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1. Biochemical properties and bioactivities of carbon monoxide-releasing molecules (CO-RMs)

Author

Sawle, Philip John

Subjects
615.836
Abstract

Carbon monoxide (CO), synonymous of the "silent killer", is rapidly emerging as an important and versatile mediator of physiological processes. The study of CO has been hampered by the lack of a means to simulate its release biologically. Current means to replicate the effects of CO include, most notably, the use of CO gas and upregulation of haem oxygenase-1 (HO-1) to generate endogenous CO. Both are limited in their approach and offer only a partial solution. The recent discovery that certain transition metal carbonyls function as CO-releasing molecules (CO-RMs) in biological systems highlighted the potential of exploiting this and similar classes of compounds as a stratagem to deliver CO for research and therapeutic purposes. Initially a large portfolio of CO-RMs was investigated to determine their CO releasing capability. This thesis examines a number of aspects related to the characterisation of a core group of CO-RMs including: a) CORM-3, the prototypic water soluble transition metal carbonyl b) CORM-A1, a water soluble CO-RM without a metal centre c) CORM-319, an iron based water soluble CO-RM and d) CORM-311, an ethanol soluble iron centred CO-RM. Specifically, the study will examine CO-RMs for their ability to: i) release CO ii) suppress LPS-induced nitrite production iii) promote toxicity iv) induce haem oxygenase (HO) activity and HO-1 expression and v) modulate inducible nitric oxide synthase (iNOS) expression. These different aspects of CO-RM characterisation were addressed using biochemical, molecular biology and cell culture techniques. Further work was also carried out determining certain chemical aspects of each CO-RM including the decomposition rate and pH/temperature stability. The study into the CO release of the new CO-RMs emphasizes the versatile potential of the metal carbonyl complexes and related compounds. This research on CO-RMs will help lay the foundations for a novel therapeutic agent based on the delivery of safe and controlled quantities of CO.

Published
2006

6. Experimental hemorrhagic stroke: search for a better model

Author

Yabluchanskiy, Andriy, Sawle, Philip, Homer-vanniasinkam, Shervanthi, Green, Colin, and Motterlini, Roberto

Subjects
cardiovascular diseases, ГЕМОРРАГИЧЕСКИЙ ИНСУЛЬТ, ЭКСПЕРИМЕНТАЛЬНОЕ ИССЛЕДОВАНИЕ, БИОЛОГИЧЕСКАЯ МОДЕЛЬ, ЛАБОРАТОРНОЕ ЖИВОТНОЕ, ГЕМОРАГіЧНИЙ іНСУЛЬТ, ЕКСПЕРИМЕНТАЛЬНЕ ДОСЛіДЖЕННЯ, БіОЛОГіЧНА МОДЕЛЬ, ЛАБОРАТОРНА ТВАРИНА
Abstract

Hemorrhagic stroke is one of the least studied problems in the modern neurology. Development of the treatment leads to examination of the pathophysiology of the process, which mainly can be performed in animal models. Recent years few animal model of the hemorrhagic stroke have been proposed. In this review we discuss the differences and benefits of the existing models in the compliance with the process that take place in human patients with hemorrhagic stroke.

Published
2010

7. BIOACTIVE PROPERTIES OF IRON-CONTAINING CARBON

Author

Sawle, Philip, Hammad, Jehad, Fairlamb, Ian JS, Moulton, Benjamin, O'brien, Ciara T, Lynam, Jason M, Duhme-Klair, Anne K, Duhme-Klair, Anne-kathrin, Foresti, Roberta, and Motterlini, Roberto

