Muscarinic receptor antagonism of the nucleus accumbens core causes avoidance to flavor and spatial cues.

Abstract

Pharmacological blockade of muscarinic receptors in the nucleus accumbens reduces food intake and instrumental behaviors that are reinforced by food delivery. Nucleus accumbens muscarinic antagonism may specifically suppress the hedonic or reinforcing effects of food, thus blocking its capacity to direct behavior. Alternatively, muscarinic receptor blockade may cause a negative hedonic state that interferes with appetitive learning and food intake. In these experiments, rats received infusions of scopolamine methyl bromide (10 microg/0.5 microl) into the nucleus accumbens core, following exposure to a novel flavor of liquid diet (Experiment 1) or prior to being placed into a place preference apparatus (Experiment 2). In both experiments, nucleus accumbens muscarinic receptor antagonism caused subsequent avoidance of the paired cue (flavor or spatial location). This effect was specific to cholinergic manipulation; no conditioned taste avoidance was observed after pairing the novel flavor with nucleus accumbens core antagonism of N-methyl-D-aspartate, dopamine D-sub-1, or opioid receptors (Experiment 3). These experiments confirm previous reports of a critical role for striatal acetylcholine in modulating goal-directed behaviors, but suggest caution when interpreting behavioral effects of pharmacological manipulation of striatal acetylcholine.