-RMs in cell-culture and animal-model studies of CO biology.
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spelling pubmed-85139392021-11-04 Redox and catalase-like activities of four widely used carbon monoxide releasing molecules (CO-RMs) Yuan, Zhengnan Yang, Xiaoxiao Wang, Binghe Chem Sci Chemistry The pathophysiological roles of the endogenous signaling molecule, carbon monoxide (CO), have been extensively studied and validated in cell culture and animal models. Further, evidence supporting the therapeutic effects of CO in various human diseases has been mounting over the last two decades. Along this line, there has been intensive interest in developing various delivery forms including CO gas, CO in solution, metal–carbonyl complexes widely known as CO-releasing molecules (CO-RMs), and organic CO prodrugs. Among them, two ruthenium-based carbonyl complexes, CORM-2 and -3, occupy a very special place because they have been used in over 500 published studies. One of the mechanisms for CO's actions is known to be through attenuation of oxidative stress and regulation of production of reactive oxygen species (ROS). For this reason, it is important that CO delivery forms do not have intrinsic chemical redox properties. Herein, we describe our findings of catalase-like activities of CORM-2 and -3 in a CO-independent fashion, leading to the rapid degradation of hydrogen peroxide (H(2)O(2)) in PBS buffer (pH = 7.4) and in cell culture media. Further, we have found that CORM-2 and CORM-3 possess potent radical scavenging abilities. We have also studied two other widely used CO donors: CORM-401 and CORM-A1. Both showed chemical reactivity with ROS, but to a lesser degree than CORM-2 and -3. Because of the central role of ROS in some of the proposed mechanisms of actions for CO biology, the discovery of intrinsic chemical redox properties for these CO-RMs means that additional attention in designing proper controls is needed in future biological experiments using these CO-RMs for their CO-donating functions. Further, much more work is needed to understand the true implications of the chemical reactivity of these CO-RMs in cell-culture and animal-model studies of CO biology. The Royal Society of Chemistry 2021-09-13 /pmc/articles/PMC8513939/ /pubmed/34745532 http://dx.doi.org/10.1039/d1sc03832j Text en This journal is © The Royal Society of Chemistry https://creativecommons.org/licenses/by-nc/3.0/
spellingShingle Chemistry
Yuan, Zhengnan
Yang, Xiaoxiao
Wang, Binghe
Redox and catalase-like activities of four widely used carbon monoxide releasing molecules (CO-RMs)
title Redox and catalase-like activities of four widely used carbon monoxide releasing molecules (CO-RMs)
title_full Redox and catalase-like activities of four widely used carbon monoxide releasing molecules (CO-RMs)
title_fullStr Redox and catalase-like activities of four widely used carbon monoxide releasing molecules (CO-RMs)
title_full_unstemmed Redox and catalase-like activities of four widely used carbon monoxide releasing molecules (CO-RMs)
title_short Redox and catalase-like activities of four widely used carbon monoxide releasing molecules (CO-RMs)
title_sort redox and catalase-like activities of four widely used carbon monoxide releasing molecules (co-rms)
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8513939/
https://www.ncbi.nlm.nih.gov/pubmed/34745532
http://dx.doi.org/10.1039/d1sc03832j
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