Analysis of agonism at functional prejunctional alpha 2-adrenoceptors of rat vas deferens using operational and null approaches

Nonequilibrium activation of a G-protein-coupled receptor

G-protein-coupled receptor activation is generally analyzed under equilibrium conditions. However, real-life receptor functions are often dependent on very short, transient stimuli that may not allow the achievement of a steady state. This is particularly true for synaptic receptors such as the α(2A)-adrenergic receptor (α(2A)-AR). Therefore, we developed a fluorescence resonance energy transfer-based technology to study nonequilibrium α(2A)-AR function in living cells. To examine the effects of increasing concentrations of the endogenous agonist norepinephrine on the speed and extent of α(2A)-AR activation with very high temporal resolution, we took advantage of a fluorophore-containing α(2A)-AR sensor. The results indicated that the efficacy of norepinephrine in eliciting receptor activation increased in a time-dependent way, reaching the maximum with a half-life of ~60 ms. The EC(50) values under nonequilibrium conditions start at ~26 μM (at 40 ms) and show a 10-fold decrease until the steady state is achieved. To analyze the ability of norepinephrine to trigger a downstream intracellular response after α(2A)-AR stimulation, we monitored the kinetics and amplitude of G(i) activation in real time by using a fluorophore-containing G(i) sensor. The results show that both the efficacy and the potency of norepinephrine in inducing G(i) activation achieve a steady state more slowly, compared with receptor activation, and that the initial EC(50) value of ~100 nM decreases in an exponential way, reaching the minimal value of ~10 nM at equilibrium. Therefore, both the efficacy and the potency of norepinephrine increase ~10-fold over a few seconds of agonist stimulation, which illustrates that receptor and G-protein signaling and signal amplification are highly time-dependent phenomena.

Potential serotonergic and noradrenergic involvement in the discriminative stimulus effects of the selective imidazoline I2-site ligand 2-BFI

The functional significance of imidazoline I2 binding sites is unknown but microdialysis studies have indicated that the administration of I2-site ligands leads to an increase in extracellular levels of monoamines. The specific I2-site ligand 2-(-2-benzofuranyl)-2-imidazoline (2-BFI) generates a cue in drug discrimination, thereby indicating functional consequences of I2-site ligand binding. In the present work, we explored the ability of selective noradrenergic and serotonergic ligands to substitute for 2-BFI. Hooded Lister rats were trained in two-lever operant chambers with condensed milk reward to distinguish 2-BFI (7 mg/kg) from saline vehicle, by pressing the correct lever to a predetermined success criterion. Training sessions were then interspersed with sessions in which animals were administered test substances and the proportion of lever presses on the 2-BFI-associated lever (substitution) recorded. Several agents exhibited significant partial substitution for 2-BFI: The monoamine-releasing agents D-amphetamine and fenfluramine dose-dependently substituted for 2-BFI, while norepinephrine (desipramine, reboxetine) and serotonin (clomipramine, citalopram) reuptake inhibitors substituted at one or more doses. Further investigation using specific receptor agonists and antagonists indicated a possible role for activation of alpha1-adrenoceptors but failed to support involvement of alpha2-adenoceptor, beta-adrenoceptor or 5-HT1A receptor activation. These results support the concept that the 2-BFI cue may contain both noradrenergic and serotonergic components.

Functional methods for quantifying agonists and antagonists

The development of occupancy theory has allowed the formulation of a series of mathematical models that describe the interaction of agonists and antagonists with their receptors, in terms of affinity and efficacy. These models provide a framework for the analysis and interpretation of E/[A] curve data and have proved to be useful tools in quantitative pharmacology. Unfortunately, despite the proven utility of this approach and the widespread availability of powerful computer-based curve-fitting programs [BMDP (41), Microsoft Excel. etc.], which greatly facilitate analysis, the application of mathematical modeling remains the exception rather than the rule in pharmacological studies.

