Elucidation of binding mode and three dimensional quantitative structure-activity relationship studies of a novel series of protein kinase B/Akt inhibitors

Authors
Muddassar, M.Pasha, F. A.Neaz, M. M.Saleem, Y.Cho, S. J.
Issue Date
2009-02
Publisher
SPRINGER
Citation
JOURNAL OF MOLECULAR MODELING, v.15, no.2, pp.183 - 192
Abstract
Protein kinase B (PKB; also known as Akt kinase) is located downstream in the PI-3 kinase pathway. Overexpression and constitutive activation of PKB/Akt leads to human prostate, breast and ovarian carcinomas. A series of 69 PKB/Akt inhibitors were examined to explore their binding modes using FlexX, and three-dimensional quantitative structure-activity relationship (3D-QSAR) studies based on comparative molecular field analysis (CoMFA) and comparative molecular similarity indices analysis (CoMSIA) were performed to provide structural insights into these compounds. CoMFA produced statistically significant results, with cross-validated q (2) and non-cross validated correlation r (2) coefficients of 0.53 and 0.95, respectively. For CoMSIA, steric, hydrophobic and hydrogen bond acceptor fields jointly yielded 'leave one out' q (2) = 0.51 and r (2) = 0.84. The predictive power of CoMFA and CoMSIA was determined using a test set of 13 molecules, which gave correlation coefficients, r(predictive)(2) of 0.58 and 0.62, respectively. Molecular docking revealed that the binding modes of these molecules in the ATP binding sites of the Akt kinase domain were very similar to those of the co-crystallized ligand. The information obtained from 3D contour maps will allow the design of more potent and selective Akt kinase inhibitors.
Keywords
SIGNAL-TRANSDUCTION; ANALYSIS COMSIA; AKT; QSAR; ACTIVATION; MECHANISM; PHOSPHORYLATION; DERIVATIVES; VALIDATION; PARAMETERS; SIGNAL-TRANSDUCTION; ANALYSIS COMSIA; AKT; QSAR; ACTIVATION; MECHANISM; PHOSPHORYLATION; DERIVATIVES; VALIDATION; PARAMETERS; 3D QSAR; Inhibitors; Molecular docking; Protein kinase B
ISSN
1610-2940
URI
https://pubs.kist.re.kr/handle/201004/132780
DOI
10.1007/s00894-008-0416-7
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KIST Article > 2009
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