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Neuroprotective Effects of Mitochondria-Targeted Plastoquinone and Thymoquinone in a Rat Model of Brain Ischemia/Reperfusion Injury

We explored the neuroprotective properties of natural plant-derived antioxidants plastoquinone and thymoquinone (2-demethylplastoquinone derivative) modified to be specifically accumulated in mitochondria. The modification was performed through chemical conjugation of the quinones with penetrating c...

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Autores principales: Silachev, Denis N., Plotnikov, Egor Y., Zorova, Ljubava D., Pevzner, Irina B., Sumbatyan, Natalia V., Korshunova, Galina A., Gulyaev, Mikhail V., Pirogov, Yury A., Skulachev, Vladimir P., Zorov, Dmitry B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2015
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6332348/
https://www.ncbi.nlm.nih.gov/pubmed/26270657
http://dx.doi.org/10.3390/molecules200814487
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author Silachev, Denis N.
Plotnikov, Egor Y.
Zorova, Ljubava D.
Pevzner, Irina B.
Sumbatyan, Natalia V.
Korshunova, Galina A.
Gulyaev, Mikhail V.
Pirogov, Yury A.
Skulachev, Vladimir P.
Zorov, Dmitry B.
author_facet Silachev, Denis N.
Plotnikov, Egor Y.
Zorova, Ljubava D.
Pevzner, Irina B.
Sumbatyan, Natalia V.
Korshunova, Galina A.
Gulyaev, Mikhail V.
Pirogov, Yury A.
Skulachev, Vladimir P.
Zorov, Dmitry B.
author_sort Silachev, Denis N.
collection PubMed
description We explored the neuroprotective properties of natural plant-derived antioxidants plastoquinone and thymoquinone (2-demethylplastoquinone derivative) modified to be specifically accumulated in mitochondria. The modification was performed through chemical conjugation of the quinones with penetrating cations: Rhodamine 19 or tetraphenylphosphonium. Neuroprotective properties were evaluated in a model of middle cerebral artery occlusion. We demonstrate that the mitochondria-targeted compounds, introduced immediately after reperfusion, possess various neuroprotective potencies as judged by the lower brain damage and higher neurological status. Plastoquinone derivatives conjugated with rhodamine were the most efficient, and the least efficiency was shown by antioxidants conjugated with tetraphenylphosphonium. Antioxidants were administered intraperitoneally or intranasally with the latter demonstrating a high level of penetration into the brain tissue. The therapeutic effects of both ways of administration were similar. Long-term administration of antioxidants in low doses reduced the neurological deficit, but had no effect on the volume of brain damage. At present, cationic decylrhodamine derivatives of plastoquinone appear to be the most promising anti-ischemic mitochondria-targeted drugs of the quinone family. We suggest these antioxidants could be potentially used for a stroke treatment.
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spelling pubmed-63323482019-01-24 Neuroprotective Effects of Mitochondria-Targeted Plastoquinone and Thymoquinone in a Rat Model of Brain Ischemia/Reperfusion Injury Silachev, Denis N. Plotnikov, Egor Y. Zorova, Ljubava D. Pevzner, Irina B. Sumbatyan, Natalia V. Korshunova, Galina A. Gulyaev, Mikhail V. Pirogov, Yury A. Skulachev, Vladimir P. Zorov, Dmitry B. Molecules Article We explored the neuroprotective properties of natural plant-derived antioxidants plastoquinone and thymoquinone (2-demethylplastoquinone derivative) modified to be specifically accumulated in mitochondria. The modification was performed through chemical conjugation of the quinones with penetrating cations: Rhodamine 19 or tetraphenylphosphonium. Neuroprotective properties were evaluated in a model of middle cerebral artery occlusion. We demonstrate that the mitochondria-targeted compounds, introduced immediately after reperfusion, possess various neuroprotective potencies as judged by the lower brain damage and higher neurological status. Plastoquinone derivatives conjugated with rhodamine were the most efficient, and the least efficiency was shown by antioxidants conjugated with tetraphenylphosphonium. Antioxidants were administered intraperitoneally or intranasally with the latter demonstrating a high level of penetration into the brain tissue. The therapeutic effects of both ways of administration were similar. Long-term administration of antioxidants in low doses reduced the neurological deficit, but had no effect on the volume of brain damage. At present, cationic decylrhodamine derivatives of plastoquinone appear to be the most promising anti-ischemic mitochondria-targeted drugs of the quinone family. We suggest these antioxidants could be potentially used for a stroke treatment. MDPI 2015-08-11 /pmc/articles/PMC6332348/ /pubmed/26270657 http://dx.doi.org/10.3390/molecules200814487 Text en © 2015 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Silachev, Denis N.
Plotnikov, Egor Y.
Zorova, Ljubava D.
Pevzner, Irina B.
Sumbatyan, Natalia V.
Korshunova, Galina A.
Gulyaev, Mikhail V.
Pirogov, Yury A.
Skulachev, Vladimir P.
Zorov, Dmitry B.
Neuroprotective Effects of Mitochondria-Targeted Plastoquinone and Thymoquinone in a Rat Model of Brain Ischemia/Reperfusion Injury
title Neuroprotective Effects of Mitochondria-Targeted Plastoquinone and Thymoquinone in a Rat Model of Brain Ischemia/Reperfusion Injury
title_full Neuroprotective Effects of Mitochondria-Targeted Plastoquinone and Thymoquinone in a Rat Model of Brain Ischemia/Reperfusion Injury
title_fullStr Neuroprotective Effects of Mitochondria-Targeted Plastoquinone and Thymoquinone in a Rat Model of Brain Ischemia/Reperfusion Injury
title_full_unstemmed Neuroprotective Effects of Mitochondria-Targeted Plastoquinone and Thymoquinone in a Rat Model of Brain Ischemia/Reperfusion Injury
title_short Neuroprotective Effects of Mitochondria-Targeted Plastoquinone and Thymoquinone in a Rat Model of Brain Ischemia/Reperfusion Injury
title_sort neuroprotective effects of mitochondria-targeted plastoquinone and thymoquinone in a rat model of brain ischemia/reperfusion injury
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6332348/
https://www.ncbi.nlm.nih.gov/pubmed/26270657
http://dx.doi.org/10.3390/molecules200814487
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