Beta-adrenoceptor heterogeneity in guinea-pig airways: comparison of functional and receptor labelling studies

Involvement of beta3-adrenergic receptors in relaxation mediated by nitric oxide in chicken basilar artery

The response of basilar arteries to noradrenaline varies among many animal species, but remains little studied in poultry. Accordingly, we aimed to characterize the adrenergic receptor (AR) subtypes that modulate vascular response in basilar arteries in the chicken, with isometric recording of arterial ring tension using an organ bath. We demonstrated the presence of both alpha and beta (α and β) receptor subtypes through evaluating the response to noradrenaline, with and without a range of β-AR and α-AR antagonists. The concentration-dependent relaxations then induced by a range of β-AR agonists indicated a potency ranking of isoproterenol > noradrenaline > adrenaline > procaterol. We then investigated the effects of β-AR antagonists that attenuate the effect of isoproterenol (propranolol for β_1,2,3-ARs, atenolol for β₁-ARs, butoxamine for β₂-ARs, and SR 59230A for β₃-ARs), with Schild regression analysis, ascertaining multiple β-AR subtypes, with neither the β₁-AR nor the β₂-AR as the dominant subtype. SR 59230A was the only antagonist to yield a pA₂ value (7.52) close to the reported equivalent for the relevant receptor subtype. Furthermore, treatment with SR 58611 (a β₃-AR agonist) induced relaxation, which was inhibited (P < 0.01) by L-NNA and SR 59230A. Additionally, treating basilar arterial strips (containing endothelium) with SR 58611 induced nitric oxide (NO) production, which was inhibited (P < 0.01) by L-NNA and SR 59230A. Based on this first characterization of AR subtypes in chicken basilar arteries (to our knowledge), we suggest that α- and β-ARs are involved in contraction and relaxation, and that β₃-ARs, especially those on the endothelium, may play an important role in vasodilation via NO release.

Functional and morphologic dysfunctions in the airways of rats submitted to an experimental model of obesity-exacerbated asthma

The obesity-exacerbated asthma phenotype is characterized by more severe asthma symptoms and glucocorticoid resistance. The aim of this study was to standardize an obesity-exacerbated asthma model by a high glycemic level index (HGLI) diet and ovalbumin (OVA) sensitization and challenges in Wistar rats. Animals were divided into groups: control (Ctrl), obese (Ob), asthmatic (Asth), obese asthmatic (Ob + Asth) and obese asthmatic treated with dexamethasone (Ob + Asth + Dexa), and in vivo and in vitro functional and morphological parameters were measured. After HGLI consumption, there was an increase in body weight, fasting blood glucose, abdominal circumferences, body mass index and adiposity index. Respiratory function showed a reduction in pulmonary tidal volume and ventilation. In isolated tracheas, carbachol showed an increase in contractile efficacy in the Ob, Ob + Asth and Ob + Asth + Dexa, but mostly on Ob + Asth. Histological analysis of lungs showed peribronchovascular inflammation and smooth muscle hypertrophy and extracellular remodeling on Ob + Asth and Ob + Asth + Dexa. An obesity-exacerbated asthma model was successfully established. Therefore, this model allows further molecular investigations and the search for new therapies for the treatment and relief of symptoms of patients with obesity-induced resistant asthma.

Regulation of Airway Smooth Muscle Contraction in Health and Disease

Airway smooth muscle (ASM) extends from the trachea throughout the bronchial tree to the terminal bronchioles. In utero, spontaneous phasic contraction of fetal ASM is critical for normal lung development by regulating intraluminal fluid movement, ASM differentiation, and release of key growth factors. In contrast, phasic contraction appears to be absent in the adult lung, and regulation of tonic contraction and airflow is under neuronal and humoral control. Accumulating evidence suggests that changes in ASM responsiveness contribute to the pathophysiology of lung diseases with lifelong health impacts.Functional assessments of fetal and adult ASM and airways have defined pharmacological responses and signaling pathways that drive airway contraction and relaxation. Studies using precision-cut lung slices, in which contraction of intrapulmonary airways and ASM calcium signaling can be assessed simultaneously in situ, have been particularly informative. These combined approaches have defined the relative importance of calcium entry into ASM and calcium release from intracellular stores as drivers of spontaneous phasic contraction in utero and excitation-contraction coupling.Increased contractility of ASM in asthma contributes to airway hyperresponsiveness. Studies using animal models and human ASM and airways have characterized inflammatory and other mechanisms underlying increased reactivity to contractile agonists and reduced bronchodilator efficacy of β₂-adrenoceptor agonists in severe diseases. Novel bronchodilators and the application of bronchial thermoplasty to ablate increased ASM within asthmatic airways have the potential to overcome limitations of current therapies. These approaches may directly limit excessive airway contraction to improve outcomes for difficult-to-control asthma and other chronic lung diseases.

Bronchodilator effects of Lignosus rhinocerotis extract on rat isolated airways is linked to the blockage of calcium entry

BACKGROUND

Lignosus rhinocerotis (Cooke) Ryvarden is a popular medicinal mushroom used for centuries in Southeast Asia to treat asthma and chronic cough. The present study aimed to investigate the effect of this mushroom on airways patency.

MATERIALS AND METHODS

The composition of L. rhinocerotis TM02 cultivar was analyzed. Organ bath experiment was employed to study the bronchodilator effect of Lignosus rhinocerotis cold water extract (CWE) on rat isolated airways. Trachea and bronchus were removed from male Sprague-Dawley rats, cut into rings of 2 mm, pre-contracted with carbachol before adding CWE into the bath in increasing concentrations. To investigate the influence of incubation time, tissues were exposed to intervals of 5, 15 and 30 min between CWE concentrations after pre-contraction with carbachol in subsequent protocol. Next, tissues were pre-incubated with CWE before the addition of different contractile agents, carbachol and 5-hydroxytrptamine (5-HT). The bronchodilator effect of CWE was compared with salmeterol and ipratropium. In order to uncover the mechanism of action of CWE, the role of beta-adrenoceptor, potassium and calcium channels was investigated.

RESULTS

Composition analysis of TM02 cultivar revealed the presence of β-glucans and derivatives of adenosine. The extract fully relaxed the trachea at 3.75 mg/ml (p < 0.0001) and bronchus at 2.5 mg/ml (p < 0.0001). It was observed that lower concentrations of CWE were able to fully relax both trachea and bronchus but at a longer incubation interval between concentrations. CWE pre-incubation significantly reduced the maximum responses of carbachol-induced contractions (in both trachea, p = 0.0012 and bronchus, p = 0.001), and 5-HT-induced contractions (in trachea, p = 0.0048 and bronchus, p = 0.0014). Ipratropium has demonstrated a significant relaxation effect in both trachea (p = 0.0004) and bronchus (p = 0.0031), whereas salmeterol has only affected the bronchus (p = 0.0104). The involvement of β₂-adrenoceptor and potassium channel in CWE-mediated airway relaxation is ruled out, but the bronchodilator effect was unequivocally affected by influx of calcium.

