Differences in antagonist affinities at muscarinic receptors in chick and guinea-pig

Abattoir-sourced isolated ileum from Gallus gallus domesticus as an experimental tool

A study was undertaken to determine the longevity of active muscarinic receptors on abattoir-sourced isolated ileum preparations from Gallus gallus domesticus, with a view to using the tissue as an experimental tool for functional response assays in laboratory experiments. A concentration-response curve for acetylcholine (1-256 μM) was plotted, in the presence and absence of 1, 3 and 6 nM atropine. In a second experiment, unknown concentrations of acetylcholine samples were determined by using an interpolation method. In this experiment, four sample concentrations were used and the calculated values were found to be almost equal to the actual values. Finally, an experiment was carried out to elucidate the effects of post-sacrifice time on the contractile response of the tissue. The results showed that the tissue maintained considerable contractile response at the 6-hour post-sacrifice time-point. Competitive antagonistic activity was observed between acetylcholine and atropine on the chicken ileum, and the pA2 value was calculated to be 9.21 by using an Arunlakshana-Schild plot. The results suggest that isolated ileum preparations of Gallus gallus domesticus, obtained from a meat abattoir, can be used as a basic experimental tool for bioassays in routine laboratory experiments. However, its potential as a research tool still needs to be confirmed.

Characterisation of muscarinic receptor subtypes in avian smooth muscle

The identity of the muscarinic receptor subtype in the chick ileum was investigated in functional and binding studies. Preliminary studies [Choo, L.-K., Mitchelson, F., Napier, P. 1988. J. Auton. Pharmacol. 8, 259-266] suggested apparent avian and mammalian family differences in the muscarinic receptor profile of ileal smooth muscle. In the current study, further characterisation was undertaken using a greater range of antagonists exhibiting high affinity for specific muscarinic receptor subtypes. Dissociation constants from functional and binding experiments were compared with published values for antagonists at each of the five muscarinic receptor subtypes. Linear regression and correlation analyses revealed the receptor initiating the contractile response was most likely of the muscarinic M(3) receptor subtype as the slope of the linear regression was 1.01+/-0.14 and the corresponding correlation coefficient (r) was 0.95. The mammalian muscarinic M(5) receptor subtype also showed a high correlation with the data giving a slope of 0.89+/-0.27 and r value of 0.76. These findings were in direct contrast to those from binding experiments in which the single binding site detected was of the muscarinic M(2) receptor subtype. The slope of the linear regression was 1.14+/-0.24 with an r value of 0.87. Thus, these results suggest that there exists a high proportion of the muscarinic M(2) receptor subtype within the tissue that does not contribute to the functional response.

Role of muscarinic cholinergic transmission in Edinger-Westphal nucleus-induced choroidal vasodilation in pigeon

Activation of the parasympathetic ciliary ganglion input to the choroid causes increases in choroidal blood flow. We examined the role and the type of muscarinic receptors within the choroid that are involved in these increases in choroidal blood flow, using electrical stimulation of the nucleus of Edinger-Westphal (EW) to activate the ciliary ganglion input to choroid in ketamine anesthetized pigeons. Baseline choroidal blood flow and its EW-evoked increases measured as peak and total (area under the curve) responses were determined using laser Doppler flowmetry. The EW-evoked responses were reduced dose-dependently after administration of 4-diphenyl-acetoxy-N-methylpiperedine (4-DAMP), a relatively selective antagonist of M3 type muscarinic receptors, with a maximal mean decrease of 86% (peak response) and 93% (total response) at a dose of 10 microg kg(-1)i.v. without a significant effect on baseline choroidal blood flow, heart rate or systemic arterial blood pressure. Atropine, a non-selective antagonist of muscarinic receptors, decreased the EW-evoked responses to a lesser extent than 4-DAMP after intravenous administration of 1 mg kg(-1)(by 67% for peak response and by 53% for total response) or topical administration of a 5% solution (by 41% for peak response and by 62% for total response), both of which increased heart rate and systemic arterial blood pressure without a consistent effect on baseline choroidal blood flow. In contrast, himbacine (i.p. 10 microg kg(-1)), a relatively selective antagonist of M2 type muscarinic receptors, increased the EW-evoked parasympathetic cholinergic vasodilation (by 93% for the peak response and by 142% for the total response) without a significant effect on heart rate, systemic arterial blood pressure or baseline choroidal blood flow. The results of our study suggest a major role of M3 type muscarinic receptors in the EW-evoked increases in choroidal blood flow. Based on findings that the ciliary ganglion input to choroid does not synthesize nitric oxide but inhibitors of NO production do block EW-evoked choroidal vasodilation, it seems likely that the M3 receptors acted on by 4-DAMP are present on choroidal endothelial cells and mediate choroidal vasodilation via stimulation of endothelial release of nitric oxide. In contrast, M2 muscarinic receptors may play a presynaptic role in downregulating EW-evoked parasympathetic cholinergic vasodilation in avian choroid.

