Rada_2006_Neurosci_141_67

The nucleus accumbens may play a role in acquisition and expression of behavioral depression as measured using the inescapable swim test. Previous work shows that a local injection of a cholinergic muscarinic-1 receptor agonist increases immobility and a specific muscarinic-1 antagonist acts as an antidepressant-like drug by increasing swimming escape efforts. The present study used microdialysis to monitor extracellular acetylcholine levels in the accumbens, fluorescent labeled toxins to monitor changes in acetylcholinesterase and muscarinic-1 receptors, and semiquantitative-polymerase chain reaction to detect changes in gene expression for the muscarinic-1 receptor. Microdialysis showed that acetylcholine levels did not change while an animal was swimming; however, a significant transient decrease occurred when the rat was returned to the dialysis cage, followed by a long-lasting increase that reached a maximum three hours after the test. Acetylcholine levels stayed high even 24 h after the initial test as evidenced by a significant elevation in basal level prior to the second swim. This increase in neurotransmitter may have been partially compensated by a significant increase in the degradative enzyme, acetylcholinesterase, and by a decrease in muscarinic-1 receptors and their gene expression. These results further demonstrate the importance of accumbens cholinergic function in the appearance of a depression-like state.