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J Neurophysiol (December 1, 2002). 10.1152/jn.00318.2002
Submitted on 30 April 2002
Accepted on 8 August 2002
1Department of Anesthesiology, University of Michigan, Ann Arbor, Michigan 48109; and 2Department of Neuroscience and Anatomy, The Pennsylvania State University, College of Medicine, Hershey, Pennsylvania 17033
Douglas, Christopher L.,
Helen A. Baghdoyan, and
Ralph Lydic.
Postsynaptic Muscarinic M1 Receptors Activate Prefrontal Cortical
EEG of C57BL/6J Mouse. J. Neurophysiol. 88: 3003-3009, 2002. Recent pharmacological studies
exploring the functional roles of muscarinic cholinergic receptor
(mAChR) subtypes in prefrontal cortex of C57BL/6J (B6) mouse have
provided evidence for a presynaptic M2 autoreceptor. The B6 mouse was
chosen for these studies because it is a genetically well-characterized
model that also provides the genomic background for many genetically
modified mice. In addition to increasing ACh release, one functional
consequence of pharmacologically blocking the cortical M2 autoreceptor
is activation of the contralateral prefrontal cortical EEG. To date, the mechanisms through which M2 autoreceptor antagonism causes cortical
EEG activation have not been investigated. The present study tested the
hypothesis that, in the B6 mouse, prefrontal cortical ACh activates the
contralateral prefrontal EEG via postsynaptic M1 receptors. This
hypothesis was tested in 15 mice using in vivo microdialysis delivery
of muscarinic antagonists with simultaneous quantification of ACh
release, number of 7- to 14-Hz EEG spindles, and fast Fourier
transformation analysis of prefrontal EEG. Dialysis delivery of the
nonsubtype selective muscarinic antagonist scopolamine (10 nM)
significantly (P = 0.01) increased ACh release.
Quantitative EEG analysis showed that scopolamine did not alter
contralateral prefrontal cortical EEG. To differentiate mAChR subtypes
mediating pre- versus postsynaptic responses, additional experiments
used muscarinic antagonists with different affinities for the five mAChR subtypes. Microdialysis delivery of 3 nM AF-DX 116, a muscarinic antagonist with relatively high affinity for the M2 and M4 subtypes, significantly (P < 0.01) increased prefrontal cortical
ACh release and activated EEG in the contralateral prefrontal cortex.
EEG activation was characterized by a significant decrease in number of
7- to 14-Hz EEG spindles (P < 0.0001) and power
(Vrms) of EEG slow waves (P < 0.05).
Microdialysis delivery of 3 nM AF-DX 116 plus 3 nM pirenzepine, a
relatively selective M1 and M4 muscarinic antagonist, also
significantly (P < 0.01) increased ACh release but did
not decrease the number of EEG spindles and did not change EEG slow
waves. The differential EEG and ACh responses to dialysis delivery of
the muscarinic antagonists support the conclusion that, in B6 mouse,
postsynaptic muscarinic receptors of the M1 subtype are a primary site
by which ACh activates the EEG.
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