Functional sudomotor responses to cholinergic agonists and antagonists in the mouse

This study evaluates the functional activity of the mouse sweat glands in response to cholinergic agonists and antagonists using the silicone imprint technique. In intact mice the response to acetylcholine, methacholine and pilocarpine did not differ significantly from control saline injection, indicating that immobilization induces high levels of sweating, masking the effects of cholinergic stimulation. Plantar emotional sweating was completely abolished by local anesthesia at the ankle. Under these conditions, administration of acetylcholine only provoked detectable sweating when injected locally into the sole skin. Methacholine activated an increasing number of sweat glands in a dose-dependent manner between 0.5 and 10 mg/kg; the response was maximal after 5-10 min of administration and decreased subsequently. With pilocarpine the maximum number of reactive sweat glands was observed at a dose of 2.5 mg/kg. The response was stable for 45 min with doses 2.5 and 5 mg/kg, but decreased exponentially with higher doses. The subtype of sweat gland muscarinic receptor was characterized by determining the inhibitory effect of different cholinergic antagonists on pilocarpine response. Atropine and 4-DAMP were equally potent inhibitors, showing a dose-related effect from 0.05 mg/kg. Pirenzepine only showed inhibitory effects with doses 10-times higher, whereas gallamine and hexamethonium did not induce inhibition at any of the doses tested. These findings suggest that the mouse eccrine sweat gland muscarinic receptors are predominantly M3.

Two populations of muscarinic binding sites in the chick heart distinguished by affinities for ligands and selective inactivation

1. By measuring the binding of N-[3H-methyl]-scopolamine ([3H]-NMS) and of unlabelled subtype-specific muscarinic antagonists, two populations of muscarinic binding sites can be distinguished in the membranes of cardiac ventricles taken from 1-day-old chicks. One of them, corresponding to approximately 80% of [3H]-NMS binding sites, has higher affinities for AF-DX116 (pKi = 6.42) and methoctramine (pKi = 7.33); the rate of [3H]NMS dissociation from these sites is fast. The other population, corresponding to approximately 20% of [3H]-NMS binding sites, has lower affinities for AF-DX116 (pKi = 5.00) and methoctramine (pKi = 6.19); the rate of [3H]-NMS dissociation from these sites is slow. Both populations have high affinities for pirenzepine, but the affinity of the former (major) population is lower (pKi = 7.99) than that of the latter (minor) population (pKi = 10.14). 2. Since it has been shown earlier that two mRNAs for muscarinic receptors are expressed in the chick heart, one of them close to the genetically defined m2 and the other to the m4 subtype, we propose that the major population of binding sites with high affinities for AF-DX116 and methoctramine and the lower affinity for pirenzepine represents the M2-like receptors, while the minor population represents the M4-like receptors. 3. It proved possible to obtain isolated samples of either population by selectively protecting the M2-like sites with AF-DX116 and the M4-like sites with pirenzepine, and by inactivating the unprotected sites with benzilylcholine mustard. The properties of the isolated populations corresponded to those derived from the analysis of [3H]-NMS binding to the original mixed population.4 Alcuronium exerted positive allosteric action on the binding of [3H]-NMS both to the M2-like and the M4-like population and severely slowed down [3H]-NMS dissociation from them; its affinity for the M2-like sites was 3-10 times higher.

Different muscarinic receptor subtypes mediating the phasic activity and basal tone of pig isolated intravesical ureter

