Selective blockade of the hydrolysis of the endocannabinoid 2-arachidonoylglycerol impairs learning and memory performance while producing antinociceptive activity in rodents

Monoacylglycerol lipase (MAGL) represents a primary degradation enzyme of the endogenous cannabinoid (eCB), 2-arachidonoyglycerol (2-AG). This study reports a potent covalent MAGL inhibitor, SAR127303. The compound behaves as a selective and competitive inhibitor of mouse and human MAGL, which poten...

Descripción completa

Detalles Bibliográficos
Autores principales: Griebel, Guy, Pichat, Philippe, Beeské, Sandra, Leroy, Thibaud, Redon, Nicolas, Jacquet, Agnès, Françon, Dominique, Bert, Lionel, Even, Luc, Lopez-Grancha, Mati, Tolstykh, Tatiana, Sun, Fangxian, Yu, Qunyan, Brittain, Scott, Arlt, Heike, He, Timothy, Zhang, Bailin, Wiederschain, Dmitri, Bertrand, Thomas, Houtmann, Jacques, Rak, Alexey, Vallée, François, Michot, Nadine, Augé, Franck, Menet, Véronique, Bergis, Olivier E., George, Pascal, Avenet, Patrick, Mikol, Vincent, Didier, Michel, Escoubet, Johanna
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group 2015
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4284516/
https://www.ncbi.nlm.nih.gov/pubmed/25560837
http://dx.doi.org/10.1038/srep07642
_version_ 1782351410178818048
author Griebel, Guy
Pichat, Philippe
Beeské, Sandra
Leroy, Thibaud
Redon, Nicolas
Jacquet, Agnès
Françon, Dominique
Bert, Lionel
Even, Luc
Lopez-Grancha, Mati
Tolstykh, Tatiana
Sun, Fangxian
Yu, Qunyan
Brittain, Scott
Arlt, Heike
He, Timothy
Zhang, Bailin
Wiederschain, Dmitri
Bertrand, Thomas
Houtmann, Jacques
Rak, Alexey
Vallée, François
Michot, Nadine
Augé, Franck
Menet, Véronique
Bergis, Olivier E.
George, Pascal
Avenet, Patrick
Mikol, Vincent
Didier, Michel
Escoubet, Johanna
author_facet Griebel, Guy
Pichat, Philippe
Beeské, Sandra
Leroy, Thibaud
Redon, Nicolas
Jacquet, Agnès
Françon, Dominique
Bert, Lionel
Even, Luc
Lopez-Grancha, Mati
Tolstykh, Tatiana
Sun, Fangxian
Yu, Qunyan
Brittain, Scott
Arlt, Heike
He, Timothy
Zhang, Bailin
Wiederschain, Dmitri
Bertrand, Thomas
Houtmann, Jacques
Rak, Alexey
Vallée, François
Michot, Nadine
Augé, Franck
Menet, Véronique
Bergis, Olivier E.
George, Pascal
Avenet, Patrick
Mikol, Vincent
Didier, Michel
Escoubet, Johanna
author_sort Griebel, Guy
collection PubMed
description Monoacylglycerol lipase (MAGL) represents a primary degradation enzyme of the endogenous cannabinoid (eCB), 2-arachidonoyglycerol (2-AG). This study reports a potent covalent MAGL inhibitor, SAR127303. The compound behaves as a selective and competitive inhibitor of mouse and human MAGL, which potently elevates hippocampal levels of 2-AG in mice. In vivo, SAR127303 produces antinociceptive effects in assays of inflammatory and visceral pain. In addition, the drug alters learning performance in several assays related to episodic, working and spatial memory. Moreover, long term potentiation (LTP) of CA1 synaptic transmission and acetylcholine release in the hippocampus, two hallmarks of memory function, are both decreased by SAR127303. Although inactive in acute seizure tests, repeated administration of SAR127303 delays the acquisition and decreases kindled seizures in mice, indicating that the drug slows down epileptogenesis, a finding deserving further investigation to evaluate the potential of MAGL inhibitors as antiepileptics. However, the observation that 2-AG hydrolysis blockade alters learning and memory performance, suggests that such drugs may have limited value as therapeutic agents.
format Online
Article
Text
id pubmed-4284516
institution National Center for Biotechnology Information
language English
publishDate 2015
publisher Nature Publishing Group
record_format MEDLINE/PubMed
spelling pubmed-42845162015-01-09 Selective blockade of the hydrolysis of the endocannabinoid 2-arachidonoylglycerol impairs learning and memory performance while producing antinociceptive activity in rodents Griebel, Guy Pichat, Philippe Beeské, Sandra Leroy, Thibaud Redon, Nicolas Jacquet, Agnès Françon, Dominique Bert, Lionel Even, Luc Lopez-Grancha, Mati Tolstykh, Tatiana Sun, Fangxian Yu, Qunyan Brittain, Scott Arlt, Heike He, Timothy Zhang, Bailin Wiederschain, Dmitri Bertrand, Thomas Houtmann, Jacques Rak, Alexey Vallée, François Michot, Nadine Augé, Franck Menet, Véronique Bergis, Olivier E. George, Pascal Avenet, Patrick Mikol, Vincent Didier, Michel Escoubet, Johanna Sci Rep Article Monoacylglycerol lipase (MAGL) represents a primary degradation enzyme of the endogenous cannabinoid (eCB), 2-arachidonoyglycerol (2-AG). This study reports a potent covalent MAGL inhibitor, SAR127303. The compound behaves as a selective and competitive inhibitor of mouse and human MAGL, which potently elevates hippocampal levels of 2-AG in mice. In vivo, SAR127303 produces antinociceptive effects in assays of inflammatory and visceral pain. In addition, the drug alters learning performance in several assays related to episodic, working and spatial memory. Moreover, long term potentiation (LTP) of CA1 synaptic transmission and acetylcholine release in the hippocampus, two hallmarks of memory function, are both decreased by SAR127303. Although inactive in acute seizure tests, repeated administration