Effects of several muscarinic agonists on cardiac performance and the release of noradrenaline from sympathetic nerves of the perfused rabbit heart

Abstract

1. The effects of several muscarinic agonists on atrial tension development, ventricular rate and noradrenaline release from terminal sympathetic fibres evoked by electrical nerve stimulation (SNS) and 1,1-dimethyl-4-phenylpiperazinium (DMPP) were measured in isolated perfused rabbit hearts.2. Hexamethonium, in a concentration which almost abolished the release of noradrenaline by DMPP, had no effect on the release produced by SNS, confirming that the stimulation was postganglionic.3. The order of potency for inhibition of atrial tension development was N-methyl-1,2,5,6, tetrahydro-nicotinic acid prop-2-yne ester (MH-1)>oxotremorine > acetylcholine > methacholine > carbachol > furtrethonium > pilocarpine>4-(m-chlorophenylcarbamoyloxy)-2-butynyltrimethylammonium chloride (McN-A-343)>N-benzyl-3-pyrrolidyl acetate methobromide (AHR 602). All effects were abolished by atropine (1.4 x 10(-6)M).4. Each compound was more potent relative to acetylcholine in inhibiting ventricular rate than atrial tension. With the exception of carbachol, the order of potency was the same.5. Both AHR 602 and McN-A-343 facilitated the release of noradrenaline by SNS and inhibited that by DMPP. The effects were atropine-resistant and hence non-muscarinic.6. The muscarinic compounds (except AHR 602 and McN-A-343) each produce atropine-sensitive inhibition of noradrenaline release evoked both by SNS and DMPP although it is likely that furtrethonium and pilocarpine have additional non-muscarinic inhibitory activity against DMPP. The order of potency on both parameters and the potencies relative to acetylcholine were in good agreement with those for inhibition of atrial tension.7. The results suggest that similar muscarinic receptors mediate inhibition of atrial tension development, ventricular rate and neuronal noradrenaline release caused by SNS and DMPP.8. In terms of the two muscarinic sites known to be present in the superior cervical ganglion, the receptors of the terminal fibres mediating inhibition of noradrenaline release are more likely to correspond to those mediating hyperpolarization than to those mediating depolarization, for which AHR 602 and McN-A-343 show specificity.