1. We have studied the effects of muscarinic cholinoceptor agonists and specific antagonists on both phasic activity and basal tone of the isolated intravesical ureter of the pig by means of isometric techniques in vitro. 2. Acetylcholine in the presence and absence of physostigmine increased both phasic activity and basal tone of ureteral strips in a concentration-dependent manner. Moreover carbachol, methacholine and oxotremorine-M increased both contractile parameters while bethanechol and McN-A-343 evoked only increases in tone without affecting the frequency of the phasic contractions. 3. The nicotinic receptor blocker, hexamethonium (10(-6)-10(-4) M), failed to modify the contractions evoked by a single dose of carbachol (10(-5) M), whilst the muscarinic antagonist, atropine inhibited both phasic and tonic responses. 4. The muscarinic M1 (pirenzepine), M2 (AF-DX 116 and methoctramine), M3 (4-DAMP, HHSiD and p-F-HHSiD), and putative M4 receptor (tropicamide) antagonists significantly reversed increases in both frequency of phasic activity and baseline tone induced by a submaximal dose of carbachol (10(-5) M). The pIC50 values for inhibition of the induced phasic activity were: atropine (10.16) > 4-DAMP (9.12) > HHSiD (8.22) = methoctramine (7.98) = p-F-HHSiD (7.88 > tropicamide (7.62) = pirenzepine (7.53) = AF-DX 116 (7.45) and for inhibition of basal tone were: atropine (10.73) > 4-DAMP (9.32) > HHSiD (8.65) = pirenzepine (8.43) = p-F-HHSiD (8.38) > methoctramine (7.79) > tropicamide (7.53) > AF-DX 116 (7.04). 5. The antagonist profile indicates that an M1 receptor mediates the tonic response while the phasic activity could involve either both M2 and M3 or an M4 muscarinic receptor. These results suggest that different muscarinic receptor subtypes mediate the phasic and tonic contractile activity induced by a submaximal concentration of carbachol in the porcine intravesical ureter.

Subtype of muscarinic receptors mediating relaxation and contraction in the rat iris dilator smooth muscle

1. Carbachol produced a relaxation of dilator muscle at a concentration lower than 1 microM and a contraction at a concentration higher than 1 microM. 2. We studied the effects of the M1-selective antagonist, pirenzepine, the M2-selective antagonist, himbacine, the M3-selective antagonist, 4-diphenyl-acetoxy-N-methylpiperidine methiodide (4-DAMP) and the non-selective antagonist, atropine, on carbachol-induced relaxation and contraction of the rat iris dilator smooth muscle. All the antagonists competitively inhibited both the responses to carbachol. 3. In relaxation and contraction, the low affinity of pirenzepine and himbacine suggest that the rat iris dilator smooth muscle receptors are not of the M1 and M2 subtypes. In contrast, 4-DAMP potently inhibited the carbachol-induced relaxation and contraction with affinities similar to those reported for the M3 subtype. 4. Carbachol-induced relaxation and contraction of the rat iris dilator appears to be mediated through a homogeneous population of M3 subtype.

Mediation of contraction by cholinergic muscarinic receptors in the ureterovesical junction

1. The muscarinic receptor profile of the sheep ureterovesical junction has been studied by means of in vitro techniques. The relative potency (pD2 = -log EC50) and maximum effect (Emax) observed with carbachol were 51-fold and 25% greater than with acetylcholine respectively. This could be due to the presence of active acetylcholinesterase in this tissue. 2. The pA2 values obtained with the muscarinic antagonists were pirenzepine (8.52), AF-DX 116 (8.05), 4-DAMP (9.41) and hexahydroxiladifenidol (8.66). The slope values of Schild plots were not significantly different from unity, indicating competitive antagonism. Furthermore, when the slopes were constrained to 1, no significant differences were found between the pA2 values. These pA2 values were similar to those observed in other mammalian smooth muscles. 3. It is concluded that muscarinic receptors in the sheep ureterovesical junction smooth muscle belong to the M1, M2 and M3 subtypes and mediate contraction of the ureterovesical junction, which suggests that during parasympathetic stimulation they might prevent vesicoureteral reflux.

Distribution and function of cholinergic receptors in the sheep detrusor muscle

The distribution of cholinergic nerve fibres, as well as the characterization of the muscarinic receptors responsible for the contraction, were determined in the detrusor smooth muscle of the sheep. The results obtained demonstrated a rich presence of acetylcholinesterase (AChE)-positive fibres distributed throughout the bladder body forming dense neuromuscular, subepithelial and perivascular plexuses. Furthermore, intramural ganglia containing AChE-positive cell bodies were identified. However, acetylcholine and carbachol induced a dose-dependent contraction of detrusor smooth muscle. The effect observed with carbachol was competitively antagonized by atropine (pA2: 8.94), pirenzepine (pA2: 7.38), AF-DX 116 (pA2: 7.35), 4-DAMP (pA2: 9.26) and hexahydroxiladifenidol (HHSiD) (pA2: 8.49). The pA2 value for pirenzepine is intermediate between M1- and M2-receptors which suggests that this antagonist does not act on M1- or M2-receptors, but that it does on M3-receptors. The pA2 value for AF-DX 116 is consistent with the presence of M2-receptors in this tissue. Moreover, the pA2 values obtained for both 4-DAMP and HHSiD are in agreement with the presence of M3-receptors, due to the lack of effect of pirenzepine on M1-muscarinic receptors. These results indicate the existence of a rich parasympathetic innervation in the sheep detrusor muscle and suggest that its contraction could be mediated by the stimulation of muscarinic receptors belonging to both M3- and M2-subtypes.

