TY - JOUR
T1 - Dopamine receptor D5 deficiency results in a selective reduction of hippocampal NMDA receptor subunit NR2B expression and impaired memory
AU - Moraga-Amaro, Rodrigo
AU - González, Hugo
AU - Ugalde, Valentina
AU - Donoso-Ramos, Juan Pablo
AU - Quintana-Donoso, Daisy
AU - Lara, Marcelo
AU - Morales, Bernardo
AU - Rojas, Patricio
AU - Pacheco, Rodrigo
AU - Stehberg, Jimmy
N1 - Funding Information:
We thank Dr. David Sibley for donating the D5RKO mice. We also thank Dr. Sebastián Valenzuela for his valuable veterinary assistance in our animal facility. We wish to thank Daniela Elgueta and Raúl Diaz-Galarce for their technical assistance. This work was supported by grants FONDECYT N◦ 1130724 (JS), FONDECYT N◦ 1130271 (RP), FONDECYT N◦ 1130904 (PR), FONDECYT N◦ 1120580 (BM), Anillo CONICYT ACT-. 1113 (BM, PR), PFB-16 from CONICYT (RP) and UNAB DI-603-14/N (JS).
PY - 2016/4
Y1 - 2016/4
N2 - Pharmacological evidence associates type I dopamine receptors, including subtypes D1 and D5, with learning and memory. Analyses using genetic approaches have determined the relative contribution of dopamine receptor D1 (D1R) in cognitive tasks. However, the lack of drugs that can discriminate between D1R and D5R has made the pharmacological distinction between the two receptors difficult. Here, we aimed to determine the role of D5R in learning and memory. In this study we tested D5R knockout mice and wild-type littermates in a battery of behavioral tests, including memory, attention, locomotion, anxiety and motivational evaluations. Our results show that genetic deficiency of D5R significantly impairs performance in the Morris water maze paradigm, object location and object recognition memory, indicating a relevant role for D5R in spatial memory and recognition memory. Moreover, the lack of D5R resulted in decreased exploration and locomotion. In contrast, D5R deficiency had no impact on working memory, anxiety and depressive-like behavior, measured using the spontaneous alternation, open-field, tail suspension test, and forced swimming test. Electrophysiological analyses performed on hippocampal slices showed impairment in long-term-potentiation in mice lacking D5R. Further analyses at the molecular level showed that genetic deficiency of D5R results in a strong and selective reduction in the expression of the NMDA receptor subunit NR2B in the hippocampus. These findings demonstrate the relevant contribution of D5R in memory and suggest a functional interaction of D5R with hippocampal glutamatergic pathways.
AB - Pharmacological evidence associates type I dopamine receptors, including subtypes D1 and D5, with learning and memory. Analyses using genetic approaches have determined the relative contribution of dopamine receptor D1 (D1R) in cognitive tasks. However, the lack of drugs that can discriminate between D1R and D5R has made the pharmacological distinction between the two receptors difficult. Here, we aimed to determine the role of D5R in learning and memory. In this study we tested D5R knockout mice and wild-type littermates in a battery of behavioral tests, including memory, attention, locomotion, anxiety and motivational evaluations. Our results show that genetic deficiency of D5R significantly impairs performance in the Morris water maze paradigm, object location and object recognition memory, indicating a relevant role for D5R in spatial memory and recognition memory. Moreover, the lack of D5R resulted in decreased exploration and locomotion. In contrast, D5R deficiency had no impact on working memory, anxiety and depressive-like behavior, measured using the spontaneous alternation, open-field, tail suspension test, and forced swimming test. Electrophysiological analyses performed on hippocampal slices showed impairment in long-term-potentiation in mice lacking D5R. Further analyses at the molecular level showed that genetic deficiency of D5R results in a strong and selective reduction in the expression of the NMDA receptor subunit NR2B in the hippocampus. These findings demonstrate the relevant contribution of D5R in memory and suggest a functional interaction of D5R with hippocampal glutamatergic pathways.
KW - Dopamine receptor D5
KW - Knockout mice
KW - Long-term potentiation
KW - N-methyl-d-aspartate receptors
KW - Spatial memory
KW - Synaptic plasticity
UR - http://www.scopus.com/inward/record.url?scp=84953312988&partnerID=8YFLogxK
U2 - 10.1016/j.neuropharm.2015.12.018
DO - 10.1016/j.neuropharm.2015.12.018
M3 - Article
C2 - 26714288
AN - SCOPUS:84953312988
SN - 0028-3908
VL - 103
SP - 222
EP - 235
JO - Neuropharmacology
JF - Neuropharmacology
ER -