Behavioral sensitization and cellular responses to psychostimulants are reduced in D2R knockout mice

SOLÍS, OSCAR; GRANADO, NOELIA; TRULLAS, RAMÓN; MORATALLA, ROSARIO; MARTÍN, ANA B.; PODLESNIY, PETAR; MALDONADO, RAFAEL; GARCÍA?SANZ, PATRICIA; SANZ?MAGRO, ADRIÁN; MURER, M. GUSTAVO

ADDICTION BIOLOGY

WILEY-BLACKWELL PUBLISHING, INC

Año: 2019

1355-6215

Repeated cocaine exposure causes long-lasting neuroadaptations that involve alterations in cellular signaling and gene expression mediated by dopamine in different brain regions, such as the striatum. Previous studies have pointed out to the dopamine D1 receptor as one major player in psychostimulants-induced behavioral, cellular, and molecular changes. However, the role of other dopamine receptors has not been fully characterized. Here we used dopamine D2 receptor knockout (D2-/- ) mice to explore the role of D2 receptor (D2R) in behavioral sensitization and its associated gene expression after acute and chronic cocaine and amphetamine administration. We also studied the impact of D2R elimination in D1R-mediated responses. We found that cocaine- and amphetamine-induced behavioral sensitization is deficient in D2-/- mice. The expression of dynorphin, primarily regulated by D1R and a marker of direct-pathway striatal neurons, is attenuated in naïve- and in cocaine- or amphetamine-treated D2-/- mice. Moreover, c-Fos expression observed in D2-/- mice was reduced in acutely but not in chronically treated animals. Interestingly, inactivation of D2R increased c-Fos expression in neurons of the striatopallidal pathway. Finally, elimination of D2R blunted the locomotor and striatal c-Fos response to the full D1 agonist SKF81297. In conclusion, D2R is critical for the development of behavioral sensitization and the associated gene expression, after cocaine administration, and it is required for the locomotor responses promoted by D1R activation.