In silico approach: biological prediction of nordentatin derivatives as anticancer agent inhibitors in the cAMP pathway

A combination of computational techniques has been carried out to predict the binding of nordentatin derivatives based on pyranocoumarin semi-synthesis with the target protein from the expression of the PDE4B gene. The inhibition of the cAMP pathway is the main target of anti-cancer drugs, which is...

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Bibliographic Details
Published in:RSC advances 2020-11, Vol.10 (70), p.42733-42743
Main Authors: Abdjan, Muhammad Ikhlas, Aminah, Nanik Siti, Siswanto, Imam, Thant, Tin Myo, Kristanti, Alfinda Novi, Takaya, Yoshiaki
Format: Article
Language:English
Subjects:
Anticancer properties
Binding
Cell division
Chemistry
Density functional theory
Derivatives
Drugs
Free energy
Gene expression
Ligands
Molecular docking
Molecular dynamics
Proteins
Residues
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Summary:A combination of computational techniques has been carried out to predict the binding of nordentatin derivatives based on pyranocoumarin semi-synthesis with the target protein from the expression of the PDE4B gene. The inhibition of the cAMP pathway is the main target of anti-cancer drugs, which is responsible for uncontrolled cell division in cancer. Modeling was done using a combination of semi-empirical methods and the density functional theory (PM3-DFT/6-31G*/B3LYP) to obtain the optimal structure of a small ligand that could be modeled. Studies on the interaction of the ligands and amino acid residues on protein targets were carried out using a combination of molecular docking and molecular dynamic simulation. Molecular docking based on functional grid scores showed a very good native ligand pose with an RMSD of 0.93 Å in determining the initial coordinates of the ligand-receptor interactions. Furthermore, the amino acid residues responsible for interaction through H-bonds were Tyr103, His104, His177, Met217, and Gln313. The binding free energy (kcal mol ) results of the candidates were PS-1 (-36.84 ± 0.31), PS-2 (-35.34 ± 0.28), PS-3 (-26.65 ± 0.30), PS-5 (-42.66 ± 0.26), PS-7 (-35.33 ± 0.23), and PS-9 (-32.57 ± 0.20), which are smaller than that of the native ligand Z72 (-24.20 ± 0.19), and thus these have good potential as drugs that can inhibit the cAMP pathway. These results provide theoretical information for the efficient inhibition of the cAMP pathway in the future.
ISSN:2046-2069
2046-2069
DOI:10.1039/d0ra07838g