CONCLUSIONS

The bronchodilator effect of L. rhinocerotis on airways is mediated by calcium signalling pathway downstream of G_αq-coupled protein receptors. The airway relaxation effect is both concentration- and incubation time-dependent. Our findings provide unequivocal evidence to support its traditional use to relieve asthma and cough.

Quantification of beta adrenergic receptor subtypes in beta-arrestin knockout mouse airways

In allergic asthma Beta 2 adrenergic receptors (β₂ARs) are important mediators of bronchorelaxation and, paradoxically, asthma development. This contradiction is likely due to the activation of dual signaling pathways that are downstream of G proteins or β-arrestins. Our group has recently shown that β-arrestin-2 acts in its classical role to desensitize and constrain β₂AR-induced relaxation of both human and murine airway smooth muscle. To assess the role of β-arrestins in regulating β₂AR function in asthma, we and others have utilized β-arrestin-1 and -2 knockout mice. However, it is unknown if genetic deletion of β-arrestins in these mice influences β₂AR expression in the airways. Furthermore, there is lack of data on compensatory expression of βAR subtypes when either of the β-arrestins is genetically deleted, thus necessitating a detailed βAR subtype expression study in these β-arrestin knockout mice. Here we standardized a radioligand binding methodology to characterize and quantitate βAR subtype distribution in the airway smooth muscle of wild-type C57BL/6J and β-arrestin-1 and β-arrestin-2 knockout mice. Using complementary competition and single-point saturation binding assays we found that β₂ARs predominate over β₁ARs in the whole lung and epithelium-denuded tracheobronchial smooth muscle of C57BL/6J mice. Quantification of βAR subtypes in β-arrestin-1 and β-arrestin-2 knockout mouse lung and epithelium-denuded tracheobronchial tissue showed that, similar to the C57BL/6J mice, both knockouts display a predominance of β₂AR expression. These data provide further evidence that β₂ARs are expressed in greater abundance than β₁ARs in the tracheobronchial smooth muscle and that loss of either β-arrestin does not significantly affect the expression or relative proportions of βAR subtypes. As β-arrestins are known to modulate β₂AR function, our analysis of βAR subtype expression in β-arrestin knockout mice airways sets a reference point for future studies exploiting these knockout mice in various disease models including asthma.

The design, synthesis and pharmacological characterization of novel β₂-adrenoceptor antagonists

BACKGROUND AND PURPOSE

Selective and potent antagonists for the β(2) -adrenoceptor are potentially interesting as experimental and clinical tools, and we sought to identify novel ligands with this pharmacology.

EXPERIMENTAL APPROACH

A range of pharmacological assays was used to assess potency, affinity, selectivity (β(2) -adrenoceptor vs. β(1) -adrenoceptor) and efficacy.

KEY RESULTS

Ten novel compounds were identified but none had as high affinity as the prototypical β(2) -adrenoceptor blocker ICI-118,551, although one of the novel compounds was more selective for β(2) -adrenoceptors. Most of the ligands were inverse agonists for β(2) -adrenoceptor-cAMP signalling, although one (5217377) was a partial agonist and another a neutral antagonist (7929193). None of the ligands were efficacious with regard to β(2) -adrenoceptor-β-arrestin signalling. The (2S,3S) enantiomers were identified as the most active, although unusually the racemates were the most selective for the β(2) -adrenoceptors. This was taken as evidence for some unusual enantiospecific behaviour.

CONCLUSIONS AND IMPLICATIONS

In terms of improving on the pharmacology of the ligand ICI-118,551, one of the compounds was more selective (racemic JB-175), while one was a neutral antagonist (7929193), although none had as high an affinity. The results substantiate the notion that β-blockers do more than simply inhibit receptor activation, and differences between the ligands could provide useful tools to investigate receptor biology.

Rosiglitazone reverses salbutamol-induced β(2) -adrenoceptor tolerance in airway smooth muscle

BACKGROUND AND PURPOSE

β₂-Adrenoceptor agonists are important therapeutic agents in the treatment of asthma and chronic obstructive pulmonary disease. The regular use of these drugs has been associated with proasthmatic-like changes that limit their efficacy and increase the risk of severe adverse reactions. We investigated whether the peroxisome-proliferator-activated receptor (PPAR)γ agonist rosiglitazone modulated salbutamol-induced β₂-adrenoceptor desensitization in vivo and in vitro.

EXPERIMENTAL APPROACH

An in vivo model of homologous β₂-adrenoceptor desensitization, established in guinea-pigs by administering salbutamol continuously, was used to study the ability of rosiglitazone to prevent β₂-adrenoceptor tolerance. In vitro experiments on human bronchial smooth muscle cells were performed to increase the clinical relevance of the study.

KEY RESULTS

In tracheal smooth muscle tissues from desensitized animals, we observed a decrease in the protective effect of salbutamol on carbachol-induced contraction, a hyperresponsiveness to cholinergic stimuli, a modest underexpression of β₂-adrenoceptor gene and a marked decrease in β-adrenoceptor number, relative to control values. Treatment with rosiglitazone preserved salbutamol relaxant activity, mitigated carbachol hyperresponsiveness and partially restored β₂-adrenoceptor binding sites in tracheal tissues from homologously desensitized animals. The highly selective PPARγ agonist, GW1929, reproduced the effect of rosiglitazone, in vivo. In vitro β₂-adrenoceptor desensitization decreased salbutamol-mediated cAMP production, without affecting forskolin responses and β₂-adrenoceptor expression. Rosiglitazone and 15-deoxy-Δ¹²(,)¹⁴-prostaglandin J₂ restored salbutamol sensitivity in homologously desensitized cells.

CONCLUSIONS AND IMPLICATIONS

These data suggest a potential pharmacodynamic interaction between PPARγ agonists and salbutamol on airway smooth muscle responsiveness, supporting the therapeutic potential of this combination in chronic airway disease.

Biphasic tracheal relaxation induced by higenamine and nantenine from Nandina domestica Thunberg

We compared the effects of the extract from fruits of Nandina domestica Thunberg (NDE) and its constituents, higenamine and nantenine, on contractile responses in isolated guinea-pig trachea. NDE (1 mg/ml) caused biphasic relaxation of the trachea precontracted with high-K(+) stimulation: the fast component was blocked by propranolol and mimicked by higenamine; and the slow was resistant to propranolol and mimicked by nantenine. Ca(2+)-induced contraction under high-K(+) stimulation was antagonized by nantenine or NDE + propranolol. These results suggest that NDE relaxes the trachea quickly through β-adrenoceptor stimulation by higenamine and slowly through Ca(2+) antagonism by nantenine.

