Identification and Characterization of Cannabidiol as an OX1R Antagonist by Computational and In Vitro Functional Validation

The potential, multifaceted therapeutic profile of cannabidiol (CBD), a major constituent derived from the Cannabis sativa plant, covers a wide range of neurological and psychiatric disorders, ranging from anxiety to pediatric epilepsy and drug addiction. However, the molecular targets responsible f...

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Autores principales: Vitale, Rosa Maria, Iannotti, Fabio Arturo, Schiano Moriello, Aniello, Tunisi, Lea, Piscitelli, Fabiana, Savopoulos, Ranjev, Cristino, Luigia, De Petrocellis, Luciano, Amodeo, Pietro, Gray, Roy, Di Marzo, Vincenzo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8394412/
https://www.ncbi.nlm.nih.gov/pubmed/34439801
http://dx.doi.org/10.3390/biom11081134
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author Vitale, Rosa Maria
Iannotti, Fabio Arturo
Schiano Moriello, Aniello
Tunisi, Lea
Piscitelli, Fabiana
Savopoulos, Ranjev
Cristino, Luigia
De Petrocellis, Luciano
Amodeo, Pietro
Gray, Roy
Di Marzo, Vincenzo
author_facet Vitale, Rosa Maria
Iannotti, Fabio Arturo
Schiano Moriello, Aniello
Tunisi, Lea
Piscitelli, Fabiana
Savopoulos, Ranjev
Cristino, Luigia
De Petrocellis, Luciano
Amodeo, Pietro
Gray, Roy
Di Marzo, Vincenzo
author_sort Vitale, Rosa Maria
collection PubMed
description The potential, multifaceted therapeutic profile of cannabidiol (CBD), a major constituent derived from the Cannabis sativa plant, covers a wide range of neurological and psychiatric disorders, ranging from anxiety to pediatric epilepsy and drug addiction. However, the molecular targets responsible for these effects have been only partially identified. In this view, the involvement of the orexin system, the key regulator in arousal and the sleep/wake cycle, and in motivation and reward processes, including drug addiction, prompted us to explore, using computational and experimental approaches, the possibility that CBD could act as a ligand of orexin receptors, orexin 1 receptor of type 1 (OX1R) and type 2 (OX2R). Ligand-binding assays showed that CBD is a selective ligand of OX1R in the low micromolar range (Ki 1.58 ± 0.2 μM) while in vitro functional assays, carried out by intracellular calcium imaging and mobilization assays, showed that CBD acts as an antagonist at this receptor. Finally, the putative binding mode of CBD has been inferred by molecular docking and molecular dynamics simulations and its selectivity toward the OX1R subtype rationalized at the molecular level. This study provides the first evidence that CBD acts as an OX1R antagonist, supporting its potential use in addictive disorders and/or body weight regulation.
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spelling pubmed-83944122021-08-28 Identification and Characterization of Cannabidiol as an OX1R Antagonist by Computational and In Vitro Functional Validation Vitale, Rosa Maria Iannotti, Fabio Arturo Schiano Moriello, Aniello Tunisi, Lea Piscitelli, Fabiana Savopoulos, Ranjev Cristino, Luigia De Petrocellis, Luciano Amodeo, Pietro Gray, Roy Di Marzo, Vincenzo Biomolecules Article The potential, multifaceted therapeutic profile of cannabidiol (CBD), a major constituent derived from the Cannabis sativa plant, covers a wide range of neurological and psychiatric disorders, ranging from anxiety to pediatric epilepsy and drug addiction. However, the molecular targets responsible for these effects have been only partially identified. In this view, the involvement of the orexin system, the key regulator in arousal and the sleep/wake cycle, and in motivation and reward processes, including drug addiction, prompted us to explore, using computational and experimental approaches, the possibility that CBD could act as a ligand of orexin receptors, orexin 1 receptor of type 1 (OX1R) and type 2 (OX2R). Ligand-binding assays showed that CBD is a selective ligand of OX1R in the low micromolar range (Ki 1.58 ± 0.2 μM) while in vitro functional assays, carried out by intracellular calcium imaging and mobilization assays, showed that CBD acts as an antagonist at this receptor. Finally, the putative binding mode of CBD has been inferred by molecular docking and molecular dynamics simulations and its selectivity toward the OX1R subtype rationalized at the molecular level. This study provides the first evidence that CBD acts as an OX1R antagonist, supporting its potential use in addictive disorders and/or body weight regulation. MDPI 2021-08-01 /pmc/articles/PMC8394412/ /pubmed/34439801 http://dx.doi.org/10.3390/biom11081134 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Vitale, Rosa Maria
Iannotti, Fabio Arturo
Schiano Moriello, Aniello
Tunisi, Lea
Piscitelli, Fabiana
Savopoulos, Ranjev
Cristino, Luigia
De Petrocellis, Luciano
Amodeo, Pietro
Gray, Roy
Di Marzo, Vincenzo
Identification and Characterization of Cannabidiol as an OX1R Antagonist by Computational and In Vitro Functional Validation
title Identification and Characterization of Cannabidiol as an OX1R Antagonist by Computational and In Vitro Functional Validation
title_full Identification and Characterization of Cannabidiol as an OX1R Antagonist by Computational and In Vitro Functional Validation
title_fullStr Identification and Characterization of Cannabidiol as an OX1R Antagonist by Computational and In Vitro Functional Validation
title_full_unstemmed Identification and Characterization of Cannabidiol as an OX1R Antagonist by Computational and In Vitro Functional Validation
title_short Identification and Characterization of Cannabidiol as an OX1R Antagonist by Computational and In Vitro Functional Validation
title_sort identification and characterization of cannabidiol as an ox1r antagonist by computational and in vitro functional validation
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8394412/
https://www.ncbi.nlm.nih.gov/pubmed/34439801
http://dx.doi.org/10.3390/biom11081134
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