Nucleus accumbens muscarinic receptors in the control of behavioral depression: antidepressant-like effects of local M1 antagonist in the Porsolt swim test
by
Chau DT, Rada P, Kosloff RA, Taylor JL, Hoebel BG.
Psychology Department,
Princeton University,
Princeton, NJ 08544, USA.
Neuroscience 2001;104(3):791-8
ABSTRACT
Systemically administered cholinomimetics or cholinesterase
inhibitors can depress behavior in humans and animals, whereas antimuscarinic
agents reverse this effect or even produce euphoria. Although these effects
have been well documented, the specific brain regions that mediate them
remain largely unknown. In the present experiments, muscarinic agonists
and antagonists were locally injected into the nucleus accumbens of female
Sprague-Dawley rats to test for their effects on behavioral depression in
the Porsolt swim test and locomotor activity. Local, microinjections of
the drugs in the accumbens elicited behaviors that were similar to the systemic
effects reported in other studies. Injection of the non-specific agonist
arecoline (40 and 80 microg) dose-dependently inhibited swimming and escape
behavior. This may be mediated in part by accumbens M1 receptors because
blocking these receptors with the specific antagonist pirenzepine (17.5
and 35.0 microg) did the opposite by increasing swimming. Gallamine (0.13,
0.44, and 0.88 microg), an antagonist at M2 receptors, dose-dependently
decreased swimming. Two-way microdialysis suggested that this was in part
due to the release of ACh by blocking M2 autoreceptors. Scopolamine, a mixed
M1/M2 receptor antagonist, also released ACh but did not decrease swimming,
probably because the M1 receptors were blocked; the drug (1.0 microg) increased
swimming time, much like pirenzepine. With the exception of arecoline, none
of the drugs significantly affected locomotor activity in a photocell cage.
Arecoline (40 microg), which had decreased swimming, reduced activity.The
present study suggests that muscarinic receptors in the nucleus accumbens
can control immobility in the Porsolt swim test. The onset of immobility
may depend on the activation of post-synaptic M1 receptors.
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