Sexual dimorphism in stress-induced changes in adrenergic and muscarinic receptor densities in the lung of wild type and corticotropin-releasing hormone-knockout mice

We tested the hypothesis that single and repeated immobilization stress affect densities of alpha(1)-adrenoceptor (alpha(1)-AR) and beta-AR subtypes, muscarinic receptors (MR), adenylyl cyclase activity (AC) and phospholipase C activity (PLC) in lungs of male and female wild type (WT) and corticotropin-releasing hormone gene (CRH-knockout (KO)) disrupted mice. We found sex differences in the basal levels of alpha(1)-AR subtypes (females had 2-3 times higher density of receptors than males) and MR (males had twice the density found in females). In marked contrast, beta-AR subtype densities did not differ between sexes. CRH gene disruption decreased all three studied receptors in intact mice (to 20-50% of WT) in both sexes (except beta(1)-AR in females). Stress induced sexually dimorphic responses, while all alpha(1)-AR subtypes decreased in females (to 30% of control approximately), only alpha(1A)-AR level diminished (about 50%) in males. beta(1)-AR decreased in males (to about 40%) but remained stable in females. beta(2)-AR diminished in females (to about 20-60%) and also in males (to about 30-60%). MR decreased in both sexes (approximately to 50%). AC activity diminished in males (to < 50%) while PLC activity was not changed. In CRH-KO mice, the stress response was severely diminished. Paradoxically, the receptor response to stress was less affected by CRH-KO in males than in females. AC activity did not change in CRH-KO mice. In conclusion, in mice the stress reaction is sexually dimorphic and an intact hypothalamo-pituitary-adrenocortical system is required for the normal reaction of pulmonary adrenergic and MR to stress.

Homology modeling and flex-ligand docking studies on the guinea pig beta(2) adrenoceptor: structural and experimental similarities/ differences with the human beta(2)

The trachea of a guinea pig is widely used in drug development assays focused on the treatment of pulmonary diseases. Some of these drugs relax the airways by binding to the guinea pig beta(2)-adrenoceptor (Gbeta(2)AR). In this work, the amino acid sequence of the Gbeta(2)AR was searched to carry out homology modeling, using the Swiss-Model server, with the human beta(2)AR as the parent template. The Gbeta(2)AR 3-D structure was structurally and energetically optimized in vacuo using NAMD 2.6 program. The refined 3-D model obtained was used for further study. Molecular docking simulations were performed by testing a set of well-known beta(2)AR ligands using the AutoDock 3.0.5 program. The results show that the homology model of Gbeta(2)AR has a 3-D structure very similar to the crystal structure of recently studied human beta(2)AR. This was also corroborated by identity (94.23%), Ramachandran map, and docking results. The theoretical simulation showed that the ligands bind at sites that are similar to those reported for the human beta(2)AR. The R-enantiomer ligands showed correlation with in vitro data. We have obtained a Gbeta(2)AR 3-D model which can be used to carry out computational screening as a complementary tool during the drug design and experimental tests under guinea pig models.

Demonstration of pulmonary β2-adrenergic receptor binding in vivo with [18F]fluoroethyl-fenoterol in a guinea pig model

PURPOSE

The new beta2 radioligand (R,R)(S,S) 5-(2-(2-[4-(2-[18F]fluoroethoxy)phenyl]-1-methylethylamino)-1-hydroxyethyl)-benzene-1,3-diol ([18F]FE-fenoterol; [18F]FEFE), a fluoroethylated derivative of racemic fenoterol, was evaluated in vivo and ex vivo using a guinea pig model.

METHODS

Dynamic PET studies over 60 min with [(18)F]FEFE were performed in nine Hartley guinea pigs in which a baseline (group 1, n=3), a predose (group 2, n=3; 2 mg/kg fenoterol 5 min prior to injection of [18F]FEFE) or a displacement study (group 3, n=3; 2 mg/kg fenoterol 5 min post injection of [18F]FEFE) was conducted.

RESULTS

In all animal groups, the lungs could be visualised and semi-quantified separately by calculating uptake ratios to non-specific binding in the neck area. Premedication with non-radioactive fenoterol and displacement tests showed significant reduction of lung uptake, by 94% and 76%, respectively.

CONCLUSION

These data demonstrate specific binding of the new radioligand to the pulmonary beta2-receptors in accordance with ex vivo measurements. Therefore, [18F]FEFE seems to be suitable for the in vivo visualisation and quantification of the pulmonary beta2-receptor binding in this animal model.

Pharmacological and biochemical characterization of the beta-adrenergic signal transduction pathway in different segments of the respiratory tract

Although in the respiratory system there is great therapeutic interest in manipulating and understanding the beta-adrenoceptor-G-protein-adenylate cyclase (AC) signal transduction pathway, little is known on segmental differences among lung, bronchus, and trachea with regard to the receptor concentration and interaction to G-proteins and coupling to AC. In this study, patterns of distribution and absolute quantities of beta-adrenoceptor subtypes beta(1) and beta(2) were determined in membranes of equine lung parenchyma, bronchial and tracheal epithelium with the underlying smooth muscle by saturation and competition binding assays using the radioligand (-)-[125I]-iodocyanopindolol (ICYP). Additionally, the functional coupling of beta-adrenoceptors to G-proteins (assessed by beta-agonist competition binding in the presence and absence of GTP) as well as the coupling efficiency and biochemical activities of AC was investigated in each region. The specific ICYP binding was rapid, reversible, saturable with time and of high affinity. The radioligand binding identified more total beta-adrenoceptors in the lung than in bronchus or trachea (428+/-19, 162.4+/-4.8, 75.6+/-1.2 fmol/mg protein, respectively) with about 40% of receptors in the high affinity state. The beta(2)-adrenoceptor subtype predominated in all segments (approximately 74-80%), as the highly selective beta(2)-adrenoceptor antagonist ICI 118,551 was about 10,000 times more potent in inhibiting ICYP binding than was the beta(1)-selective adrenoceptor antagonist CGP 20712A, and beta-adrenoceptor agonists inhibited ICYP binding with an order of potency: (-)-isoprenaline>(-)-adrenaline>(-)-noradrenaline. The dissociation constant (K(d)) was higher in the trachea than in bronchus or lung (13.0+/-0.9 pM vs. 20.0+/-2.3 pM vs. 30.8+/-4.4 pM, P<0.05, respectively). The beta(2)-adrenoceptor-mediated AC response was tissue-dependent; stimulants acting on beta-adrenoceptor (isoproterenol), G-protein (GTP, NaF) and AC (forskolin, Mn(2+)) enhanced AC responses in all three regions, but the AC activity was higher in tracheal crude membranes than in bronchus or lung (trachea>>>bronchus>lung), hence, the number of beta(2)-adrenoceptors correlated inversely with the amount of AC. We conclude that (1) the stoichiometry of components within the pulmonary beta-adrenoceptor-G-protein complex is segment-dependent, and (2) the receptor number or AC activity is possibly the rate-limiting factor in the beta-adrenoceptor-G-protein-AC-mediated physiological responses. Thus, it is speculated that this could have important therapeutic consequences in beta-adrenoceptor agonist-induced receptor regulation in bronchial asthma.