Abstract

Carbon monoxide-releasing molecules (CO-RMs) are compounds capable of delivering controlled amounts of CO within a cellular environment. Ruthenium-based carbonyls (CORM-2 and CORM-3) and boronacorbonates (CORM-A1) have been shown to promote vasodilatory, cardioprotective and anti-inflammatory activities in a variety of experimental models. Here we extend our previous studies by showing that CORM-F3, an irontricarbonyl complex which contains a 2-pyrone motif, liberates CO in vitro and exerts pharmacological actions that are typical of CO gas. Specifically, CORM-F3 caused vasorelaxation in isolated aortic rings and inhibited the inflammatory response (eg nitrite production) of RAW264. 7 macrophages stimulated with endotoxin in a dose-dependent fashion. By analyzing the rate of CO release, we found that when the bromide at the 4-position of the 2-pyrone in CORM-F3 is substituted with a chloride group (CORM-F8), the rate of CO release is significantly decreased (4.5 fold) and a further decrease is observed when the 4-and 6-positions are substituted with a methyl group (CORM-F11) or a hydrogen (CORM-F7), respectively. Interestingly, the compounds containing halogens at the 4-position and the methyl at the 6-position of the 2-pyrone ring (CORM-F3 and CORM-F8) were found to be less cytotoxic compared to other CO-RMs when tested in RAW246. 7 macrophages. Thus, iron-based carbonyls mediate pharmacological responses that are achieved through liberation of CO and the nature of the substituents in the organic ligand have a profound effect on both the rate of CO release and cytotoxicity.

Published
2006

8. CORM-A1: a new pharmacologically active carbon monoxide-releasing molecule

Author

Roberto Motterlini, Sawle, Philip, Hammad, Jehad, Bains, Sandip, Alberto, Roger, Foresti, Roberta, Green, Colin J., University of Zurich, and Motterlini, R

Subjects
10120 Department of Chemistry, 1303 Biochemistry, 1311 Genetics, 540 Chemistry, 1305 Biotechnology, 1312 Molecular Biology
Abstract

SPECIFIC AIMS Carbon monoxide (CO) is emerging as an important and versatile mediator of physiological processes in that treatment of animals with exogenous CO gas has beneficial effects in a range of vascular and inflammatory-related disease models. The recent discovery that certain transition metal carbonyls function as CO-releasing molecules (CO-RMs) in biological systems highlighted the potential of exploiting this and similar classes of compounds as a stratagem to deliver CO for therapeutic purposes. We report on the biochemical features of a newly identified water-soluble CO releaser (Na2 [H3BCO2], here termed CORM-A1) that, unlike the first prototypic molecule recently described by us (CORM-3), does not contain a transition metal and liberates CO at a much slower rate under physiological conditions. The intrinsic biochemical behavior of CORM-A1 as a slow CO releaser reflects its …

Published
2005
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29. CORM-3, a carbon monoxide-releasing molecule, alters the inflammatory response and reduces brain damage in a rat model hemorrhagic stroke of.

Author

Yabluchanskiy, Andriy, Sawle, Philip, Homer-Vanniasinkam, Shervanthi, Green, Colin J., Foresti, Roberta, and Motterlini, Roberto

Subjects
*CARBON monoxide, *BRAIN damage, *STROKE, *COLLAGENASES, *NEUTROPHILS, *THERAPEUTICS
Abstract

The article discusses a study of the effect of water-soluble carbon monoxide-releasing molecule (CORM-3) on the inflammatory response and brain damage in a rat model of hemorrhagic stroke (HS). Sigma Aldrich of England supplied the Collagenase IV-S chemical used in the study. Results showed that CORM-3 attenuated neutrophil. Also cited is the ability of CORM-3 to reduce brain damage compared with collagenase.

Published
2012
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31. μ2-Alkyne dicobalt(0)hexacarbonyl complexes as carbon monoxide-releasing molecules (CO-RMs): probing the release mechanism.

Author

Atkin, Anthony J., Williams, Sophie, Sawle, Philip, Motterlini, Roberto, Lynam, Jason M., and Fairlamb, Ian J. S.

