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Nigel Charles Jones

Department of Neuroscience, Monash University, Clayton, Victoria, Australia.

1 paper in the library · 7 citations · publishing 2024

Papers

Understanding the role of the NMDA receptor subunit, GluN2D, in mediating NMDA receptor antagonist-induced behavioral disruptions in male and female mice.

Journal of neuroscience research January 1, 2024 Chitra Vinnakota, Anna Schroeder, Xin Du et al. 7 citations

Blocking NMDA receptors with drugs like PCP and ketamine causes psychosis-like symptoms in humans and hyperlocomotion in rodents. Mice lacking the GluN2D subunit of the NMDA receptor show reduced hyperlocomotion in response to these drugs, suggesting this subunit is key for that effect. This study tested male and female mice lacking GluN2D and found they also had blunted locomotor responses to PCP, S-ketamine, and R-norketamine, in both sexes. These knockout mice showed an anxious baseline, and the drugs had anxiolytic effects that varied by sex and genotype. S-ketamine disrupted spatial memory in females and object recognition in both sexes, regardless of genotype. The GluN2D subunit mediates sex-specific and drug-specific behavioral effects of NMDA receptor antagonists.