Activation of beta2- and beta3-adrenergic receptors increases brain tryptophan

Brain tryptophan concentrations are increased by various stressful treatments, an effect that can be prevented by beta-adrenoceptor antagonists. This study aimed to determine the beta-adrenergic subtype responsible for the tryptophan response. Male CD-1 mice received intraperitoneal injections of nonselective and subtype-selective beta-adrenergic antagonists 20 min before subtype-selective beta-agonists. Selected brain regions were dissected for analysis of tryptophan content by high-performance liquid chromatography with electrochemical detection. The beta(2)-selective agonist clenbuterol (0.3 mg/kg) induced increases in brain tryptophan that reached a peak ( approximately 60%) 1 h following injection and small but statistically significant increases ( approximately 20%) in 5-hydroxyindoleacetic acid: serotonin ratios 2 h following injection. The beta(1)-selective agonist dobutamine (10 mg/kg) produced less robust increases ( approximately 40%) in brain tryptophan, whereas the beta(3)-selective agonists BRL 37344 (0.2 mg/kg (+/-)-(R*,R*)-[4-[2-[[2-(3-chlorophenyl)-2-hydroxyethyl]amino)propyl] phenoxy]acetic acid sodium)) and CL 316243 [0.1 mg/kg disodium 5-[(2R)-2-([(2R)-2-(3-chlorophenyl)-2-hydroxyethyl]amino)propyl]-1,3-benzodioxole-2,2-dicarboxylate)] resulted in larger increases (80 to 100%). Pretreatment with the beta(2)-selective antagonist ICI 118551 (0.5 mg/kg (+/-)-1-[2,3-(dihydro-7-methyl-1H-inden-4-yl)oxyl]-3-[(1-methylethyl)amino]-2-butanol) attenuated the increases in tryptophan induced by both clenbuterol (0.1 mg/kg) and dobutamine (10 mg/kg). Pretreatment with the beta(1/2)-selective antagonist propranolol (2.5 mg/kg), the beta(3)-selective antagonist SR 59230A [1.5, 2.5, 5, or 20 mg/kg (3-(2-ethylphenoxy)-1[1S)-1,2,3,4-tertahydronaphth-1-yl-amino]-(2S)-2-propanol oxalate)], or ICI 118551 (0.5 mg/kg) did not prevent the BRL 37344-induced increase in brain tryptophan, whereas the beta(1/2/3)-antagonist bupranolol (10 mg/kg) attenuated it. CL 316243 had no effect on brain tryptophan in beta(3)-receptor knockout mice, whereas clenbuterol increased brain tryptophan, indicating that beta-adrenergic modulation of brain tryptophan occurs in the absence of beta(3)-receptors. We conclude that activation of either beta(2)- or beta(3)-adrenergic receptors, but not beta(1)-adrenergic receptors, increases mouse brain tryptophan content.

Effects of stress on alveolar macrophages: a role for the sympathetic nervous system

Alveolar macrophages (AMs) play an important role in the regulation of the local immune reactivity in the lung. It was previously shown that exposure of rats to mild inescapable electrical footshock stress (20 min, 4 shocks/min, 5 s/shock, 0.8 mAmp) leads to apparent changes in the activity of AMs upon stimulation, reflected by an enhanced interleukin-1beta and tumor necrosis factor-alpha secretion and decreased nitric oxide secretion compared with the secretion by AMs isolated from nonstressed rats. Here we show that in vivo blockade of the autonomic nervous system by intraperitoneal injection of the nicotinic receptor antagonist chlorisondamine leads to complete abrogation of these stress-induced alterations in AM activity. This role for the autonomic nervous system could further be attributed to sympathetic stimulation of beta-adrenergic receptors as shown by blockade of beta-adrenoceptors. Blockade of either alpha-adrenoceptors or parasympathetic output did not result in abrogation of the stress-induced changes in AM activity. The beta-adrenergic modulation of AM activity most likely is not due to a direct effect of catecholamines on AMs because mimicking the in vivo stress effects by in vitro preincubation of AMs with various doses of catecholamines followed by lipopolysaccharide stimulation did not result in an altered cytokine secretion by AMs.

Tachykinins in propranolol-augmented, hyperpnoea-induced bronchoconstriction in Taida guinea-pigs: effects of dimethylthiourea

1. The present authors recently found that a marked hyperpnoea-induced bronchoconstriction (HIB) only occurred in guinea-pigs after treatment with propranolol, a non-selective beta-adrenoceptor antagonist. This study investigated tachykinin-dependent and antioxidant-modulated mechanisms for this propranolol-augmented HIB. 2. Guinea-pigs were pre-treated with an antioxidant, dimethylthiourea (DMTU), or saline for 3 days. On the day of study, each animal was given a dose of propranolol (0.5 mg kg(-1)), then the airway function was examined in the anaesthetized-paralysed animal before, during and after hyperpnoea with a dry 95% O2:5% CO2 gas mixture. Tracheal neutral endopeptidase (NEP) activity and plasma substance P (SP) level were measured after functional study. 3. In the presence of propranolol, HIB was augmented, and was found to be associated with decreased NEP activity and an increased plasma SP level. The augmented HIB was attenuated by DMTU. 4. Therefore, the present results suggest that propranolol-augmented HIB is tachykinin-dependent and is modulated by DMTU.

Acetylcholine-induced bronchoconstriction modified by noise exposure in normal but not in sensitized guinea-pigs

1. The acute (6h) exposure of guinea-pigs to white noise (110 dB) as a stress stimulus, reduced bronchial reactivity to acetylcholine (Ach) (3-1000 micrograms kg-1 i.v.) in anaesthetized animals. 2. The hyporesponsiveness to Ach in stressed animals was not confirmed in vitro on tracheal preparations (Ach 1 x 10(-9)-1 x 10(-4) g ml-1) and disappeared in vivo when the animals were sensitized with ovalbumin (OA, 100 mg kg-1 i.p. + 100 mg kg-1 s.c.). The hyporesponsiveness was also absent in ovalbumin sensitized guinea-pigs exposed to an aerosol of ovalbumin 60 min before testing with Ach. 3. In non-sensitized guinea-pigs, pretreatment with butoxamine (1 mg kg-1 i.v.) or with theophylline (25 mg kg-1 i.v.), completely abolished the effect of noise-exposure. In contrast, pretreatment with L-NG-nitro-arginine methyl ester (L-NAME, 10 mg kg-1 i.v.), alpha-chymotrypsin (2 U kg-1 i.v.) or with enprofylline (10 mg kg-1 i.v.), did not affect it. 4. In conclusion, our experiments reveal inhibitory mechanisms upon Ach-induced bronchoconstriction activated by a stress stimulus and this is absent in sensitized animals. These mechanisms seem to be linked to the adrenergic beta 2-receptors and a role for the purinergic system (via A-receptors) may also be present.