Different muscarine receptors mediate the prejunctional inhibition of [3H]-noradrenaline release in rat or guinea-pig iris and the contraction of the rabbit iris sphincter muscle

To investigate the muscarine receptor type mediating inhibition of [3H]-noradrenaline release from the isolated rat and guinea-pig iris we have determined the potency of antimuscarinic drugs to antagonize the methacholine-induced inhibition of [3H]-noradrenaline overflow evoked by field stimulation (3 Hz, 2 min). The prejunctional apparent affinities were compared with those obtained for postjunctional muscarine receptors mediating the methacholine-induced contraction of the isolated rabbit iris sphincter muscle. Prejunctional apparent affinity constants of pirenzepine (6.67), himbacine (8.51), methoctramine (7.92), 4-diphenylacetoxy-N-methylpiperidine methiodide (4-DAMP, 8.00), hexahydro-difenidol enantiomers (6.92, (R); 5.77, (S)) in the rat iris and methoctramine (7.58) in the guinea-pig iris indicate the presence of M2 receptors. Although the postjunctional affinity constants in the rabbit iris sphincter of methoctramine (5.93), gallamine (3.92), and 4-DAMP (9.07) confirm our previous suggestions of the presence of M3-like receptors, the results obtained with the hexahydro-difenidol enantiomers do not agree with that concept. The postjunctional affinity constants of the hexahydro-difenidol enantiomers were not different from the prejunctional values (6.86, (R); 5.55, (S)), indicating a similar and low degree of stereoselectivity for these stereoisomers at both receptor sites (14 and 17, (R)/(S)-ratios, respectively). Hence, the postjunctional muscarine receptor in the rabbit iris sphincter fails to exhibit the high degree of stereoselectivity observed for hexahydro-difenidol enantiomers at M3 receptors on other smooth muscles.

Radioligand binding characteristics of the chicken cardiac muscarinic receptor

The muscarinic receptor present in chicken cardiac membranes was characterised using a ligand binding approach and compared to the M1, M2 and M3 receptors that can be identified in ligand binding studies at present. [3H]N-methylscopolamine and [3H]pirenzepine appeared to label the same population of muscarinic receptors in chicken cardiac membranes since the density of sites labeled by the two radioligands was similar. Furthermore, affinity estimates of 8 muscarinic receptor antagonists for chicken cardiac muscarinic receptors were the same irrespective of whether [3H]N-methylscopolamine or [3H]pirenzepine was used as the radioligand. The chicken cardiac muscarinic receptor displayed high affinity for pirenzepine (pKi = 7.9) and so did not appear to represent an M2 receptor. Despite the high affinity of chicken cardiac muscarinic receptors for pirenzepine, affinity estimates for dicyclomine (pKi = 8.0), CPPS (pKi = 8.4) and 4DAMP (pKi = 8.6) in chicken heart were not consistent with the presence of M1 receptors. The chicken cardiac muscarinic receptor also displayed significant differences to the M3 receptor since it displayed high affinity for AF-DX 116 (pKi = 7.1) and methoctramine (pKi = 8.4). Finally, chicken heart muscarinic receptors displayed high affinity for gallamine (pKi = 7.0) and pirenzepine suggesting that the receptor was different to the M4 muscarinic receptor of the NG108-15 cell line. These findings suggest that chicken heart expresses a novel muscarinic receptor subtype distinct from the M1, M2, M3, and M4 subtypes already described.

Molecular pharmacology of muscarinic receptor heterogeneity

Muscarinic receptors can be pharmacologically classified into 3 types at the present time, however, five genes for the receptor have been identified. The muscarinic receptor types have unique antagonist selectivity, distribution and are linked to specific second messenger systems. The interaction between the muscarinic receptor types and G proteins may depend on the systems in which the receptors are integrated. Expression of the cloned gene in mammalian cells will be useful in delineating the relationships between the pharmacological types of muscarinic receptors and their genes and studying the interactions between the receptor, G proteins, and second messenger coupling.