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- Title
Trans-Modulation of the Somatostatin Type 2A Receptor Trafficking by Insulin-Regulated Aminopeptidase Decreases Limbic Seizures.
- Authors
De Bundel, Dimitri; Fafouri, Assia; Csaba, Zsolt; Loyens, Ellen; Lebon, Sophie; Ghouzzi, Vincent El; Peineau, Stéphane; Vodjdani, Guilan; Kiagiadaki, Foteini; Aourz, Najat; Coppens, Jessica; Walrave, Laura; Portelli, Jeanelle; Vanderheyden, Patrick; Siew Yeen Chai; Thermos, Kyriaki; Bernard, Véronique; Collingridge, Graham; Auvin, Stéphane; Gressens, Pierre
- Abstract
Within the hippocampus, the major somatostatin (SRIF) receptor subtype, the sst2A receptor, is localized at postsynaptic sites of the principal neurons where it modulates neuronal activity. Following agonist exposure, this receptor rapidly internalizes and recycles slowly through the trans-Golgi network. In epilepsy, a high and chronic release of somatostatin occurs, which provokes, in both rat and human tissue, a decrease in the density of this inhibitory receptor at the cell surface. The insulin-regulated aminopeptidase (IRAP) is involved in vesicular trafficking and shares common regional distribution with the sst2A receptor. In addition, IRAP ligands display anticonvulsive properties. We therefore sought to assess by in vitro and in vivo experiments in hippocampal rat tissue whether IRAP ligands could regulate the trafficking of the sst2A receptor and, consequently, modulate limbic seizures. Using pharmacological and cell biological approaches, we demonstrate that IRAP ligands accelerate the recycling of the sst2A receptor that has internalized in neurons in vitro or in vivo. Most importantly, because IRAP ligands increase the density of this inhibitory receptor at the plasma membrane, they also potentiate the neuropeptide SRIF inhibitory effects on seizure activity. Our results further demonstrate that IRAP is a therapeutic target for the treatment of limbic seizures and possibly for other neurological conditions in which downregulation of G-protein-coupled receptors occurs.
- Subjects
G protein coupled receptors; AMINOPEPTIDASES; LIMBIC system injuries; EPILEPSY research; NEUROPEPTIDES; SOMATOSTATIN
- Publication
Journal of Neuroscience, 2015, Vol 35, Issue 34, p11960
- ISSN
0270-6474
- Publication type
Article
- DOI
10.1523/JNEUROSCI.0476-15.2015