Comparison of the profiles of agonists as stimulants of the beta 3-adrenoceptor in vitro with their gastroprotective effects in the conscious rat

1. This paper compares the activity of a range of agonists as stimulants of the beta 3-adrenoceptor in rat isolated oesophagus with their ability to afford protection against indomethacin-induced gastric damage in the conscious rat. 2. The beta 3-adrenoceptor agonists, CL 316243 and BRL 37344, the non-selective beta-adrenoceptor agonist, isoprenaline and the selective beta 2-adrenoceptor agonist, salmeterol, all evoked concentration-dependent relaxation of precontracted muscularis mucosa from rat oesophagus. The rank order of agonist potency was BRL 37344 > CL 316243 > isoprenaline >> salmeterol. The selective beta 1-adrenoceptor agonist, denopamine, did not relax the preparation. 3. The relaxant responses to all agonists were resistant to blockade by atenolol (10 microM), and ICI 118551 (1 microM) thus suggesting that they were not mediated by either beta 1- or beta 2-adrenoceptor stimulation. In contrast, cyanopindolol and propranolol did inhibit responses to BRL 37344, CL 316243 and isoprenaline, giving pA2 values or pKB estimates which were consistent with an interaction at beta 3-adrenoceptors (i.e. approximately 8.0 and 6.5 respectively). However, responses to salmeterol were resistant to blockade by all the antagonists tested, which suggests that the high (> 1 microM) concentrations of salmeterol used exerted non-specific relaxant effects. 4. The agonist effects of CL 316243 and BRL 37344 on beta 1- and beta 2-adrenoceptors were assessed on guinea-pig right atrium and precontracted trachea respectively. Both agonists had minimal activity as stimulants of heart rate, but did relax trachea, being 380 (CL 316243) and 21 (BRL 37344) fold less potent than isoprenaline. 5. CL 316243 and BRL 37344 were potent inhibitors of indomethacin-induced gastric antral ulceration in the conscious rat (ED50 values = 0.24 and 0.09 mumol kg-1, p.o.) Salmeterol was approximately 100 times less potent than BRL 37344 as a gastroprotective agent and denopamine was without effect. 6. The gastroprotective effects of CL 316243 and BRL 37344 were resistant to blockade by ICI 118551 (10 mg kg-1, p.o.) and propranolol (10 mg kg-1, p.o.). In contrast, both antagonists caused dose-related inhibition of the protective action of salmeterol (10 mg kg-1, p.o.). Cyanopindolol was not assessed as an antagonist in vivo because preliminary experiments revealed that it exacerbated indomethacin-induced gastric damage in its own right. 7. In conclusion, the beta 3-adrenoceptor agonists CL 316243 and BRL 37344 were potent inhibitors of indomethacin-induced gastric antral ulceration in the rat. These data suggest that an agonist which is potent and selective for the human beta 3-adrenoceptor may confer mucosal protection in man.

Beta-adrenoceptor regulation and functional responses in the guinea-pig following chronic administration of the long-acting beta 2-adrenoceptor agonist formoterol

Formoterol is a long acting beta 2-adrenoceptor agonist designed for the alleviation of the symptoms of asthma. This study examined the effects of 14 day administration of formoterol (200 micrograms/kg/day i.p.) on beta 1- and beta 2-adrenoceptors in guinea-pig cardiac and lung tissue. Quantitative autoradiography was used to measure changes in receptor density and organ bath studies determined alterations in functional response. Formoterol treatment produced marked reductions of between 43% and 77% in beta 2-adrenoceptor density in all regions of the heart (atrioventricular node, bundle of His, right and left bundle branches, interventricular and interatrial septa, right and left atria, ventricles and apex) and lung (bronchial and vascular smooth muscle and parenchyma) (P < 0.01, n = 6). beta 1-Adrenoceptor density remained unchanged in all cardiac and lung regions. In functional studies (-)-isoprenaline was 4 fold less potent at causing relaxation of carbachol (1 microM) precontracted tracheal smooth muscle (pD2: control 8.49 +/- 0.03, formoterol 7.91 +/- 0.10, P < 0.001, n = 4), but formoterol treatment did not change the ability of (-)-isoprenaline to elicit a maximum response. The pKB values for ICI 118,551, 7.33 +/- 0.08 in the control and 7.20 +/- 0.01 in formoterol treated animals, were between those expected for beta 1- and beta 2-adrenoceptors suggesting involvement of both subtypes in the response. In spontaneously beating right atria and electrically paced left atria, tissues in which responses are largely mediated by beta 1-adrenoceptors, there was no significant change in responses to (-)-isoprenaline (right atria pD2: control 8.45 +/- 0.02; formoterol 8.42 +/- 0.11; P = 0.77, n = 4) (left atria pD2: control 8.25 +/- 0.03; formoterol 8.47 +/- 0.08; P = 0.09, n = 4). In the presence of CGP 20712A (100 nM) the pKB values did not change with formoterol treatment (left atria: control 9.59 +/- 0.12, formoterol 9.66 +/- 0.12; P = 0.70, n = 4) (right atria: control 8.93 +/- 0.11, formoterol 9.11 +/- 0.07; P = 0.25, n = 4). The doses and route of administration of formoterol used in this study differs from those used clinically. However, this study demonstrates that chronic formoterol administration produces selective down-regulation of beta 2-adrenoceptors in the lung and heart. The changes in the lung are accompanied by a shift to the right in the concentration-response curve to beta-agonist stimulation with no change in the maximum response.

