Reduced ethanol drinking following selective cortical interneuron deletion of the GluN2B NMDA receptors subunit

- The NMDA receptor GluN2B subunit was deleted in different neuronal populations.
- Drinking of increasing concentrations of ethanol was measured using a 2-bottle test.
- Deletion in cortical interneurons, not principal neurons, reduced ethanol drinking.
- These data define specific GluN2B-expressing populations mediating ethanol drinking.

N-Methyl-d-aspartate receptors (NMDAR) are involved in the regulation of alcohol drinking, but the contribution of NMDAR subunits located on specific neuronal populations remains incompletely understood. The current study examined the role of GluN2B-containing NMDARs expressed on cortical principal neurons and cortical interneurons in mouse ethanol drinking. Consumption of escalating concentrations of ethanol was measured in mice with GluN2B gene deletion in either cortical principal neurons (GluN2BCxNULL) or interneurons (GluN2BInterNULL), using a two-bottle choice paradigm. Results showed that GluN2BInterNULL, but not GluN2BCxNULL, mice consumed significantly less ethanol, at relatively high concentrations, than non-mutant controls. In a second paradigm in which mice were offered a 15% ethanol concentration, without escalation, GluN2BCxNULL mice were again no different from controls. These findings provide novel evidence for a contribution of interneuronal GluN2B-containing NMDARs in the regulation of ethanol drinking.

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