You are here:
  1. PHAIDRA
  2. Detail o:2265
Open in new window
Title (en)
Dopamine-mediated striatal activity and function is enhanced in GlyRα2 knockout animals
Language
English
Description (en)
The glycine receptor alpha 2 (GlyRα2) is a ligand-gated ion channel which upon activation induces a chloride conductance. Here, we investigated the role of GlyRα2 in dopamine-stimulated striatal cell activity and behavior. We show that depletion of GlyRα2 enhances dopamine-induced increases in the activity of putative dopamine D1 receptor-expressing striatal projection neurons, but does not alter midbrain dopamine neuron activity. We next show that the locomotor response to d-amphetamine is enhanced in GlyRα2 knockout animals, and that this increase correlates with c-fos expression in the dorsal striatum. 3-D modeling revealed an increase in the neuronal ensemble size in the striatum in response to D-amphetamine in GlyRα2 KO mice. Finally, we show enhanced appetitive conditioning in GlyRα2 KO animals that is likely due to increased motivation, but not changes in associative learning or hedonic response. Taken together, we show that GlyRα2 is an important regulator of dopamine-stimulated striatal activity and function.
Keywords (en)
Adenylate-Cyclase Activity; Dorsal Striatum; Ventral Striatum; Tegmental Area; Drug Seeking; Delta-Fosb; C-Fos; Neurons; Amphetamine; Release
DOI
10.1016/j.isci.2023.107400
Author of the digital object
Jens Devoght  (Hasselt University)
Bert Brône  (Hasselt University)
Elisabeth Piccart  (Hasselt University)
Serge N. Schiffmann  (Université libre de Bruxelles)
Robert J. Harvey  (University of the Sunshine Coast / Sunshine Coast Health Institute)
Martin vandeVen  (Hasselt University)
Ilse Dewachter  (Hasselt University)
Rupert Palme  (University of Veterinary Medicine Vienna)
Chadi Touma  (University of Osnabrück)
Rudi D'Hooge  (University of Leuven)
Jean-Michel Rigo  (Hasselt University)
Joris Comhair  (Hasselt University)
Giovanni Morelli  (Instituto Italiano di Tecnologia)
Format
application/pdf
Size
4.3 MB
Licence Selected
CC BY 4.0 International
Type of publication
Article
Name of Publication (en)
iScience
Pages or Volume
21
Volume
26
Number
8
Publisher
Cell Press
Publication Date
2023