Abstract
Xanthine oxidase (XO) is an important target for the effective treatment of hyperuricemia-associated diseases. A series of novel 2-substituted 6-oxo-1,6-dihydropyrimidine-5-carboxylic acids (ODCs) as XO inhibitors (XOIs) with remarkable activities have been reported recently. To better understand the key pharmacological characteristics of these XOIs and explore more hit compounds, in the present study, the three-dimensional quantitative structure–activity relationship (3D-QSAR), molecular docking, pharmacophore modeling, and molecular dynamics (MD) studies were performed on 46 ODCs. The constructed 3D-QSAR models exhibited reliable predictability with satisfactory validation parameters, including q2 = 0.897, R2 = 0.983, rpred2 = 0.948 in a CoMFA model, and q2 = 0.922, R2 = 0.990, rpred2 = 0.840 in a CoMSIA model. Docking and MD simulations further gave insights into the binding modes of these ODCs with the XO protein. The results indicated that key residues Glu802, Arg880, Asn768, Thr1010, Phe914, and Phe1009 could interact with ODCs by hydrogen bonds, π-π stackings, or hydrophobic interactions, which might be significant for the activity of these XOIs. Four potential hits were virtually screened out using the constructed pharmacophore model in combination with molecular dockings and ADME predictions. The four hits were also found to be relatively stable in the binding pocket by MD simulations. The results in this study might provide effective information for the design and development of novel XOIs.
Highlights
Gout is a clinical syndrome accompanied by some chronic and recurrent symptoms, such as pain, inflammation, and swelling [1,2,3,4]
We found that several screened compounds contained a similar indole ring that corresponded to the benzene ring of febuxostat analogues, which might provide new ideas for designing novel XO inhibitors (XOIs)
Molecular docking results indicated that residues Glu802, Arg880, Thr1010, and Asn768 could form hydrogen bonds with these XOIs, and residues Phe914 and Phe1009 could form π-π interactions with them
Summary
Gout is a clinical syndrome accompanied by some chronic and recurrent symptoms, such as pain, inflammation, and swelling [1,2,3,4]. Such an unhealthy condition originates from the superabundant presence of serum uric acid (SUA), which has been defined as hyperuricemia (HUA) and regarded as the primary cause of gout [5,6,7]. Clinical evidence has indicated that XO was a promising target for effectively treating with several diseases, especially with the HUA-associated conditions [8,9,10,11,12,13,14]
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