Comprehensive modeling and discovery of mebendazole as a novel TRAF2- and NCK-interacting kinase inhibitor

Zhi Tan; Lu Chen; Shuxing Zhang

doi:10.1038/srep33534

Comprehensive modeling and discovery of mebendazole as a novel TRAF2- and NCK-interacting kinase inhibitor

Zhi Tan, Lu Chen, Shuxing Zhang

Experimental Therapeutics

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30 Scopus citations

Abstract

TRAF2- and NCK-interacting kinase (TNIK) represents one of the crucial targets for Wnt-activated colorectal cancer. In this study, we curated two datasets and conducted a comprehensive modeling study to explore novel TNIK inhibitors with desirable biopharmaceutical properties. With Dataset I, we derived Comparative Molecular Similarity Indices Analysis (CoMSIA) and variable-selection k-nearest neighbor models, from which 3D-molecular fields and 2D-descriptors critical for the TNIK inhibitor activity were revealed. Based on Dataset II, predictive CoMSIA-SIMCA (Soft Independent Modelling by Class Analogy) models were obtained and employed to screen 1,448 FDA-approved small molecule drugs. Upon experimental evaluations, we discovered that mebendazole, an approved anthelmintic drug, could selectively inhibit TNIK kinase activity with a dissociation constant K_d= ∼1 μM. The subsequent CoMSIA and kNN analyses indicated that mebendazole bears the favorable molecular features that are needed to bind and inhibit TNIK.

Original language	English (US)
Article number	33534
Journal	Scientific reports
Volume	6
DOIs	https://doi.org/10.1038/srep33534
State	Published - Sep 21 2016

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title = "Comprehensive modeling and discovery of mebendazole as a novel TRAF2- and NCK-interacting kinase inhibitor",

abstract = "TRAF2- and NCK-interacting kinase (TNIK) represents one of the crucial targets for Wnt-activated colorectal cancer. In this study, we curated two datasets and conducted a comprehensive modeling study to explore novel TNIK inhibitors with desirable biopharmaceutical properties. With Dataset I, we derived Comparative Molecular Similarity Indices Analysis (CoMSIA) and variable-selection k-nearest neighbor models, from which 3D-molecular fields and 2D-descriptors critical for the TNIK inhibitor activity were revealed. Based on Dataset II, predictive CoMSIA-SIMCA (Soft Independent Modelling by Class Analogy) models were obtained and employed to screen 1,448 FDA-approved small molecule drugs. Upon experimental evaluations, we discovered that mebendazole, an approved anthelmintic drug, could selectively inhibit TNIK kinase activity with a dissociation constant Kd= ∼1 μM. The subsequent CoMSIA and kNN analyses indicated that mebendazole bears the favorable molecular features that are needed to bind and inhibit TNIK.",

author = "Zhi Tan and Lu Chen and Shuxing Zhang",

note = "Funding Information: We thank OpenEye and ChemAxon for the free academic licenses of their software packages. Special thanks to the support from Research Information Systems and Technology Services of M.D. Anderson Cancer Center along with their HPC resources as well as Texas Advanced Computing Center (TACC). We also thank Allison Chang for proof-reading the manuscript. S.Z. is an Endowed Faculty Scholar of MD Anderson Cancer Center. He is also partially supported by CPRIT DP150086, NSF CHE-1411859, NIH/NIGMS GM070737, and the University Cancer Foundation via the Institutional Research Grant program. Publisher Copyright: {\textcopyright} The Author(s) 2016.",

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doi = "10.1038/srep33534",

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AU - Tan, Zhi

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N1 - Funding Information: We thank OpenEye and ChemAxon for the free academic licenses of their software packages. Special thanks to the support from Research Information Systems and Technology Services of M.D. Anderson Cancer Center along with their HPC resources as well as Texas Advanced Computing Center (TACC). We also thank Allison Chang for proof-reading the manuscript. S.Z. is an Endowed Faculty Scholar of MD Anderson Cancer Center. He is also partially supported by CPRIT DP150086, NSF CHE-1411859, NIH/NIGMS GM070737, and the University Cancer Foundation via the Institutional Research Grant program. Publisher Copyright: © The Author(s) 2016.

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N2 - TRAF2- and NCK-interacting kinase (TNIK) represents one of the crucial targets for Wnt-activated colorectal cancer. In this study, we curated two datasets and conducted a comprehensive modeling study to explore novel TNIK inhibitors with desirable biopharmaceutical properties. With Dataset I, we derived Comparative Molecular Similarity Indices Analysis (CoMSIA) and variable-selection k-nearest neighbor models, from which 3D-molecular fields and 2D-descriptors critical for the TNIK inhibitor activity were revealed. Based on Dataset II, predictive CoMSIA-SIMCA (Soft Independent Modelling by Class Analogy) models were obtained and employed to screen 1,448 FDA-approved small molecule drugs. Upon experimental evaluations, we discovered that mebendazole, an approved anthelmintic drug, could selectively inhibit TNIK kinase activity with a dissociation constant Kd= ∼1 μM. The subsequent CoMSIA and kNN analyses indicated that mebendazole bears the favorable molecular features that are needed to bind and inhibit TNIK.

AB - TRAF2- and NCK-interacting kinase (TNIK) represents one of the crucial targets for Wnt-activated colorectal cancer. In this study, we curated two datasets and conducted a comprehensive modeling study to explore novel TNIK inhibitors with desirable biopharmaceutical properties. With Dataset I, we derived Comparative Molecular Similarity Indices Analysis (CoMSIA) and variable-selection k-nearest neighbor models, from which 3D-molecular fields and 2D-descriptors critical for the TNIK inhibitor activity were revealed. Based on Dataset II, predictive CoMSIA-SIMCA (Soft Independent Modelling by Class Analogy) models were obtained and employed to screen 1,448 FDA-approved small molecule drugs. Upon experimental evaluations, we discovered that mebendazole, an approved anthelmintic drug, could selectively inhibit TNIK kinase activity with a dissociation constant Kd= ∼1 μM. The subsequent CoMSIA and kNN analyses indicated that mebendazole bears the favorable molecular features that are needed to bind and inhibit TNIK.

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Comprehensive modeling and discovery of mebendazole as a novel TRAF2- and NCK-interacting kinase inhibitor

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