Cargando…

In vitro contraceptive activities, molecular docking, molecular dynamics, MM-PBSA, non-covalent interaction and DFT studies of bioactive compounds from Aegle marmelos. Linn., leaves

Introduction: Bioactive molecules from natural sources having contraceptive properties were excellent alternatives for modern hormonal contraceptives. Researchers around the world were working on identifying contraceptive leads targeting the male reproductive system rather than the usual female cont...

Descripción completa

Detalles Bibliográficos
Autores principales: Gunasekaran, Prasanth, Velmurugan, Yogaswaran, Arputharaj, David Stephen, Savaridasson, Jose Kavitha, Hemamalini, Madhukar, Venkatachalam, Rajakannan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9911112/
https://www.ncbi.nlm.nih.gov/pubmed/36778035
http://dx.doi.org/10.3389/fchem.2023.1096177
_version_ 1784884928978092032
author Gunasekaran, Prasanth
Velmurugan, Yogaswaran
Arputharaj, David Stephen
Savaridasson, Jose Kavitha
Hemamalini, Madhukar
Venkatachalam, Rajakannan
author_facet Gunasekaran, Prasanth
Velmurugan, Yogaswaran
Arputharaj, David Stephen
Savaridasson, Jose Kavitha
Hemamalini, Madhukar
Venkatachalam, Rajakannan
author_sort Gunasekaran, Prasanth
collection PubMed
description Introduction: Bioactive molecules from natural sources having contraceptive properties were excellent alternatives for modern hormonal contraceptives. Researchers around the world were working on identifying contraceptive leads targeting the male reproductive system rather than the usual female contraceptives. The lack of proper understanding on male contraceptive protein drug targets leads to insufficient evidence on activities of identified contraceptive compounds. The proteins specific to the male reproductive system and involved in sperm-egg fusion will be an excellent drug target to identify the male non-hormonal, reversible contraceptive leads. Inhibiting sperm hyaluronidase activity by natural non-hormonal compounds will lead to reversible and non-hormonal male contraception. The Aegle marmelos Linn. is one such important medicinal plant with valuable phytocompounds, used traditionally as a potential contraceptive measure. The in vivo experiments on leaf extracts of Aegle marmelos. Linn containing terpenes, sterols, and alkaloids shows prominent contraceptive activities. Moreover, this study explores the potential ability of the leaf extract on inhibiting the sperm hyaluronidase action with additional molecular details on the interaction between sperm hyaluronidases and three phytocompounds such as aegeline, marmin, and marminol. Material and methods: The in vitro hyaluronidase inhibition assay and Computer Assisted Sperm Analysis (CASA) were used to evaluate the male contraceptive properties of the Aegle marmelos Linn. leaf extract. To identify the interaction profile of aegeline, marmin, and marmenol on sperm cell hyaluronidases the in-silico methods such as molecular docking, Non-Covalent Interaction analysis, Molecular dynamics, and Molecular Mechanics Poisson Boltzmann Surface Area were used. Results and discussion: The results of in vitro hyaluronidase inhibition assay and Computer Assisted Sperm Analysis shows the inhibition of hyaluronidase enzymatic activity and reduced sperm activities in the presence of leaf extracts. After incubation with leaf extracts for about 30 minutes time intervals show, the motility drops from progressive to non-progressive and ended up with complete immotile in 100 μg/ml concentration of leaf extract. The results of molecular docking, Non-Covalent Interaction analysis, Molecular dynamics, and Molecular mechanics Poisson Boltzmann Surface Area show that the phytocompounds marmin, and aegeline have the potential ability to inhibit sperm hyaluronidase.
format Online
Article
Text
id pubmed-9911112
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher Frontiers Media S.A.
record_format MEDLINE/PubMed
spelling pubmed-99111122023-02-10 In vitro contraceptive activities, molecular docking, molecular dynamics, MM-PBSA, non-covalent interaction and DFT studies of bioactive compounds from Aegle marmelos. Linn., leaves Gunasekaran, Prasanth Velmurugan, Yogaswaran Arputharaj, David Stephen Savaridasson, Jose Kavitha Hemamalini, Madhukar Venkatachalam, Rajakannan Front Chem Chemistry Introduction: Bioactive molecules from natural sources having contraceptive properties were excellent alternatives for modern hormonal contraceptives. Researchers around the world were working on identifying contraceptive leads targeting the male reproductive system rather than the usual female contraceptives. The lack of proper understanding on male contraceptive protein drug targets leads to insufficient evidence on activities of identified contraceptive compounds. The proteins specific to the male reproductive system and involved in sperm-egg fusion will be an excellent drug target to identify