Issue 19, 2019, Issue in Progress

The interaction of dietary flavonoids with xanthine oxidase in vitro: molecular property-binding affinity relationship aspects

Abstract

The molecular property–affinity relationships of dietary flavonoids binding to xanthine oxidase were investigated in vitro by comparing the binding constants obtained from a fluorescence-quenching method. The inhibitions of dietary flavonoids on xanthine oxidase were also investigated and analyzed, revealing that the binding process was influenced by the structural differences of the flavonoids under investigation. For example, methylation and hydroxylation at the 7- and 5-positions weakened the binding affinities, while hydroxylation at the 3- and 3′-positions mostly improved binding affinities. Glycosylation and hydrogenation of the C2[double bond, length as m-dash]C3 double bond also increased affinities for xanthine oxidase. In addition, galloylated catechins showed higher binding affinities than non-galloylated catechins. Trends in the binding affinities and inhibition of flavonoids during structure modifications were summarized. Affinities for xanthine oxidase and inhibition on xanthine oxidase changed in the opposite direction during the methylation and hydroxylation of flavonoids in the A ring, and the glycosylation and hydrogenation of C2[double bond, length as m-dash]C3. However, affinities and inhibition for xanthine oxidase changed in the same direction during the methylation and hydroxylation of flavonoids in the B ring.

Graphical abstract: The interaction of dietary flavonoids with xanthine oxidase in vitro: molecular property-binding affinity relationship aspects

Article information

Article type
Paper
Submitted
03 Dec 2018
Accepted
25 Mar 2019
First published
08 Apr 2019
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2019,9, 10781-10788

The interaction of dietary flavonoids with xanthine oxidase in vitro: molecular property-binding affinity relationship aspects

M. Yuan, Y. Liu, A. Xiao, J. Leng, L. Liao, L. Ma and L. Liu, RSC Adv., 2019, 9, 10781 DOI: 10.1039/C8RA09926J

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