Subjects
ORGANOCOBALT compounds, CARBONYL compounds, TRANSITION metal complexes, CARBON monoxide, ANTIBODY-dependent cell cytotoxicity, MECHANICAL chemistry, ACTIVATION (Chemistry)
Abstract

The first carbon monoxide-releasing molecules (CO-RMs) based on μ2-alkyne dicobalt(0)hexacarbonyl complexes are reported. The alkyne substituents significantly affect the rate of CO-release, cytotoxicity and cell viability. Mechanistic studies provide insight into the CO-RM activation pathways. [ABSTRACT FROM AUTHOR]

Published
2009
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32. μ2-Alkyne dicobalt(0)hexacarbonyl complexes as carbon monoxide-releasing molecules (CO-RMs): probing the release mechanismElectronic supplementary information (ESI) available: Synthetic procedures and characterisation data for the cobalt(0) carbonyl complexes (1a–f), complete assay experiments, including toxicity and cell viability determinations. See DOI: 10.1039/b904627p

Author

Atkin, Anthony J., Williams, Sophie, Sawle, Philip, Motterlini, Roberto, Lynam, Jason M., and Fairlamb, Ian J. S.

Subjects
ALKYNES, ORGANOCOBALT compounds, CARBONYL compounds, COMPLEX compounds synthesis, CARBON monoxide, CELL-mediated cytotoxicity, CELL physiology
Abstract

The first carbon monoxide-releasing molecules (CO-RMs) based on μ2-alkyne dicobalt(0)hexacarbonyl complexes are reported. The alkyne substituents significantly affect the rate of CO-release, cytotoxicity and cell viability. Mechanistic studies provide insight into the CO-RM activation pathways. [ABSTRACT FROM AUTHOR]

Published
2009
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33. Donor HO-1 Expression Inhibits Intimal Hyperplasia in Unmanipulated Graft Recipients A Potential Role for CD8T-Cell Modulation by Carbon Monoxide

Author

Clarke, Helen M., Shrivastava, Seema, Motterlini, Roberto, Sawle, Philip, Chen, Daxin, and Dorling, Anthony

Abstract

Induction of heme oxygenase (HO)-1 expression protects transplanted organs from humoral rejection and ischemia-reperfusion injury, but induction in recipient immune cells also has direct immunomodulatory effects. Although many studies have examined the impact of HO-1 after transplantation, it is still unclear whether HO-1 expression solely in the donor tissue can influence the recipient T-cell response.

Published
2009
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34. CORM-A1: a new pharmacologically active carbon monoxide-releasing molecule.

Author

Motterlini, Roberto, Sawle, Philip, Hammad, Jehad, Bains, Sandip, Alberto, Roger, Foresti, Roberta, and Green, Colin J.

Subjects
*CARBON monoxide, *TEMPERATURE, *HYDROGEN-ion concentration, *BLOOD vessels, *BLOOD pressure
Abstract

Presents a study which described the biochemical features of a newly-identified water-soluble carbon monoxide (CO) releaser, CORM-A1. Liberation of CO by CORM-A1 in a pH- and temperature-dependent manner; Effects of the pharmacologically active quality of the CORM-A1 on vessel tone and blood pressure.

Published
2005
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36. η4-Pyrone iron(0)carbonyl complexes as effective CO-releasing molecules (CO-RMs)

Author

Fairlamb, Ian J.S., Duhme-Klair, Anne-Kathrin, Lynam, Jason M., Moulton, Benjamin E., O’Brien, Ciara T., Sawle, Philip, Hammad, Jehad, and Motterlini, Roberto

Subjects
*CARBON monoxide, *MOLECULES, *THERAPEUTICS, *POISONOUS gases
Abstract

Abstract: The CO-releasing properties of iron(0)tricarbonyl complexes bearing a 2-pyrone ligand have been evaluated. In this report, we demonstrate that the intrinsic stability of the (η4-2-pyrone)Fe(CO)3 complex influences the extent and rate of CO release, which is affected by the presence of a halogen substituent on the 2-pyrone ring. The cell viability index has been highlighted for the active carbon monoxide-releasing molecules (CO-RMs), demonstrating that these complexes and related derivatives are a promising new class of compounds with potential therapeutic applications. [Copyright &y& Elsevier]

Published
2006
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37. Mu2-alkyne dicobalt(0)hexacarbonyl complexes as carbon monoxide-releasing molecules (CO-RMs): probing the release mechanism.

