Central nervous system acetylcholine effects

Mecfianism of Action A cholinergic-receptor agonist that binds to acetylcholine receptors, producing both stimulating and depressant effects on the peripheral and central nervous systems. Therapeutic Effect Provides a source of nicotine during nicotine withdrawal and reduces withdrawal symptoms. 

The effect of anisodine (91) on the release of acetylcholine has been investigated (211-213). Investigation of the pharmacological effects of anisodine (91) on the central nervous system in rabbits has shown a strong depressant effect (210). The effect was antagonized by physostigmine and... 

Exposure to disulfoton can result in inhibition of acetylcholinesterase activity, with consequent accumulation of acetylcholine at nerve synapses and ganglia leading to central nervous system, nicotinic, and muscarinic effects (see Section 2.2.1.4 for more extensive discussion). 

With severe intoxication by all routes, an excess of acetylcholine at the neuromuscular junctions of skeletal muscle causes weakness aggravated by exertion, involuntary twitchings, fasciculations, and eventually paralysis. The most serious consequence is paralysis of the respiratory muscles. Effects on the central nervous system include giddiness, confusion, ataxia, slurred speech, Cheyne-Stokes respiration, convulsions, coma, and loss of reflexes. The blood pressure may fall to low levels, and cardiac irregularities, including complete heart block, may occur. ... 

Atropine, an alkaloid from Atropa belladonna, is the classical parasympatholytic compound. It competes with acetylcholine for the binding at the muscarinic receptor. Its affinity towards nicotinic receptors is very low, so that it does not interfere with the ganglionic transmission or the neuromotor transmission, at least in therapeutic dosages. However, in the central nervous system muscarinic receptor do play an important role and while atropine can penetrate the blood-brain barrier it exerts pronounced central effects. Atropine, like all other antagonists of the muscarinic acetylcholine receptor inhibit the stimulatory influence of the parasympathetic branch of the autonomous nervous system. All excretory glands (tear, sweat, salivary, gasto-intestinal, bronchi) are... 

Diazinon, an anticholinesterase organophosphate, inhibits acetylcholinesterase in the central and peripheral nervous system. Inhibition of acetylcholinesterase results in accumulation of acetylcholine at muscarinic and nicotinic receptors leading to peripheral and central nervous system effects. These effects... 

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