Neuroleptics acetylcholine effects

Areca may interact adversely with antipsychotic medications (Deahl 1989). Two cases have been reported of schizophrenic patients who were taking neuroleptics and developed severe extrapyramidal symptoms after areca chewing. Given the functional antagonism between dopamine and acetylcholine in the striatum, it is likely that arecoline amplified the dyskinetic effect of neuroleptic medications. 

Neuroleptic activity profiles. The marked differences in action spectra of the phenothiazines, their derivatives and analogues, which may partially resemble those of butyrophenones, are important in determining therapeutic uses of neuroleptics. Relevant parameters include antipsychotic efficacy (symbolized by the arrow) the extent of sedation and the ability to induce ex-trapyramidal adverse effects. The latter depends on relative differences in antagonism towards dopamine and acetylcholine, respectively (p. 188). Thus, the butyrophenones carry an increased risk of adverse motor reactions because Lullmann, Color Atlas of Pharmacology 2000 Thieme All rights reserved. Usage subject to terms and oonditlons of lloense. 

The heterogeneity of dopaminergic neurons may also be judged by the fact that the cotransmitter systems involving dopamine and peptides are varied in the central nervous system. For example, in the corpus striatum, in addition to dopamine, acetylcholine, y-aminobutyric acid, serotonin, glutamate, and aspartate, one also finds peptides such as enkephalin, substance P, somatostatin, neuropeptide Y, cholecystokinin, neurotensin, and vasoactive intestinal peptide. Although many neuroleptics block dopamine receptors, they may have selective effects on the peptides and other parts of the brain. A few examples will be cited. 

Lack of selectivity (C). Despite appropriate dosing and normal sensitivity, undesired effects can occur because the drug does not specifically act on the targeted (diseased) tissue or organ. For instance, the anticholinergic atropine is bound only to acetylcholine receptors of the muscarinic type however, these are present in many different organs. Moreover, the neuroleptic chlorpromazine is able to interact with several different receptor types. Thus, its action is neither organ-specific nor receptor-specific. 

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