Author

Atkin AJ, Williams S, Sawle P, Motterlini R, Lynam JM, and Fairlamb IJ

Subjects
Animals, Carbon Monoxide chemistry, Cell Survival drug effects, Drug Carriers toxicity, Organometallic Compounds toxicity, Temperature, Time Factors, Alkynes chemistry, Carbon Monoxide metabolism, Cobalt chemistry, Drug Carriers chemistry, Organometallic Compounds chemistry
Abstract

The first carbon monoxide-releasing molecules (CO-RMs) based on mu2-alkyne dicobalt(0)hexacarbonyl complexes are reported. The alkyne substituents significantly affect the rate of CO-release, cytotoxicity and cell viability. Mechanistic studies provide insight into the CO-RM activation pathways.

Published
2009
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38. Structure-activity relationships of methoxychalcones as inducers of heme oxygenase-1.

Author

Sawle P, Moulton BE, Jarzykowska M, Green CJ, Foresti R, Fairlamb IJ, and Motterlini R

Subjects
Animals, Antioxidants chemistry, Biomarkers chemistry, Biomarkers metabolism, Chalcones chemistry, Enzyme Induction, Heme Oxygenase-1 chemistry, Macrophages drug effects, Mice, Structure-Activity Relationship, Antioxidants pharmacology, Chalcones pharmacology, Heme Oxygenase-1 biosynthesis, Macrophages enzymology
Abstract

Chalcones are naturally occurring flavonoids composed of two aromatic rings connected by a three-carbon unit forming an alpha-beta unsaturated carbonyl group. They are pharmacologically relevant because of their ability to exert anticarcinogenic, antimicrobial, and anti-inflammatory activities. Recent evidence indicates that the bioactivity of hydroxy-chalcones is correlated with their intrinsic property to induce the antioxidant and cytoprotective enzyme heme oxygenase-1 (HO-1). In the present study, we assessed how the methoxy substituents positioned on the two aromatic rings affect the anti-inflammatory action of different chalcones in relation to their ability to increase heme oxygenase in RAW246.7 macrophages. Structure-activity relationships of methoxychlacones were qualitatively and quantitatively examined and correlated with inhibition of endotoxin-mediated nitrite production and cytotoxic effects. Our data indicate that (i) a progressive increase in heme oxygenase activity is obtained by sequentially increasing the number of methoxy substituents in the 3,4,5- and 3',4',5'-positions of the aromatic rings; (ii) methoxy substituents placed either in the 2,4,6-positions or alone in the 4- or 4'-position are ineffective; (iii) increased heme oxygenase activity by chalcones is lost when the alpha-beta double bond and the carbonyl group are reduced or protected; (iv) the anti-inflammatory activity and cytotoxicity profiles of the chalcones examined correlate with their potency as HO-1 inducers; and (v) chalcone-mediated HO-1 induction is reduced by thiols or inhibitors of phosphatidylinositol-3 kinase (PI3K) pathway. This study provides additional information on the structural features that methoxychalcones and natural antioxidants need to possess to be considered as therapeutic agents for maximizing HO-1 expression and activity.

Published
2008
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39. [(Eta-C5H4R)Fe(CO)2X], X = Cl, Br, I, NO3, CO2Me and [(eta-C5H4R)Fe(CO)3]+, R = (CH2)nCO2Me (n = 0-2), and CO2CH2CH2OH: a new group of CO-releasing molecules.