the male non-hormonal, reversible contraceptive leads. Inhibiting sperm hyaluronidase activity by natural non-hormonal compounds will lead to reversible and non-hormonal male contraception. The Aegle marmelos Linn. is one such important medicinal plant with valuable phytocompounds, used traditionally as a potential contraceptive measure. The in vivo experiments on leaf extracts of Aegle marmelos. Linn containing terpenes, sterols, and alkaloids shows prominent contraceptive activities. Moreover, this study explores the potential ability of the leaf extract on inhibiting the sperm hyaluronidase action with additional molecular details on the interaction between sperm hyaluronidases and three phytocompounds such as aegeline, marmin, and marminol. Material and methods: The in vitro hyaluronidase inhibition assay and Computer Assisted Sperm Analysis (CASA) were used to evaluate the male contraceptive properties of the Aegle marmelos Linn. leaf extract. To identify the interaction profile of aegeline, marmin, and marmenol on sperm cell hyaluronidases the in-silico methods such as molecular docking, Non-Covalent Interaction analysis, Molecular dynamics, and Molecular Mechanics Poisson Boltzmann Surface Area were used. Results and discussion: The results of in vitro hyaluronidase inhibition assay and Computer Assisted Sperm Analysis shows the inhibition of hyaluronidase enzymatic activity and reduced sperm activities in the presence of leaf extracts. After incubation with leaf extracts for about 30 minutes time intervals show, the motility drops from progressive to non-progressive and ended up with complete immotile in 100 μg/ml concentration of leaf extract. The results of molecular docking, Non-Covalent Interaction analysis, Molecular dynamics, and Molecular mechanics Poisson Boltzmann Surface Area show that the phytocompounds marmin, and aegeline have the potential ability to inhibit sperm hyaluronidase. Frontiers Media S.A. 2023-01-26 /pmc/articles/PMC9911112/ /pubmed/36778035 http://dx.doi.org/10.3389/fchem.2023.1096177 Text en Copyright © 2023 Gunasekaran, Velmurugan, Arputharaj, Savaridasson, Hemamalini and Venkatachalam. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Chemistry
Gunasekaran, Prasanth
Velmurugan, Yogaswaran
Arputharaj, David Stephen
Savaridasson, Jose Kavitha
Hemamalini, Madhukar
Venkatachalam, Rajakannan
In vitro contraceptive activities, molecular docking, molecular dynamics, MM-PBSA, non-covalent interaction and DFT studies of bioactive compounds from Aegle marmelos. Linn., leaves
title In vitro contraceptive activities, molecular docking, molecular dynamics, MM-PBSA, non-covalent interaction and DFT studies of bioactive compounds from Aegle marmelos. Linn., leaves
title_full In vitro contraceptive activities, molecular docking, molecular dynamics, MM-PBSA, non-covalent interaction and DFT studies of bioactive compounds from Aegle marmelos. Linn., leaves
title_fullStr In vitro contraceptive activities, molecular docking, molecular dynamics, MM-PBSA, non-covalent interaction and DFT studies of bioactive compounds from Aegle marmelos. Linn., leaves
title_full_unstemmed In vitro contraceptive activities, molecular docking, molecular dynamics, MM-PBSA, non-covalent interaction and DFT studies of bioactive compounds from Aegle marmelos. Linn., leaves
title_short In vitro contraceptive activities, molecular docking, molecular dynamics, MM-PBSA, non-covalent interaction and DFT studies of bioactive compounds from Aegle marmelos. Linn., leaves
title_sort in vitro contraceptive activities, molecular docking, molecular dynamics, mm-pbsa, non-covalent interaction and dft studies of bioactive compounds from aegle marmelos. linn., leaves
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9911112/
https://www.ncbi.nlm.nih.gov/pubmed/36778035
http://dx.doi.org/10.3389/fchem.2023.1096177
work_keys_str_mv AT gunasekaranprasanth invitrocontraceptiveactivitiesmoleculardockingmoleculardynamicsmmpbsanoncovalentinteractionanddftstudiesofbioactivecompoundsfromaeglemarmeloslinnleaves
AT velmuruganyogaswaran invitrocontraceptiveactivitiesmoleculardockingmoleculardynamicsmmpbsanoncovalentinteractionanddftstudiesofbioactivecompoundsfromaeglemarmeloslinnleaves
AT arputharajdavidstephen invitrocontraceptiveactivitiesmoleculardockingmoleculardynamicsmmpbsanoncovalentinteractionanddftstudiesofbioactivecompoundsfromaeglemarmeloslinnleaves
AT savaridassonjosekavitha invitrocontraceptiveactivitiesmoleculardockingmoleculardynamicsmmpbsanoncovalentinteractionanddftstudiesofbioactivecompoundsfromaeglemarmeloslinnleaves
AT hemamalinimadhukar invitrocontraceptiveactivitiesmoleculardockingmoleculardynamicsmmpbsanoncovalentinteractionanddftstudiesofbioactivecompoundsfromaeglemarmeloslinnleaves
AT venkatachalamrajakannan invitrocontraceptiveactivitiesmoleculardockingmoleculardynamicsmmpbsanoncovalentinteractionanddftstudiesofbioactivecompoundsfromaeglemarmeloslinnleaves