Cyclic nucleotide phosphodiesterase isoenzymes in guinea-pig tracheal muscle and bronchorelaxation by alkylxanthines

In this study the phosphodiesterase (PDE) isoenzymes in guinea-pig trachealis smooth muscle were separated by DEAE-Sepharose anion exchange chromatography, identified, and characterized. Furthermore the effect of theophylline and 1-n-butyl-3-n-propylxanthine (BPX) on the isolated PDE isoenzymes and on their tracheal relaxant effect were investigated and compared with the nonxanthine PDE inhibitors amrinone and Ro 20-1724. We identified five distinct isoenzymes in guinea-pig tracheal muscle; calcium/calmodulin-stimulated cyclic AMP PDE (PDE I), cyclic GMP-stimulated cyclic AMP PDE (PDE II), cyclic GMP-inhibited and amrinone-sensitive cyclic AMP PDE (PDE III), cyclic AMP-specific and Ro 20-1724-sensitive PDE (PDE IV), and cyclic GMP-specific PDE (PDE V). BPX strongly inhibited the PDE IV isoenzyme with high selectivity, while the inhibitory effect of theophylline was weak. The PDE IV inhibitors BPX and Ro 20-1724 synergistically increased the relaxant effect of the beta 2-adrenoceptor agonist salbutamol in carbachol-contracted trachea much more strongly than theophylline. In contrast, amrinone, a PDE III inhibitor, hardly influenced the relaxant effect of salbutamol, suggesting that the PDE IV isoenzyme is functionally associated with beta 2-adrenoceptors in guinea-pig trachea and that inhibition of this enzyme potentiates the ability of salbutamol to increase the intracellular cyclic AMP content. These results indicate that the PDE IV isoenzyme plays a significant role in alkylxanthine-mediated relaxation of guinea-pig trachea.

Neuronal control of airways smooth muscle

Sensory afferent nerves relay impulses from the airways to the central nervous system so that appropriate changes in bronchomotor tone and breathing patterns may occur. The dominant efferent control of airways smooth muscle is exerted via bronchoconstrictor parasympathetic cholinergic nerves. In some species this is opposed by bronchodilator sympathetic noradrenergic nerves. In addition, there exist both excitatory bronchoconstrictor and inhibitory bronchodilator non-adrenergic, non-cholinergic pathways. This review examines the role of the different branches of the autonomic nervous system in the control of airways smooth muscle tone with particular reference to modulation of these branches and the interactions which may exist between them.

Species differences in cAMP production and contractile response induced by beta-adrenoceptor subtypes in urinary bladder smooth muscle

The contractile activity of urinary bladder smooth muscle has been shown to be inhibited by beta-adrenoceptor agonists. beta-Adrenoceptor subtypes in the rabbit, canine, and human urinary bladder smooth muscles were studied by measuring changes in contractile forces and in intracellular cAMP concentrations on administration of beta-adrenoceptor agonists. In the rabbit bladder, only beta 2-receptors may have functional roles in the detrusor muscle, while both beta 1- and beta 2-receptors may have functional roles in the detrusor muscles of the canine bladder. Only beta 2-receptors may have functional roles in the human detrusor muscles, similar to the rabbit detrusor muscles. Thus, species differences may exist in beta-adrenoceptor subtypes in smooth muscles of urinary bladder.

Comparison of the effects of selective inhibitors of phosphodiesterase types III and IV in airway smooth muscle with differing beta-adrenoceptor subtypes

1. The relaxant properties of the type IV adenosine 3',5'-cyclic monophosphate phosphodiesterase (cyclic AMP PDE) inhibitor, rolipram and the beta 2-selective and non-selective beta-adrenoceptor agonists salbutamol and isoprenaline, were compared on the guinea-pig, bovine, and mouse trachea and porcine bronchus all precontracted with methacholine (EC30). 2. Rolipram and both beta-agonists produced concentration-dependent reversal of the methacholine-induced tone in the four airway preparations. 3. Isoprenaline and salbutamol were similar in potency on the guinea-pig (-log10IC50:8.43, 8.06) and bovine (-log10 IC50:8.52, 8.40) airways. In contrast, salbutamol was much less potent than isoprenaline on the mouse trachea (> 1000 fold) and the porcine bronchus (> 100,000 fold). 4. The potency of rolipram approached that of isoprenaline on the guinea-pig and bovine trachea (beta 2-adrenoceptors predominate). However, rolipram was significantly less active than isoprenaline on the porcine bronchus (1000 fold) and mouse trachea (> 2000 fold) where beta 2-adrenoceptors predominate. 5. Siguazodan, the type III cyclic AMP PDE inhibitor, produced concentration-dependent relaxations of the porcine bronchus and guinea-pig trachea contracted with methacholine. Siguazodan was 100 fold more active than rolipram in pig tissues indicating the type III isoenzyme may be of greater functional significance in this tissue. In contrast, siguazodan was 15 times less potent that rolipram in guinea-pig airways suggesting a greater role for the type IV PDE. 6. These findings may reflect a possible relationship between the beta 2-adrenoceptor subtype and the functional importance of the type IV PDE isoenzyme. A similar relationship may exist between beta 1-adrenoceptors and the PDE type III isoenzyme.

Selective and full beta 1-adrenoceptor agonist action of a catechol derivative of denopamine (T-0509) in the guinea-pig cardiac muscle and trachea: comparison with denopamine, xamoterol and isoprenaline

1. The pharmacological actions of T-0509, a 3-hydroxy derivative of denopamine, were studied in various guinea-pig tissues; these effects were compared with those of isoprenaline, denopamine and xamoterol. 2. The intrinsic activities of the positive inotropic actions of T-0509, denopamine and xamoterol compared with isoprenaline (= 100%) in the papillary muscle were 99%, 83% and 28%, respectively, while their relative potencies (EC50 agonist EC50 isoprenaline) were 0.23, 33 and 1.4, respectively. The intrinsic activities of T-0509, denopamine and xamoterol as positive chronotropic agents in the right atria were 98%, 69% and 48%, respectively, and their equipotent concentrations (isoprenaline = 1) were 0.24, 50 and 4, respectively. 3. The positive chronotropic actions of T-0509 and denopamine were antagonized by bisoprolol (3 x 10(-8) M), but not by ICI 118,551 (3 x 10(-8) M). 4. The intrinsic activity of T-0509 in histamine-contracted tracheae was similar to that of isoprenaline, but its equipotent concentration was 38; the effects of both agents were antagonized by ICI 118,551 (3 x 10(-8) M), but not by bisoprolol (3 x 10(-8) M). Denopamine and xamoterol did not show any agonist activity on guinea-pig trachea. 5. Denopamine and xamoterol antagonized the positive chronotropic (pA2, denopamine: 6.98, xamoterol: 7.75) and tracheal relaxant (pA2, denopamine: 5.39, xamoterol: 6.25) effects of isoprenaline. 6. Isoprenaline, T-0509 and denopamine, but not xamoterol, contracted the guinea-pig aorta in a decreasing order in the presence of propranolol (10(-6) M).7. Based on the above studies, T-0509 appears to be a highly selective betaI-adrenoceptor agonist with full agonist properties, while denopamine and xamoterol appear to be selective, but partial betaI-adrenoceptor agonists.

