Structure-antioxidant activity relationships in boldine and glaucine: a DFT study

Alejandro Vásquez-Espinal; Osvaldo Yañez; Edison Osorio; Carlos Areche; Olimpo García-Beltrán; Lina M. Ruiz; Bruce K. Cassels; William Tiznado

doi:10.1039/d0nj04028b

Structure-antioxidant activity relationships in boldine and glaucine: a DFT study

Alejandro Vásquez-Espinal, Osvaldo Yañez, Edison Osorio, Carlos Areche, Olimpo García-Beltrán, Lina M. Ruiz, Bruce K. Cassels, William Tiznado

Resultado de la investigación: Contribución a una revista › Artículo › revisión exhaustiva

2 Citas (Scopus)

Resumen

Previous experimental results on the free radical-scavenging properties of boldine, one of the most potent natural antioxidants, suggested that the benzylic hydrogen, neighboring a nitrogen lone electron pair, might be the key to its protective and antioxidant effect, in contrast to the usually assumed labile phenolic hydrogen atoms. Our computations suggest that both boldine and glaucine can undergo two successive hydrogen transfers under attack by an oxidizing radical (from C-6a-H and C-7-H). The hydroxyl groups of boldine could also participate via the HAT mechanism, although to a lesser extent. In the case of quaternary N-methylated derivatives, the sharing of the nitrogen lone pair makes the transfer of the C-6a hydrogen energetically unfeasible, supporting the earlier proposal based on experimental evidence. The hydroxyl groups of boldine and its derivatives could contribute to antioxidant activity via the sequential proton loss electron transfer mechanism, although this would only be relevant at higher pH values.

Idioma original	Inglés
Páginas (desde-hasta)	590-596
Número de páginas	7
Publicación	New Journal of Chemistry
Volumen	45
N.º	2
DOI	https://doi.org/10.1039/d0nj04028b
Estado	Publicada - 14 ene. 2021

Áreas temáticas de ASJC Scopus

Catálisis
Química (todo)
Química de los materiales

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title = "Structure-antioxidant activity relationships in boldine and glaucine: a DFT study",

abstract = "Previous experimental results on the free radical-scavenging properties of boldine, one of the most potent natural antioxidants, suggested that the benzylic hydrogen, neighboring a nitrogen lone electron pair, might be the key to its protective and antioxidant effect, in contrast to the usually assumed labile phenolic hydrogen atoms. Our computations suggest that both boldine and glaucine can undergo two successive hydrogen transfers under attack by an oxidizing radical (from C-6a-H and C-7-H). The hydroxyl groups of boldine could also participate via the HAT mechanism, although to a lesser extent. In the case of quaternary N-methylated derivatives, the sharing of the nitrogen lone pair makes the transfer of the C-6a hydrogen energetically unfeasible, supporting the earlier proposal based on experimental evidence. The hydroxyl groups of boldine and its derivatives could contribute to antioxidant activity via the sequential proton loss electron transfer mechanism, although this would only be relevant at higher pH values.",

author = "Alejandro V{\'a}squez-Espinal and Osvaldo Ya{\~n}ez and Edison Osorio and Carlos Areche and Olimpo Garc{\'i}a-Beltr{\'a}n and Ruiz, {Lina M.} and Cassels, {Bruce K.} and William Tiznado",

note = "Funding Information: The authors are grateful for the financial support from the Fondecyt Grant No. 1181165. O. G.-B. acknowledges the funding from the following institutions: Ministry of Education, the Ministry of Industry, Trade and Tourism, and ICETEX; Programme Ecosistema Cient?fico-Colombia Cient?fica, and the Francisco Jos? de Caldas Fund Grant RC-FP44842-212-2018. [email protected]: This research was partially supported by the supercomputing infrastructure of the NLHPC (ECM-02). Publisher Copyright: {\textcopyright} 2021 The Royal Society of Chemistry and the Centre National de la Recherche Scientifique. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.",

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doi = "10.1039/d0nj04028b",

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T2 - a DFT study

AU - Vásquez-Espinal, Alejandro

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AU - Areche, Carlos

AU - García-Beltrán, Olimpo

AU - Ruiz, Lina M.

AU - Cassels, Bruce K.

AU - Tiznado, William

N1 - Funding Information: The authors are grateful for the financial support from the Fondecyt Grant No. 1181165. O. G.-B. acknowledges the funding from the following institutions: Ministry of Education, the Ministry of Industry, Trade and Tourism, and ICETEX; Programme Ecosistema Cient?fico-Colombia Cient?fica, and the Francisco Jos? de Caldas Fund Grant RC-FP44842-212-2018. [email protected]: This research was partially supported by the supercomputing infrastructure of the NLHPC (ECM-02). Publisher Copyright: © 2021 The Royal Society of Chemistry and the Centre National de la Recherche Scientifique. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

PY - 2021/1/14

Y1 - 2021/1/14

N2 - Previous experimental results on the free radical-scavenging properties of boldine, one of the most potent natural antioxidants, suggested that the benzylic hydrogen, neighboring a nitrogen lone electron pair, might be the key to its protective and antioxidant effect, in contrast to the usually assumed labile phenolic hydrogen atoms. Our computations suggest that both boldine and glaucine can undergo two successive hydrogen transfers under attack by an oxidizing radical (from C-6a-H and C-7-H). The hydroxyl groups of boldine could also participate via the HAT mechanism, although to a lesser extent. In the case of quaternary N-methylated derivatives, the sharing of the nitrogen lone pair makes the transfer of the C-6a hydrogen energetically unfeasible, supporting the earlier proposal based on experimental evidence. The hydroxyl groups of boldine and its derivatives could contribute to antioxidant activity via the sequential proton loss electron transfer mechanism, although this would only be relevant at higher pH values.

AB - Previous experimental results on the free radical-scavenging properties of boldine, one of the most potent natural antioxidants, suggested that the benzylic hydrogen, neighboring a nitrogen lone electron pair, might be the key to its protective and antioxidant effect, in contrast to the usually assumed labile phenolic hydrogen atoms. Our computations suggest that both boldine and glaucine can undergo two successive hydrogen transfers under attack by an oxidizing radical (from C-6a-H and C-7-H). The hydroxyl groups of boldine could also participate via the HAT mechanism, although to a lesser extent. In the case of quaternary N-methylated derivatives, the sharing of the nitrogen lone pair makes the transfer of the C-6a hydrogen energetically unfeasible, supporting the earlier proposal based on experimental evidence. The hydroxyl groups of boldine and its derivatives could contribute to antioxidant activity via the sequential proton loss electron transfer mechanism, although this would only be relevant at higher pH values.

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Structure-antioxidant activity relationships in boldine and glaucine: a DFT study

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