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Journal of Biomolecular Structure and Dynamics Volume 37, 2019 - Issue 9
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Research Article

Determination of potential selective inhibitors for ROCKI and ROCKII isoforms with molecular modeling techniques: structure based docking, ADMET and molecular dynamics simulation

Burcu Bayel SecintiDepartment of Bioinformatics and Computational Biology, Gaziantep University, Institute of Health Sciences, Gaziantep, Turkey;
,
Gizem TatarDepartment of Bioinformatics and Computational Biology, Gaziantep University, Institute of Health Sciences, Gaziantep, Turkey;
&
Tugba Taskin TokFaculty of Arts and Sciences, Department of Chemistry, Gaziantep University, Gaziantep, TurkeyCommunicated by Ramaswamy H. SarmaCorrespondence[email protected] [email protected]
ORCID Iconhttp://orcid.org/0000-0002-0064-8400
ORCID Icon
Pages 2457-2463 | Received 16 Mar 2018, Accepted 08 May 2018, Published online: 26 Oct 2018
 
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Abstract

Rho-associated protein kinases (ROCKs) are a member of the serine/threonine protein kinase family and potential therapeutic target for various diseases. This enzyme has two isoforms, Rho-associated protein kinase I (ROCKI) and Rho-associated protein kinase II (ROCKII). They share an overall 65% homology in all amino acid sequence and 92% homology in kinase domains. Since, the kinase domains of ROCKI and ROCKII are highly conserved and similar, the discovery and design of isoform-selective inhibitors are more challenging. Thus, most currently available agents that is against ROCKs exhibit low selectivity and severe side effects. Therefore, this study aimed to elucidate the interaction of compounds that indicated high potential in experimental studies against ROCKI and ROCKII enzymes in the molecular level with molecular modeling techniques. Firstly, we determined the interaction property of catalytic sites of the ROCKs by analyzing with molecular docking. Based on these results, the best ligands (50 compounds) corresponding to experimental studies were selected, and then absorption, distribution, metabolism and excretion – toxicity (ADMET) analysis of these compounds were implemented. According to these study results, the compound 40 for ROCKI and the compound 50 for ROCKII were identified as selective and highly potent inhibitors. And finally, molecular dynamics (MD) simulations were performed for the stability of ROCKs with identified compounds. In the light of this study, it will be possible to treat diseases that ROCKs have a role by developing more effective and specific ROCK inhibitors.

Communicated by Ramaswamy H. Sarma

Acknowledgements

The numerical calculations reported in this abstract were performed at TUBITAK ULAKBIM, High Performance and Grid Computing Center (TRUBA resources).

Disclosure statement

No potential conflict of interest was reported by the authors.

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