Resistance of beta 2-adrenoceptor-mediated responses of lung strips to desensitization by long-term agonist exposure--comparison with atrial beta 1-adrenoceptor-mediated responses

In vitro desensitization of beta 2-adrenoceptor-mediated relaxation of guinea-pig isolated parenchymal strips was examined. Concentration-response curves for isoprenaline were obtained and after long-term incubation with isoprenaline, followed by washout, a second curve was obtained. Correction for time-dependent loss of sensitivity was made from time-matched controls. After incubation with 10(-5) M isoprenaline for 0.5, 1, 2, 4 and 8 h, loss of responsiveness of carbachol-contracted lung strips was observed after 4h as a reduced post-incubation maximum response. When the concentration was reduced to 10(-6) M, a 4 h incubation with 1 h washout no longer induced a shift of the post-incubation curve in carbachol-contracted lung strips. In contrast, lung strips with intrinsic tone displayed reduced responsiveness to isoprenaline after 4 h incubation with 10(-6) M isoprenaline. Incubation of the tissue for 4 h with lanthanum (1.4 x 10(-6) M), a relaxant not operating through beta 2-adrenoceptors or their effector coupling, had the same effect upon isoprenaline concentration-response curves as incubation with isoprenaline. This was irrespective of whether intrinsic tone (10(-6) M isoprenaline) or carbachol-contracted (10(-5) M isoprenaline) lung strips were used. It was concluded that the loss of beta 2-adrenoceptor responsiveness after incubation with 10(-6) M isoprenaline was due to the prolonged maximal relaxation of the tissue for 4 h rather than desensitization of the beta 2-adrenoceptor. Indeed, after correction for maximal relaxation and for time, no significant change in beta 2-adrenoceptor sensitivity of the lung occurred after incubation with 10(-6) M isoprenaline for 4 h. This contrasts with significant rightwards shifts of the concentration-response curves for the beta 1-adrenoceptor-mediated increases in rate and tension of guinea-pig right and left atria after identical incubation conditions. Thus whereas beta 1-adrenoceptor-mediated responses displayed desensitization after long-term in vitro agonist exposure, the beta 2-adrenoceptor-mediated responses were resistant.

Prostaglandin E2 synthesis elicited by adrenergic stimuli in guinea pig trachea is mediated primarily via activation of beta 2 adrenergic receptors

Prostaglandin (PG) E2 synthesis elicited by adrenergic agonists in the guinea pig trachea has been shown to be mediated via activation of beta-adrenergic receptors. The purpose of this study was to examine arachidonic acid (AA) metabolism and to characterize the subtype of beta receptor involved in PG synthesis. [14C]AA was incubated with guinea pig tracheal rings, and the radiolabelled products were extracted from the medium. Thin layer chromatographic analysis and radioimmunoassay of the extract showed that [14C]AA was incorporated into guinea pig tracheal rings and metabolized mainly into radiolabeled and immunoreactive PGE2 (iPGE2) and smaller amounts into PGF2 alpha. Trace amounts of PGD2, TxB2 and 6-keto-PGF1 alpha but not LTB4 or LTC4 were detected by enzyme immunoassay. Incubation of guinea pig tracheal rings for 10 min with isoproterenol or salbutamol resulted in a significant increase in PGE2 synthesis (optimum concentration 0.1 microM for both compounds). In contrast, dobutamine, BRL 37344, BRL 28410, norepinephrine, phenylephrine, and xylazine (up to 1 microM) did not significantly increase PGE2 production. Isoproterenol-induced iPGE2 production was inhibited by the selective beta 2 receptor antagonist butoxamine (0.1-1.0 microM) and somewhat reduced by the beta 1 receptor antagonist practolol (1 microM). The increase in PGE2 synthesis was diminished with increasing concentrations of isoproterenol (0.5-5.0 microM) or salbutamol (0.5-1.0 microM); but it was reversed by pretreatment of tracheal rings with the protein synthesis inhibitors cycloheximide (0.9 microM) and actinomycin D (2 microM) but not by phenylisopropyl adenosine (0.1-1.0 microM), an inhibitor of adenylyl cyclase. These data suggest that isoproterenol-induced iPGE2 synthesis is primarily via activation of a beta 2 adrenergic receptor. Failure to enhance iPGE2 synthesis by a high concentration of isoproterenol is likely to be due to an induction of new inhibitory protein synthesis.

The use of the guinea-pig lung parenchyma preparation in studies of the β-adrenoceptor adenylate cyclase system

The binding, adenylate cyclase activation, and functional effect of four beta-adrenoceptor agonists were studied in the guinea-pig lung parenchyma preparation and the results were compared with those obtained earlier in guinea-pig left-heart ventricle (beta 1-adrenoceptors) and soleus muscle (beta 2-adrenoceptors) preparations. The pKi-values of the unselective compounds, isoprenaline and orciprenaline, were in good agreement with those obtained in the heart and soleus muscle. The beta 2-adrenoceptor selective compounds KWD 2026 and terbutaline were bound to two sites, one corresponding to the beta 1-adrenoceptors and the other to the beta 2-adrenoceptors. The pKi-value of isoprenaline was in good agreement with its pKact-value indicating that maximum adenylate cyclase activity is obtained when the occupancy of the receptors is maximal. Further, the relative intrinsic efficacy calculated from the functional effect and receptor occupancy agreed well with the relative maximum adenylate cyclase activation by the agonists which was also found earlier for the guinea-pig heart ventricle and soleus muscle preparations. Relative effects were obtained from both functional experiments and from affinity and adenylate cyclase activating studies. There was good agreement between relative effects obtained in these two ways. It is concluded that the guinea-pig lung parenchyma preparation may be useful for the study of the beta-adrenoceptor adenylate cyclase system.

Beta-adrenoceptor profile of ractopamine HCl in isolated smooth and cardiac muscle tissues of rat and guinea-pig

The investigational sympathomimetic amine, ractopamine hydrochloride, has been profiled for adrenergic activity in selected smooth and cardiac muscle preparations. There was no significant interaction of ractopamine with alpha-adrenergic receptors in the rat vas deferens at concentrations up to 10(-5) M. However, ractopamine produced a concentration-dependent increase in the force and rate of contractions of atria isolated from normal and reserpinized guinea-pigs (EC50 = 1 x 10(-7) M). These increases were submaximal compared with isoprenaline (70-85%), suggesting partial agonist activity at the beta 1-receptor site. Ractopamine completely relaxed the KCl-contracted guinea-pig trachea and rat costo-uterine smooth muscle to their resting tensions (EC50 = 3 x 10(-7) and 5.5 x 10(-8) M, respectively), indicative of full beta 2-agonist properties. Propranolol blocked the response of ractopamine in isolated tracheal and atrial tissues (pA2 = 7.70), demonstrating a beta-adrenergic mechanism of activity. Ractopamine also exhibited antagonism of the response of the guinea-pig trachea to the beta-agonist, isoprenaline. Relative to other beta-agonists, ractopamine was 100-fold more potent than the phenethanolamines, salbutamol and ritodrine, at the beta 1-adrenoceptor, and approximately 7- to 11-fold more potent than ritodrine, but only one-sixth to one-tenth as potent as salbutamol at the beta 2-adrenoceptor. Thus, ractopamine possesses significant beta 1- and beta 2-agonist properties. The submaximal stimulation of the force and rate of atrial contractions is indicative of a partial beta 1-agonist, while the maximal relaxation of the tracheal and costo-uterine smooth muscle is characteristic of a full beta 2-agonist.

