Quercetin and daidzein β-apo-14'-carotenoic acid esters as membrane antioxidants

Abstract Esterification by β-apo-14'-carotenoic acid was found to have opposite effects on antioxidant activity of quercetin (at B4', B3' hydroxyl) as of daidzein (at A7 hydroxyl) in phosphatidylcholine liposomes. The daidzein ester had increased activity, while quercetin had a signif...

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Bibliographic Details
Published in:Free radical research 2013-05, Vol.47 (5), p.413-421
Main Authors: Hu, F., Bu, Y. Z., Liang, R., Duan, R. M., Wang, S., Han, R. M., Wang, P., Ai, X. C., Zhang, J. P., Skibsted, L. H.
Format: Article
Language:English
Subjects:
antioxidant
Antioxidants - chemistry
Antioxidants - metabolism
Carotenoids - chemistry
Carotenoids - metabolism
daidzein
Esterification
Esters - chemistry
Esters - metabolism
Humans
Hydrogen Bonding
Isoflavones - chemistry
Isoflavones - metabolism
Liposomes - chemistry
Liposomes - metabolism
membrane
Membranes - chemistry
Oxidation-Reduction
Quantum Theory
Quercetin
Quercetin - chemistry
Quercetin - metabolism
Thermodynamics
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Summary:Abstract Esterification by β-apo-14'-carotenoic acid was found to have opposite effects on antioxidant activity of quercetin (at B4', B3' hydroxyl) as of daidzein (at A7 hydroxyl) in phosphatidylcholine liposomes. The daidzein ester had increased activity, while quercetin had a significant decreased activity. Quantum mechanical calculations using density function theory (DFT) indicate a modest decrease in bond dissociation enthalpy, BDE, for (weakest) hydrogen-oxygen phenolic bond in daidzein from 368.4 kJ·mol− 1 to 367.7 kJ·mol− 1 compared to a significant increase in quercetin from 329.5 kJ·mol− 1 to 356.6 kJ·mol− 1 upon derivatization. These opposite changes in tendency for hydrogen atom transfer from phenolic groups to lipid radicals combined with an increase in A-to-B dihedral angle from 0.0° to 36.4° and in dipole moment from 0.40 D to 6.01 D for quercetin upon derivatization, while less significant for daidzein (36.4°-36.7° and 3.26 D-7.87 D, respectively), together provide a rationale for the opposite effect of esterification on antioxidation.
ISSN:1071-5762
1029-2470
DOI:10.3109/10715762.2013.784396