Enhanced alpha2A-autoreceptor reserve for clonidine induced by reserpine and cholinomimetic agents in the rat vas deferens

1. The adaptive changes in the functional parameters of the presynaptic alpha2A-adrenoceptors in rat vas deferens were examined after treatments with the monoamine depleter reserpine or with the direct/indirect cholinomimetic agents pilocarpine and neostigmine. 2. For this purpose, we studied the inhibition induced by the alpha2-adrenoceptor agonist clonidine on the twitch contraction of the vas deferens elicited by electrical field stimulation, in animals that had been treated with acute (single dose), short-term (for 4 days) and chronic (for 11 days) regimens of reserpine (0.25 mg kg(-1), s.c., every 48 h), pilocarpine (10 mg kg(-1), i.p., every 12 h) or neostigmine (0.1 mg kg(-1), i.p., every 12 h). The irreversible receptor alkylating agent N-ethoxycarbonyl-2-ethoxy-1,2-dihydroquinoline (EEDQ, 300 nM) was used to block partially the alpha2A-adrenoceptor-mediated effect of clonidine. 3. In control (untreated) animals, clonidine inhibited concentration-dependently the twitch response of the vas deferens (pEC50 = 8.66) with a maximal effect near 100%. The apparent affinity constant for clonidine was estimated with the nested hyperbolic methodology (pK(A) = 7.10). The analysis of the occupancy-effect relation for clonidine revealed a large receptor reserve at alpha2A-adrenoceptors. 4. Acute, short-term and chronic treatments with reserpine increased the sensitivity of alpha2A-adrenoceptors to clonidine (decreased the EC50) by about 3, 4 and 9 fold, respectively, and also increased the pool of receptor reserve for this agonist (decreased the K(E)) by 4, 10 and 10 fold, respectively. Receptor affinity values were not changed after treatments. 5. Short-term and chronic, but not acute, treatments with pilocarpine and neostigmine increased the sensitivity of alpha2A-adrenoceptors to clonidine (decreased the EC50) by about 3 and 2 fold, respectively, and also increased the pool of receptor reserve for this agonist (decreased the K(E)) by 2 and 3 fold, respectively. Receptor affinity values were not changed after these treatments. 6. These results indicate that an enhancement of the receptor reserve for clonidine might account for the supersensitivity of alpha2A-adrenoceptors induced by reserpine, pilocarpine or neostigmine treatments in the rat vas deferens.

On the reliability of affinity and efficacy estimates obtained by direct operational model fitting of agonist concentration-effect curves following irreversible receptor inactivation

Recently, Zernig and colleagues (1996) (J Pharmacol Toxicol Meth 35: 223-237) suggested that for the estimation of agonist affinity and efficacy, the method of simultaneously fitting of concentration-effect curves from control and irreversible antagonist-treated tissues to the operational model of agonism is superior to other analytical approaches. In the present study, we have evaluated the limitations of this simultaneous curve fitting method. Simulation studies showed that this method can be only employed with confidence when the upper asymptotes of the control curves display minimal variation between tissues, which makes its practical utility rather limited. The unreliability of the simultaneous fitting procedure was further underscored with the analysis of experimental data obtained from the interaction between noradrenaline and phenoxybenzamine in rat isolated aorta. The lack of robustness of the parameter estimates showed that under standard experimental conditions the outcomes of simultaneous model fitting are highly dependent on between-tissue variations of the upper asymptotes of the control curves and, therefore, may be unreliable. Therefore, whenever possible, a multiple curve design should be adopted, in which control and treated curves are obtained in one tissue and provide enough information for an independent estimation of affinity and efficacy that is free of intertissue differences.

Alpha 1-adrenoceptor vasoconstriction in the tail artery during ageing

1. We have studied the alpha 1-adrenoceptor-mediated responses in intact tail artery rings from 3-4 and 20-22 months old Sprague-Dawley rats, focusing on possible endothelial alterations. The influence of nitric oxide released by the endothelium, the number of alpha 1-adrenoceptors and the functional receptor reserve were evaluated to determine their contribution to the contractile response mediated by this receptor. The state of the endothelial layer was assessed by confocal microscopy. 2. Noradrenaline (1 nM-100 microM) induced concentration-dependent vasoconstriction. The maximum contractions to noradrenaline (P < 0.05) and to 75 mM KCl (P < 0.01) were higher in young than in old animals. 3. The density (Bmax) of alpha 1-adrenoceptors and the dissociation constant (KD) obtained in [3H]-prazosin binding experiments were unchanged by age. 4. The apparent affinity (pKA) and the percentage of functional receptors (qx 100) remaining after phenoxybenzamine (0.03 microM) were similar in both age groups. 5. After partial alpha 1-adrenoceptor inactivation with phenoxybenzamine, NG-nitro-L-arginine methylester (30 microM) significantly potentiated the E/[A] curve to noradrenaline in young rats. However, only responses to 0.1 to 1 microM noradrenaline were significantly potentiated in old animals. In addition, 94% of the vessels from young, but only 52% from old rats were relaxed by 80-100% of the noradrenaline (0.03 microM) contraction, with 1 microM acetylcholine. 6. No modifications in the area (micron2) or in the number of endothelial nuclei (per mm2) were observed between age groups. An elongation of the nuclei of endothelial cells was observed in the old animals. 7. These data suggest that the noradrenaline-induced contraction is decreased in old rats probably due to differences in either the contractile machinary or postreceptor mechanisms. These alterations may be accompanied by an impairment of the release or production of NO from endothelial cells.

