Humanized dopamine D 4.7 receptor male mice display risk-taking behavior and deficits of social recognition and working memory in light/dark-dependent manner.
Amal AlachkarAlvin PhanTravis DabbousSammy AlhassenWedad AlhassenBryan ReynoldsMarcelo RubinsteinSergi FerréOlivier CivelliPublished in: Journal of neuroscience research (2024)
The dopamine D 4 receptor 7-repeat allele (D 4.7 R) has been linked with psychiatric disorders such as attention-deficit-hyperactivity disorder, autism, and schizophrenia. However, the highly diverse study populations and often contradictory findings make it difficult to draw reliable conclusions. The D 4.7 R has the potential to explain individual differences in behavior. However, there is still a great deal of ambiguity surrounding whether it is causally connected to the etiology of psychiatric disorders. Therefore, humanized D 4.7 R mice, with the long third intracellular domain of the human D 4.7 R, may provide a valuable tool to examine the relationship between the D 4.7 R variant and specific behavioral phenotypes. We report that D 4.7 R male mice carrying the humanized D 4.7 R variant exhibit distinct behavioral features that are dependent on the light-dark cycle. The behavioral phenotype was characterized by a working memory deficit, delayed decision execution in the light phase, decreased stress and anxiety, and increased risk behavior in the dark phase. Further, D 4.7 R mice displayed impaired social recognition memory in both the light and dark phases. These findings provide insight into the potential causal relationship between the human D 4.7 R variant and specific behaviors and encourage further consideration of dopamine D 4 receptor (DRD4) ligands as novel treatments for psychiatric disorders in which D 4.7 R has been implicated.
Keyphrases
- working memory
- attention deficit hyperactivity disorder
- endothelial cells
- transcranial direct current stimulation
- autism spectrum disorder
- healthcare
- monoclonal antibody
- mental health
- high fat diet induced
- induced pluripotent stem cells
- bipolar disorder
- pluripotent stem cells
- traumatic brain injury
- physical activity
- binding protein
- type diabetes
- intellectual disability
- heat stress
- insulin resistance
- sleep quality
- metabolic syndrome