Computer-designed melatonin derivatives: potent peroxyl radical scavengers with no pro-oxidant behavior

The antioxidant activity of five melatonin derivatives, recently designed, was investigated using the density functional theory. Different mechanisms and reaction sites were considered, as well as the polarity of the environment and the pH in aqueous solution. These melatonin analogs are predicted t...

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Bibliographic Details
Published in:Theoretical chemistry accounts 2020-08, Vol.139 (8), Article 133
Main Authors: Castañeda-Arriaga, Romina, Pérez-González, Adriana, Reina, Miguel, Galano, Annia
Format: Article
Language:English
Subjects:
Antioxidants
Aqueous solutions
Ascorbic acid
Atomic/Molecular Structure and Spectra
Biomolecules
Chemistry
Chemistry and Materials Science
Density functional theory
Derivatives
Free radicals
Inorganic Chemistry
Lipids
Melatonin
Organic Chemistry
Oxidizing agents
Physical Chemistry
Polarity
Regular Article
Scavengers
Theoretical and Computational Chemistry
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Summary:The antioxidant activity of five melatonin derivatives, recently designed, was investigated using the density functional theory. Different mechanisms and reaction sites were considered, as well as the polarity of the environment and the pH in aqueous solution. These melatonin analogs are predicted to be, in both media, more potent peroxyl radical scavengers than Trolox, ascorbic acid, resveratrol and melatonin itself. The possibility that the open-shell species, yielded by the reactions between free radicals and the investigated compounds, represent a hazard to the integrity of biomolecules were also explored. The obtained results indicate that they should be innocuous to lipids, proteins, and DNA, i.e., their pro-oxidant effects are expected to be negligible. The gathered data indicate that while melatonin itself is not a good peroxyl radical scavenger, functionalizing its molecular framework may produce derivatives that excellent for that purpose.
ISSN:1432-881X
1432-2234
DOI:10.1007/s00214-020-02641-9