Identification of the Ghrelin and Cannabinoid CB(2) Receptor Heteromer Functionality and Marked Upregulation in Striatal Neurons from Offspring of Mice under a High-Fat Diet

Cannabinoids have been reported as orexigenic, i.e., as promoting food intake that, among others, is controlled by the so-called “hunger” hormone, ghrelin. The aim of this paper was to look for functional and/or molecular interactions between ghrelin GHSR1a and cannabinoid CB(2) receptors at the cen...

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Autores principales: Lillo, Jaume, Lillo, Alejandro, Zafra, David A., Miralpeix, Cristina, Rivas-Santisteban, Rafael, Casals, Núria, Navarro, Gemma, Franco, Rafael
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8396234/
https://www.ncbi.nlm.nih.gov/pubmed/34445634
http://dx.doi.org/10.3390/ijms22168928
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author Lillo, Jaume
Lillo, Alejandro
Zafra, David A.
Miralpeix, Cristina
Rivas-Santisteban, Rafael
Casals, Núria
Navarro, Gemma
Franco, Rafael
author_facet Lillo, Jaume
Lillo, Alejandro
Zafra, David A.
Miralpeix, Cristina
Rivas-Santisteban, Rafael
Casals, Núria
Navarro, Gemma
Franco, Rafael
author_sort Lillo, Jaume
collection PubMed
description Cannabinoids have been reported as orexigenic, i.e., as promoting food intake that, among others, is controlled by the so-called “hunger” hormone, ghrelin. The aim of this paper was to look for functional and/or molecular interactions between ghrelin GHSR1a and cannabinoid CB(2) receptors at the central nervous system (CNS) level. In a heterologous system we identified CB(2)-GHSR1a receptor complexes with a particular heteromer print consisting of impairment of CB(2) receptor/G(i)-mediated signaling. The blockade was due to allosteric interactions within the heteromeric complex as it was reverted by antagonists of the GHSR1a receptor. Cannabinoids acting on the CB(2) receptor did not affect cytosolic increases of calcium ions induced by ghrelin acting on the GHSR1a receptor. In situ proximity ligation imaging assays confirmed the expression of CB(2)-GHSR1a receptor complexes in both heterologous cells and primary striatal neurons. We tested heteromer expression in neurons from offspring of high-fat-diet mouse mothers as they have more risk to be obese. Interestingly, there was a marked upregulation of those complexes in striatal neurons from siblings of pregnant female mice under a high-fat diet.
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spelling pubmed-83962342021-08-28 Identification of the Ghrelin and Cannabinoid CB(2) Receptor Heteromer Functionality and Marked Upregulation in Striatal Neurons from Offspring of Mice under a High-Fat Diet Lillo, Jaume Lillo, Alejandro Zafra, David A. Miralpeix, Cristina Rivas-Santisteban, Rafael Casals, Núria Navarro, Gemma Franco, Rafael Int J Mol Sci Article Cannabinoids have been reported as orexigenic, i.e., as promoting food intake that, among others, is controlled by the so-called “hunger” hormone, ghrelin. The aim of this paper was to look for functional and/or molecular interactions between ghrelin GHSR1a and cannabinoid CB(2) receptors at the central nervous system (CNS) level. In a heterologous system we identified CB(2)-GHSR1a receptor complexes with a particular heteromer print consisting of impairment of CB(2) receptor/G(i)-mediated signaling. The blockade was due to allosteric interactions within the heteromeric complex as it was reverted by antagonists of the GHSR1a receptor. Cannabinoids acting on the CB(2) receptor did not affect cytosolic increases of calcium ions induced by ghrelin acting on the GHSR1a receptor. In situ proximity ligation imaging assays confirmed the expression of CB(2)-GHSR1a receptor complexes in both heterologous cells and primary striatal neurons. We tested heteromer expression in neurons from offspring of high-fat-diet mouse mothers as they have more risk to be obese. Interestingly, there was a marked upregulation of those complexes in striatal neurons from siblings of pregnant female mice under a high-fat diet. MDPI 2021-08-19 /pmc/articles/PMC8396234/ /pubmed/34445634 http://dx.doi.org/10.3390/ijms22168928 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
Lillo, Jaume
Lillo, Alejandro
Zafra, David A.
Miralpeix, Cristina
Rivas-Santisteban, Rafael
Casals, Núria
Navarro, Gemma
Franco, Rafael
Identification of the Ghrelin and Cannabinoid CB(2) Receptor Heteromer Functionality and Marked Upregulation in Striatal Neurons from Offspring of Mice under a High-Fat Diet
title Identification of the Ghrelin and Cannabinoid CB(2) Receptor Heteromer Functionality and Marked Upregulation in Striatal Neurons from Offspring of Mice under a High-Fat Diet
title_full Identification of the Ghrelin and Cannabinoid CB(2) Receptor Heteromer Functionality and Marked Upregulation in Striatal Neurons from Offspring of Mice under a High-Fat Diet
title_fullStr Identification of the Ghrelin and Cannabinoid CB(2) Receptor Heteromer Functionality and Marked Upregulation in Striatal Neurons from Offspring of Mice under a High-Fat Diet
title_full_unstemmed Identification of the Ghrelin and Cannabinoid CB(2) Receptor Heteromer Functionality and Marked Upregulation in Striatal Neurons from Offspring of Mice under a High-Fat Diet
title_short Identification of the Ghrelin and Cannabinoid CB(2) Receptor Heteromer Functionality and Marked Upregulation in Striatal Neurons from Offspring of Mice under a High-Fat Diet
title_sort identification of the ghrelin and cannabinoid cb(2) receptor heteromer functionality and marked upregulation in striatal neurons from offspring of mice under a high-fat diet
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8396234/
https://www.ncbi.nlm.nih.gov/pubmed/34445634
http://dx.doi.org/10.3390/ijms22168928
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