Litcius/Paper detail

Xanthine oxidase inhibitory peptides derived from tuna protein: virtual screening, inhibitory activity, and molecular mechanisms

Zhipeng Yu, Ruotong Kan, Sijia Wu, Hui Guo, Wenzhu Zhao, Long Ding, Fuping Zheng, Jingbo Liu

2020Journal of the Science of Food and Agriculture62 citationsDOI

Abstract

BACKGROUND: There has been growing interest in the use of xanthine oxidase (XO) as a therapeutic agent to prevent gout and hyperuricemia. In the present study, XO inhibitory peptides were identified from tuna protein by virtual screening, and molecular docking was used to elicit the interaction mechanism between XO and peptides. RESULTS: of 173.00 ± 0.06 μM. Molecular docking analysis revealed that EEAK bound with the pivotal residues of XO's active sites (i.e., Glu802, Arg880, Glu1261) through two conventional hydrogen bond interactions, two attractive charge interactions, and one salt bridge. EEAK could also bind with the residues Phe649, Leu648, Lys771, Ser876, Phe914, and Thr1010 of XO. CONCLUSION: This study suggested that conventional hydrogen bond interactions and electrostatic interactions play an important role in XO inhibition. The novel XO inhibitory peptide EEAK from tuna protein could be used as potential candidate for controlling gout and hyperuricemia. © 2020 Society of Chemical Industry.

Topics & Concepts

Xanthine oxidaseChemistryHyperuricemiaVirtual screeningInhibitory postsynaptic potentialTetrapeptideSalt bridgeHydrogen bondDocking (animal)PeptideBiochemistryUric acidStereochemistryEnzymeMutantBiologyMoleculeDrug discoveryOrganic chemistryMedicineGeneNeuroscienceNursingGout, Hyperuricemia, Uric AcidThyroid Disorders and TreatmentsInflammasome and immune disorders