of SAR127303 delays the acquisition and decreases kindled seizures in mice, indicating that the drug slows down epileptogenesis, a finding deserving further investigation to evaluate the potential of MAGL inhibitors as antiepileptics. However, the observation that 2-AG hydrolysis blockade alters learning and memory performance, suggests that such drugs may have limited value as therapeutic agents. Nature Publishing Group 2015-01-06 /pmc/articles/PMC4284516/ /pubmed/25560837 http://dx.doi.org/10.1038/srep07642 Text en Copyright © 2015, Macmillan Publishers Limited. All rights reserved http://creativecommons.org/licenses/by-nc-nd/4.0/ This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivs 4.0 International License. The images or other third party material in this article are included in the article's Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder in order to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-nd/4.0/
spellingShingle Article
Griebel, Guy
Pichat, Philippe
Beeské, Sandra
Leroy, Thibaud
Redon, Nicolas
Jacquet, Agnès
Françon, Dominique
Bert, Lionel
Even, Luc
Lopez-Grancha, Mati
Tolstykh, Tatiana
Sun, Fangxian
Yu, Qunyan
Brittain, Scott
Arlt, Heike
He, Timothy
Zhang, Bailin
Wiederschain, Dmitri
Bertrand, Thomas
Houtmann, Jacques
Rak, Alexey
Vallée, François
Michot, Nadine
Augé, Franck
Menet, Véronique
Bergis, Olivier E.
George, Pascal
Avenet, Patrick
Mikol, Vincent
Didier, Michel
Escoubet, Johanna
Selective blockade of the hydrolysis of the endocannabinoid 2-arachidonoylglycerol impairs learning and memory performance while producing antinociceptive activity in rodents
title Selective blockade of the hydrolysis of the endocannabinoid 2-arachidonoylglycerol impairs learning and memory performance while producing antinociceptive activity in rodents
title_full Selective blockade of the hydrolysis of the endocannabinoid 2-arachidonoylglycerol impairs learning and memory performance while producing antinociceptive activity in rodents
title_fullStr Selective blockade of the hydrolysis of the endocannabinoid 2-arachidonoylglycerol impairs learning and memory performance while producing antinociceptive activity in rodents
title_full_unstemmed Selective blockade of the hydrolysis of the endocannabinoid 2-arachidonoylglycerol impairs learning and memory performance while producing antinociceptive activity in rodents
title_short Selective blockade of the hydrolysis of the endocannabinoid 2-arachidonoylglycerol impairs learning and memory performance while producing antinociceptive activity in rodents
title_sort selective blockade of the hydrolysis of the endocannabinoid 2-arachidonoylglycerol impairs learning and memory performance while producing antinociceptive activity in rodents
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4284516/
https://www.ncbi.nlm.nih.gov/pubmed/25560837
http://dx.doi.org/10.1038/srep07642
work_keys_str_mv AT griebelguy selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT pichatphilippe selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT beeskesandra selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT leroythibaud selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT redonnicolas selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT jacquetagnes selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT francondominique selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT bertlionel selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT evenluc selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT lopezgranchamati selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT tolstykhtatiana selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT sunfangxian selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT yuqunyan selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT brittainscott selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT arltheike selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT hetimothy selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT zhangbailin selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT wiederschaindmitri selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT bertrandthomas selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT houtmannjacques selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT rakalexey selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT valleefrancois selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT michotnadine selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT augefranck selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT menetveronique selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT bergisoliviere selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT georgepascal selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT avenetpatrick selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT mikolvincent selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT didiermichel selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents
AT escoubetjohanna selectiveblockadeofthehydrolysisoftheendocannabinoid2arachidonoylglycerolimpairslearningandmemoryperformancewhileproducingantinociceptiveactivityinrodents

Ejemplares similares