Computational modeling of novel inhibitors targeting the Akt pleckstrin homology domain

Lei Du-Cuny; Zuohe Song; Sylvestor Moses; Garth Powis; Eugene A. Mash; Emmanuelle J. Meuillet; Shuxing Zhang

doi:10.1016/j.bmc.2009.08.022

Computational modeling of novel inhibitors targeting the Akt pleckstrin homology domain

Lei Du-Cuny, Zuohe Song, Sylvestor Moses, Garth Powis, Eugene A. Mash, Emmanuelle J. Meuillet, Shuxing Zhang

Experimental Therapeutics

Research output: Contribution to journal › Article › peer-review

30 Scopus citations

Abstract

Computational modeling continues to play an important role in novel therapeutics discovery and development. In this study, we have investigated the use of in silico approaches to develop inhibitors of the pleckstrin homology (PH) domain of AKT (protein kinase B). Various docking/scoring schemes have been evaluated, and the best combination was selected to study the system. Using this strategy, two hits were identified and their binding behaviors were investigated. Robust and predictive QSAR models were built using the k nearest neighbor (kNN) method to study their cellular permeability. Based on our in silico results, long flexible aliphatic tails were proposed to improve the Caco-2 penetration without affecting the binding mode. The modifications enhanced the AKT inhibitory activity of the compounds in cell-based assays, and increased their activity as in vivo antitumor testing.

Original language	English (US)
Pages (from-to)	6983-6992
Number of pages	10
Journal	Bioorganic and Medicinal Chemistry
Volume	17
Issue number	19
DOIs	https://doi.org/10.1016/j.bmc.2009.08.022
State	Published - Oct 1 2009

Keywords

Akt inhibitors
Anticancer drugs
Cell permeability
In silico drug design
Metabolism
Molecular docking/scoring
Pleckstrin homology domain
QSAR

ASJC Scopus subject areas

Biochemistry
Molecular Medicine
Molecular Biology
Pharmaceutical Science
Drug Discovery
Clinical Biochemistry
Organic Chemistry

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10.1016/j.bmc.2009.08.022

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title = "Computational modeling of novel inhibitors targeting the Akt pleckstrin homology domain",

abstract = "Computational modeling continues to play an important role in novel therapeutics discovery and development. In this study, we have investigated the use of in silico approaches to develop inhibitors of the pleckstrin homology (PH) domain of AKT (protein kinase B). Various docking/scoring schemes have been evaluated, and the best combination was selected to study the system. Using this strategy, two hits were identified and their binding behaviors were investigated. Robust and predictive QSAR models were built using the k nearest neighbor (kNN) method to study their cellular permeability. Based on our in silico results, long flexible aliphatic tails were proposed to improve the Caco-2 penetration without affecting the binding mode. The modifications enhanced the AKT inhibitory activity of the compounds in cell-based assays, and increased their activity as in vivo antitumor testing.",

keywords = "Akt inhibitors, Anticancer drugs, Cell permeability, In silico drug design, Metabolism, Molecular docking/scoring, Pleckstrin homology domain, QSAR",

author = "Lei Du-Cuny and Zuohe Song and Sylvestor Moses and Garth Powis and Mash, {Eugene A.} and Meuillet, {Emmanuelle J.} and Shuxing Zhang",

note = "Funding Information: This work was supported by the MD Anderson Cancer Center Faculty Startup to S.Z. and the NIH/NCI grants RO1 CA061015 and P30 CA23074 to G.P. We also thank Dr. A. Tropsha for providing the k NN package. ",

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doi = "10.1016/j.bmc.2009.08.022",

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AU - Moses, Sylvestor

AU - Powis, Garth

AU - Mash, Eugene A.

AU - Meuillet, Emmanuelle J.

AU - Zhang, Shuxing

N1 - Funding Information: This work was supported by the MD Anderson Cancer Center Faculty Startup to S.Z. and the NIH/NCI grants RO1 CA061015 and P30 CA23074 to G.P. We also thank Dr. A. Tropsha for providing the k NN package.

PY - 2009/10/1

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N2 - Computational modeling continues to play an important role in novel therapeutics discovery and development. In this study, we have investigated the use of in silico approaches to develop inhibitors of the pleckstrin homology (PH) domain of AKT (protein kinase B). Various docking/scoring schemes have been evaluated, and the best combination was selected to study the system. Using this strategy, two hits were identified and their binding behaviors were investigated. Robust and predictive QSAR models were built using the k nearest neighbor (kNN) method to study their cellular permeability. Based on our in silico results, long flexible aliphatic tails were proposed to improve the Caco-2 penetration without affecting the binding mode. The modifications enhanced the AKT inhibitory activity of the compounds in cell-based assays, and increased their activity as in vivo antitumor testing.

AB - Computational modeling continues to play an important role in novel therapeutics discovery and development. In this study, we have investigated the use of in silico approaches to develop inhibitors of the pleckstrin homology (PH) domain of AKT (protein kinase B). Various docking/scoring schemes have been evaluated, and the best combination was selected to study the system. Using this strategy, two hits were identified and their binding behaviors were investigated. Robust and predictive QSAR models were built using the k nearest neighbor (kNN) method to study their cellular permeability. Based on our in silico results, long flexible aliphatic tails were proposed to improve the Caco-2 penetration without affecting the binding mode. The modifications enhanced the AKT inhibitory activity of the compounds in cell-based assays, and increased their activity as in vivo antitumor testing.

KW - Akt inhibitors

KW - Anticancer drugs

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Computational modeling of novel inhibitors targeting the Akt pleckstrin homology domain

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Keywords

ASJC Scopus subject areas

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