Effects of L-NG-nitro-arginine on noradrenaline induced contraction in the rat anococcygeus muscle

1. The influence of L-NG-nitro-arginine (L-NOARG, 30 microM) on contractile responses to exogenous noradrenaline was studied in the rat anococcygeus muscle. 2. Noradrenaline (0.1-100 microM) contracted the muscle in a concentration-dependent manner. L-NOARG (30 microM) had no effect on noradrenaline responses. 3. Phenoxybenzamine (Phz 0.1 microM) depressed by 46% (P < 0.001) the maximum response and shifted to the right (P < 0.001) the E/[A] curve to noradrenaline (pEC50 control: 6.92 +/- 0.09; pEC50 Pbz: 5.30 +/- 0.10; n = 20). 4. The nested hyperbolic null method of analysing noradrenaline responses after phenoxybenzamine showed that only 0.61% of the receptors need to be occupied to elicit 50% of the maximum response, indicating a very high functional receptor reserve. 5. Contractile responses to noradrenaline after partial alpha 1-adrenoceptor alkylation with phenoxybenzamine (0.1 microM) were clearly enhanced by L-NOARG. 6. The potentiating effect of L-NOARG on noradrenaline responses after phenoxybenzamine was reversed by (100 microM) L-arginine but not by (100 microM) D-arginine. 7. These results indicate that spontaneous release of NO by nitrergic nerves can influence the alpha -adrenoceptor-mediated response to exogenous noradrenaline.

Endothelial modulation of alpha 1-adrenoceptor contractile responses in the tail artery of spontaneously hypertensive rats

1. Vascular contraction induced by phenylephrine was studied in tail artery rings from spontaneously hypertensive (SHR) and Wistar Kyoto rats (WKY) with particular focus on the role of endothelium. The influence of receptor reserve and the density of alpha 1-adrenoceptors on the possible differences observed were also analysed. 2. Phenylephrine (0.01-100 microM) induced concentration-dependent vasoconstrictions. The maximum response (alpha, P < 0.001) was greater but the pEC50 (P < 0.05) smaller in rings from SHR than from WKY rats irrespective of the presence or absence of endothelium. 3. Removal of endothelial cells resulted in a decrease of the maximum contraction with no modification in the pEC50 in arteries from both WKY and SHR. 4. The density of alpha 1-adrenoceptors (Bmax) and the dissociation constant (KD) were found to be the same for preparations from SHR and WKY rats in [3H]-prazosin binding experiments. 5. The apparent affinity (pKA) determined by the nested hyperbolic method and the operational model was similar in tail arteries from the two rat strains, irrespective of the presence or absence of endothelium. However, in endothelium-denuded rings, the pKA value was enhanced when compared with intact rings, in both SHR and WKY rats. 6. In rings from hypertensive rats, the operational parameter maximum possible effect (Em) was greater and the agonist efficacy (tau) was smaller than in rings from normotensive rats. When the endothelium was removed log tau and Em diminished in preparations from both rat strains. 7. In summary, the increased maximum responsiveness to phenylephrine in rings from SHR could be due to enhancement in Em. The log tau values indicate a deterioration in the transduction of the stimulus provided by the agonist in tail arteries from hypertensive animals. This study also suggests that the absence of endothelium modifies the alpha 1-adrenoceptor-mediated vasoconstriction probably by altering the transduction signalling mechanisms. The importance of analysing the degree of endothelium functionality when comparing results from different groups of rats is stated.

Modelling the changes induced by chronic desipramine treatment on the factors governing the agonism at prejunctional alpha 2-adrenoceptors

