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  • Title: Effects of bilateral ibotenate-induced lesions of the nucleus basalis magnocellularis upon selective cholinergic biochemical markers in the rat anterior cerebral cortex.
    Author: Watson M, Vickroy TW, Fibiger HC, Roeske WR, Yamamura HI.
    Journal: Brain Res; 1985 Nov 04; 346(2):387-91. PubMed ID: 3840399.
    Abstract:
    The relationship of choline acetyltransferase (ChAT) activity and high affinity binding of the potent and selective sodium-dependent choline uptake inhibitor [3H]hemicholinium-3 ([3H]HC-3) to high-affinity binding of the muscarinic agonist [3H](+)-cis-methyldioxolane ([3H](+)CD), the putative M1 selective antagonist [3H]pirenzepine ([3H]PZ) and the classical antagonist [3H](-)-quinuclidinyl benzilate ([3H](-)QNB) in homogenates of the rat neocortex was studied. ChAT activity was 42% lower in rats with ibotenate-induced lesions of the nucleus basalis magnocellularis (nbm) when compared to controls, and [3H]HC-3 binding was similarly reduced by 44%. However, equilibrium dissociation constants (Kd values) for [3H]HC-3 (0.8-1.0 nM), [3H](-)QNB (11-24 pM), [3H]PZ (4.0-4.3 nM) and [3H](+)CD (2.1-2.9 nM) were each unchanged. Mean Bmax values (total binding site densities) for [3H](+)CD were significantly altered in both hemispheres of the anterior cerebral cortex, showing a 25% reduction in the number of sites which display the highest affinity conformation for this potent muscarinic agonist. The decreased ChAT activity and [3H]HC-3 binding after nbm lesions were associated with only slight reductions in putative M1 muscarinic site density (14%) and [3H](-)QNB binding site density (13%). Thus, it appears that while [3H]PZ and [3H](-)QNB label predominantly postsynaptic muscarinic binding sites, a significant number of sites labeled by [3H](+)CD may be associated with presynaptic cholinergic nerve terminals. These data suggest that cholinergic input differentially regulates the drug binding sites of anterior cerebral cortical muscarinic receptors, exerting a substantial effect upon the highest affinity conformational state for agonists.
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