Analysis of miosis produced by McN-A-343 in anesthetized cats

Aceclidine and pilocarpine interact differently with muscarinic receptor in isolated rabbit iris muscle

The relationship between muscarinic receptor affinity states and the contractile response to the muscarinic agonists carbachol, aceclidine, and pilocarpine, has been examined in the isolated rabbit iris muscle. Contraction of the iris muscle by carbachol and aceclidine was more potent and/or more efficacious than the response to pilocarpine. Analysis of [3H]-Quinuclidinyl benzilate (QNB) binding showed that while both carbachol and aceclidine bound to high- and low-affinity forms of the muscarinic receptor, pilocarpine bound to one affinity state. The efficacy of carbachol and aceclidine to stimulate contraction of the iris muscle was consistent with receptor occupancy theory only when considering the low-affinity state of the muscarinic receptor, and activation of the low-affinity rather than high-affinity binding state of the receptor is likely to mediate the contraction of iris muscle. Therefore, the typical anti-glaucoma muscarinic agonists aceclidine and pilocarpine may interact differently with their target receptors in isolated rabbit iris muscle.

Assessment of muscarinic transmission in the superior cervical and ciliary ganglion of the cat

This study was undertaken to determine if muscarinic mechanisms are involved in synaptic transmission in the parasympathetic ciliary ganglion as has been clearly shown for sympathetic ganglia. Cats were anesthetized, and following topical ephedrine, pupillary constrictions were elicited by electrical stimulation of the intracranial oculomotor nucleus. Nictitating membrane contractions were evoked by electrical stimulation of the preganglionic cervical nerve. Frequency-response curves were repeated after infusion with hexamethonium (0.6-1.0 mg/kg min-1) and after subsequent administration of atropine (500 micrograms/kg. i.v.). In other experiments, effects of nicotinic (DMPP) and muscarinic (McN-A-343) agonists on postganglionic ciliary nerve activity were measured. Treatment with hexamethonium reduced nictitating membrane responses at all frequencies of stimulation (by about 75% at 16-32 Hz). The residual nictitating membrane contractions were subsequently blocked by the addition of atropine. In contrast, hexamethonium totally abolished miosis produced by CNS preganglionic oculomotor nerve stimulation. The nicotinic agonist, DMPP, produced nictitating membrane contractions, miosis, and increased ciliary nerve firing. In contrast, McN-A-343 contracted the nictitating membrane but failed to increase postganglionic ciliary nerve activity. These results suggest that, unlike sympathetic ganglia, a significant degree of muscarinic transmission does not occur in the parasympathetic ciliary ganglion.