Browsing by Subject "drinking"

Nucleus accumbens, located in ventral striatum, is an important part of the brain reward system. Accumbens integrates information coming from various brain areas, and it’s important for feeling pleasure, reward learning and reward seeking, including drugs of abuse. Cholinergic interneurons represent a few percent of accumbal cells. Earlier research suggests that accumbal cholinergic activity decreases drug seeking and eating. The aim of this study was to examine the role of cholinergic interneuron activity in alcohol drinking and alcohol related locomotor activity. Cholinergic interneurons (ChI) were manipulated using DREADDs (Designer Receptors Exclusively Activated by Designer Drugs), which can be selectively activated with clozapine-n-oxide (CNO). To express DREADDs selectively in ChIs, a cre-dependent viral vector that contained a gene coding for a cell-activating hM3D(Gq)-mCherry (n=9), cell-inhibiting hM4D(Gi)-mCherry (n=9), or control mCherry(n=8), was injected to nucleus accumbens of ChAT-cre- mice. Alcohol drinking was measured using Drinking In the Dark (DID)- model. Three hours after lights-out, the water bottles were replaced with 20% alcohol for two hours, for three days. On the fourth day, mice were injected with CNO or vehicle and alcohol was given for four hours. These cycles were repeated six times. In the locomotor assay, mice were injected with CNO or vehicle, followed by injection of alcohol or saline. Locomotor activity of the mice was observed for 30 minutes. In the DID- assay, the DREADD ligand CNO did not have effects on alcohol drinking within any of the three groups. However, Gi- mice drank more alcohol than Gq-mice even without the presence of CNO. These results are not reliable enough to draw conclusions, as they were confounded by unusually low drinking volumes. In the locomotor assay, CNO alone did not affect locomotion in any group. Together with alcohol, however, CNO decreased locomotion in all three groups, compared to alcohol alone. This is consistent with recent reports suggesting that CNO may have nonspecific behavioral effects.