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J Herbmed Pharmacol. 2022;11(2): 204-212.
doi: 10.34172/jhp.2022.25

Scopus ID: 85129515894
  Abstract View: 2064
  PDF Download: 1125

Original Article

In silico study of dimethyltryptamine analogues against 5-HT1B receptor: Molecular docking, dynamic simulations and ADMET prediction

Neyder Contreras 1, 2* ORCID logo, Antistio Alvíz-Amador 1 ORCID logo, Isabella Manzur-Villalobos 1 ORCID logo

1 Pharmacology and Therapeutics Research Group. University of Cartagena, Cartagena D.T y C., Colombia
2 GINUMED, Rafael Nuñez University Corporation, Cartagena D.T y C., Colombia
*Corresponding Author: Email: neyder.contreras@curnvirtual.edu.co

Abstract

Introduction: The 5-HT1B receptor has a potential role in various psychiatric disorders such as depression, anxiety, and post-traumatic stress disorder. The objective of this study was to perform docking and molecular dynamics simulation to evaluate at atomic level the behavior of N,N-dimethyltryptamine (DMT) on 5-HT1B receptor.Methods: In this study, initially, a search for DMT was performed using the PubChem database. Subsequently, molecular docking was executed using AutoDock Vina based in PyRx 0.8 with a 95% analogy. Additionally, ergotamine (ERG) and serotonin were used as control. Then, it ran a total of 100 ns molecular dynamics simulations on 5-HT1B bound with DMT, serotonin, 112814775, and ERG. Finally, pharmacokinetic prediction and IV acute toxicity for analogues and DMT were performed.Results: It was possible to show that 112814775 had the lowest binding energy with the receptor. In addition, 112814775 presented great conformational stability, low mobility, and stiffness compared to the control ligands: ERG, serotonin, and DMT subsequent dynamic analysis. With respect to the free energy calculation, contributions such as Van der Waals, electrostatics, and nonpolar interactions for all systems, were highlighted.Conclusion: 112814775 showed affinities with 5-HT1B receptor and evidenced notable behavior by molecular dynamic simulation according to root-mean-square deviation (RMSD), root-mean-square fluctuation (RMSF), solvent-accessible surface area (SASA), the radius of gyration, number of hydrogen bond, and free energy calculated. These results established the possible relevance of in-silico studies in search of DMT analogues against the 5-HT1B receptor, which may be associated with alterations such as depression and anxiety, and may become future study molecules for the treatment of this type of disorder.

In this study in silico tools were employed to indicate the interaction of DMT analogues with 5-HT1B receptors, which could probably become promising new structures in the treatment of disorders such as depression and anxiety.
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Submitted: 27 Oct 2021
Revision: 21 Dec 2021
Accepted: 24 Dec 2021
ePublished: 01 Apr 2022
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