1. The adaptational changes induced after chronic desipramine treatment on functional responsiveness of alpha 2-adrenoceptor activation were investigated in prostatic portions of the rat vas deferens. 2. For this purpose, clonidine and xylazine were studied for their effects on twitch contractions elicited by electrical field stimulation of prostatic portions removed 48 h after the last injection to the animals of vehicle or desipramine (10 mg kg-1, i.p.; 14 days). Operational model-fitting and the nested hyperbolic method were used to analyse the effects of irreversible receptor alkylation by N-ethoxycarbonyl-2-ethoxy-1,2-dihydroquinoline (EEDQ, 300 nM) on the alpha 2-adrenoceptor-mediated effects of clonidine, either in vehicle- or in desipramine-treated animals. 3. Treatment with desipramine decreased the potency (increased the EC50) of clonidine and xylazine by about 12 and 9 fold respectively. However, the treatment did not modify the maximal effect (alpha) elicited by either agonist. The estimates of apparent affinity for clonidine did not depend on the method of calculation as the 'null' method and the 'operational' method gave similar answers. Estimates of tau values for both agonists revealed that chronic desipramine treatment resulted in significant decreases in the efficacy of agonists. However, desipramine treatment was not associated with significant changes in the affinity constant for clonidine while for xylazine, the operational model provided a higher estimate of KA (lower affinity) after desipramine treatment. 4. The results indicate a large receptor reserve at prejunctional alpha 2-adrenoceptors which is modulated by chronic desipramine treatment. 5. The comparison of results obtained after chronic desipramine exposure with those by using EEDQ suggests that chronic desipramine treatment is not a useful experimental intervention for the purpose of estimating agonist affinities and efficacies.

Evidence for functional alpha 2D-adrenoceptors in the rat intestine

1. Peristaltic contractions were induced in segments of rat ileum by raising the intramural pressure. A mean pressure of 4.3 +/- 0.2 cmH2O (n = 112) was required to initiate rhythmic contractions of the longitudinal muscle (preparatory phase) and associated volume expulsions caused by circular muscle contraction. The frequency of peristalsis remained constant over two 15 min periods of stimulation. 2. The alpha 2-adreoceptor agonists, clonidine, UK 14,304, B-HT 920, B-HT 933 and the selective alpha 2A-agonists, oxymetazoline and guanfacine, caused concentration-dependent inhibition of peristaltic contractions. The potency order and IC50 values (nM) were: clonidine (2.81) > or = oxymetazoline (4.23) > or = UK 14,304 (4.48) > or = guanfacine (5.51) > B-HT 920 (78.72) > B-HT 933 (442.48). 3. High concentrations of clonidine, amounting to more than 10 and 100 times the IC50 value in the peristaltic reflex (30 and 300 nM respectively), failed to inhibit the cholinergic contractile response to transmural electrical stimulation over the range of 2.5 to 40 Hz. 4. alpha 2-Adrenoceptor antagonists were used to determine the subtype of presynaptic alpha 2-adrenoceptor in rat ileum. All the antagonists tested caused parallel shifts to the right of the concentration-response regression line to clonidine and none, except ARC 239, influenced the rate of peristalsis. However, ARC 239 significantly decreased the frequency of control period peristaltic contractions. The order of affinity of the antagonists against clonidine (pKB values in parentheses) was RX 821002 (8.99) > phentolamine (8.07) > BRL 44408 (7.43) > or = rauwolscine (7.41) > or = yohimbine (7.28) > prazosin (5.86) > or = ARC 239 (5.74). 5. These results, when compared with binding and functional data from various other tissues and cell lines, are consistent with the presence of presynaptic alpha 2D-adrenoceptors in rat ileum. Further evidence is provided that this subtype of alpha 2-adrenoceptor is probably located proximal to the final cholinergic neurones in the reflex arc.

An update on histamine H3 receptors and gastrointestinal functions

The distribution and functions of histamine H3 receptors in the gastrointestinal tract is reviewed with particular reference to the effects on gastric acid secretion, mucosal protection, and intestinal motility. Histamine H3 receptor activation has negative effects on acid secretion induced by indirect secretagogues in cats, dogs, and rabbits; less clear effects were found in rats. An inhibitory effect on histamine release induced by different stimuli was observed in rats, rabbits, and dogs after H3 receptor agonists, thus supporting the idea that H3 receptors occur in ECL cells. (R)-alpha-methylhistamine has a marked protective effect against gastric lesions induced by ethanol in rats, being slightly less effective against aspirin and stress. H3 receptor activation decreases the intestinal motility induced by electrical stimulation in a variety of gut preparations, reducing both cholinergic and NANC neurotransmitter release. In this tissue the inhibitory effects mediated by histamine H3 receptors seem to be coupled, via a G protein, to a restriction of Ca2+ access into the nerve terminal; other mechanisms, however, have been suggested in the gastric mucosa. Histamine H3 receptors have already been subdivided into two receptor subtypes, H3A and H3B, the former being the subtype predominant in the gastrointestinal tissue. The increasing availability of selective agonists and antagonists of H3 receptors will unravel possible novel actions and physiological roles of histamine.