Author

Scapens D, Adams H, Johnson TR, Mann BE, Sawle P, Aqil R, Perrior T, and Motterlini R

Subjects
Crystallography, X-Ray, Half-Life, Magnetic Resonance Spectroscopy, Models, Molecular, Carbon Monoxide chemistry
Abstract

A new group of CO-releasing molecules, CO-RMs, based on cyclopentadienyl iron carbonyls have been identified. X-Ray structures have been determined for [(eta-C(5)H(4)CO(2)Me)Fe(CO)(2)X], X = Cl, Br, I, NO(3), CO(2)Me, [(eta-C(5)H(4)CO(2)Me)Fe(CO)(2)](2), [(eta-C(5)H(4)CO(2)CH(2)CH(2)OH)Fe(CO)(2)](2) and [(eta-C(5)H(4)CO(2)Me)Fe(CO)(3)][FeCl(4)]. Half-lives for CO release, (1)H, (13)C, and (17)OC NMR and IR spectra have been determined along with some biological data for these compounds, [(eta-C(5)H(4)CO(2)CH(2)CH(2)OH)Fe(CO)(3)](+) and [[eta-C(5)H(4)(CH(2))(n)CO(2)Me]Fe(CO)(3)](+), n = 1, 2. More specifically, cytotoxicity assays and inhibition of nitrite formation in stimulated RAW264.7 macrophages are reported for most of the compounds analyzed. [(eta-C(5)H(5))Fe(CO)(2)X], X = Cl, Br, I, were also examined for comparison. Correlations between the half-lives for CO release and spectroscopic parameters are found within each group of compounds, but not between the groups.

Published
2007
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40. Eta(1)-2-pyrone metal carbonyl complexes as CO-releasing molecules (CO-RMs): a delicate balance between stability and CO liberation.

Author

Fairlamb IJ, Lynam JM, Moulton BE, Taylor IE, Duhme-Klair AK, Sawle P, and Motterlini R

Subjects
Animals, Aorta drug effects, Carbon Monoxide metabolism, Carbon Monoxide pharmacology, Molecular Structure, Organometallic Compounds metabolism, Organometallic Compounds pharmacology, Vasodilator Agents chemistry, Carbon Monoxide chemistry, Drug Stability, Iron chemistry, Molybdenum chemistry, Organometallic Compounds chemistry, Pyrones chemistry, Vasodilator Agents pharmacology
Abstract

An evaluation of the CO releasing ability of iron(II) and molybdenum(II) complexes has facilitated the discovery of the most rapid CO releaser, namely [Mo(CO)(3)(eta(5)-C(5)H(5))(eta(1)-{O}-C{=O}-O-CMe=CH-COMe=CBr)]BF(4) (CORM-F10), reported to date. The rate of CO release is related to the overall solution phase stability of the transition metal carbonyl complex. The cytotoxicity and vasodilatory properties of CORM-F10 have been determined.

Published
2007
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41. Eta4-pyrone iron(0)carbonyl complexes as effective CO-releasing molecules (CO-RMs).

Author

Fairlamb IJ, Duhme-Klair AK, Lynam JM, Moulton BE, O'Brien CT, Sawle P, Hammad J, and Motterlini R

Subjects
Animals, Carbon Monoxide chemistry, Cell Survival drug effects, Cell Survival physiology, Ferric Compounds chemistry, Ferric Compounds classification, Ligands, Macrophages drug effects, Mice, Molecular Structure, Time Factors, Carbon Monoxide metabolism, Ferric Compounds pharmacology, Iron chemistry, Pyrones chemistry
Abstract

The CO-releasing properties of iron(0)tricarbonyl complexes bearing a 2-pyrone ligand have been evaluated. In this report, we demonstrate that the intrinsic stability of the (eta4-2-pyrone)Fe(CO)3 complex influences the extent and rate of CO release, which is affected by the presence of a halogen substituent on the 2-pyrone ring. The cell viability index has been highlighted for the active carbon monoxide-releasing molecules (CO-RMs), demonstrating that these complexes and related derivatives are a promising new class of compounds with potential therapeutic applications.

Published
2006
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