Characterization of endogenous noradrenaline release from intact and epithelium-denuded rat isolated trachea

1. Overflow of endogenous noradrenaline (NA) from the in vitro incubated rat trachea evoked by two periods of electrical field stimulation (S1, S2 at 3 or 15 Hz) or by high potassium (60 mM) was determined by high performance liquid chromatography (h.p.l.c.) with electrochemical detection. 2. In the presence of the neuronal uptake inhibitor desipramine, the alpha 2-adrenoceptor antagonist, yohimbine, enhanced the overflow of NA evoked by stimulation at 3 Hz by about 100% suggesting the presence of presynaptic inhibitory autoreceptors on the sympathetic nerves innervating the trachea. 3. When desipramine and yohimbine were present throughout the experiments, the overflow of NA evoked by the second period of electrical stimulation (S2) was significantly smaller than that evoked by the first (S1). This decline of overflow was prevented when the NA precursor, tyrosine, was additionally present throughout the experiments. 4. After removal of the epithelium, the tissue content of NA was reduced by about 30%, suggesting that part of the NA may be present and released within the epithelium. However, the overflow of NA evoked by stimulation at 3 Hz or 15 Hz was reduced by 70-80%, indicating that the epithelium may additionally exert a permissive role on the release of NA within the airways, possibly by suppressing inhibitory factors. 5. Stimulation by high potassium (60 mM for 10 min) caused a large overflow of NA (about 45% of the tissue NA), both from epithelium-free and epithelium-denuded tracheae. Thus the 'endogenous inhibition' of NA release after removal of the epithelium is surmountable when a high potassium stimulus is applied.

Beta-adrenoceptors in human airway tissue: relationship between functional responsiveness and receptor number

Functional organ bath experiments and radiolabelled ligand binding studies were used to investigate the relationship between beta-adrenoceptor-mediated relaxation and the total number of beta-adrenoceptors in human lung parenchymal tissue and bronchial tissue. Sensitivity to the beta-adrenoceptor agonist isoprenaline (pD2) varied almost 10-fold (pD2 values 6.00 to 6.85) for lung parenchymal preparations and 35-fold for bronchial preparations (pD2 values 6.16 to 7.67) between patients. The total number of [3H] DHA labelled beta-adrenoceptors (Bmax) varied almost 6-fold for lung parenchymal membrane preparations (Bmax 164 to 936 fmol/mg protein) and less than 2-fold for bronchial tissue membrane preparations (Bmax 188 to 342 fmol/mg protein) between patients. Comparison of sensitivity to isoprenaline and beta-adrenoceptor number for lung parenchymal tissue from the same patient demonstrated a negative correlation (r = -0.80 [95% confidence intervals: -0.13, -0.96], 6 d.f., P less than 0.05), suggesting that beta-adrenoceptor-mediated sensitivity of lung parenchymal tissue is inversely related to the number of beta-adrenoceptors. However, there was an absence of correlation between sensitivity to isoprenaline and beta-adrenoceptor number in bronchial tissue from the same patient. Thus, the findings of the present study do not support the possibility of a direct relationship between the beta-adrenoceptor-mediated responsiveness and the beta-adrenoceptor number of human airway preparations.

Partial characterization of cyclic AMP-dependent protein kinases in guinea-pig lung employing the synthetic heptapeptide substrate, kemptide. In vitro sensitivity of the soluble enzyme to isoprenaline, forskolin, methacholine and leukotriene D4

This paper describes the partial characterization of soluble cyclic AMP-dependent protein kinase (A-kinase) in guinea-pig lung using Kemptide, a synthetic serine-containing heptapeptide, and examines the sensitivity of this enzyme to drugs which are reported to increase and to decrease the intracellular concentration of cyclic AMP. Differential centrifugation of lung homogenates revealed that 78% of A-kinase was present in the 31,000 gmax x 15 min supernatant fraction. Both basal and cyclic AMP-stimulated phosphotransferase activity of this 'soluble' enzyme were abolished by the heat-stable inhibitor of A-kinase. Soluble A-kinase was Mg2(+)-dependent (apparent Km and and Kact 8.6 and 2.6 mM, respectively) and was stimulated nine-fold by saturating concentrations of both cyclic AMP (Kact: 131 nM) and cyclic GMP (Kact: 28.7 microM) at a protein (enzyme) concentration of 1.3 micrograms. Kinetic analysis of the effect of Kemptide and ATP revealed linear, Hanes plots with Michealis constants of ca. 12 and 13 microM, respectively. Chromatography of the soluble enzyme over DEAE-cellulose resolved three peaks of catalytic activity when fractions were assayed in the presence of cyclic AMP (10 microM): (i) free catalytic subunits (5%), (ii) Type I isoenzyme (5%) and (iii) Type II isoenzyme (90%). The A-kinase activity ratio was markedly increased in lung pre-treated with the smooth muscle relaxants isoprenaline and forskolin. This biochemical effect was both time- and concentration-dependent and was temporally associated with the ability of these drugs to reduce lung parenchymal tone. In contrast, the contractile agonists, methacholine (Mch) and leukotriene (LT) D4 exerted opposite effects on A-kinase activity. Thus, Mch significantly reduced cyclic AMP levels and lowered basal A-kinase activity whilst the converse was true for LTD4. For both drugs this biochemical effect accompanied contraction of the lung. Pre-treatment of lung tissue with flurbiprofen, an irreversible inhibitor of cyclo-oxygenase in vitro, abolished the ability of LTD4 to increase the A-kinase activity ratio suggesting that this biochemical response was mediated indirectly through the stimulated biosynthesis and release of a prostanoid(s) able to activate adenylyl cyclase; the increase in tension induced by LTD4, however, was not significantly affected by flurbiprofen pre-treatment. Collectively, these data support the concept that soluble A-kinase activity in guinea-pig lung can be regulated by changes in intracellular cyclic AMP and that activation and/or inhibition of this biochemical cascade may influence alterations in lung contractility.(ABSTRACT TRUNCATED AT 400 WORDS)

Adrenoceptors in airway smooth muscle

This review examines the roles and functional significance of alpha and beta-adrenoceptor subtypes in airway smooth muscle, with emphasis on human airway function and the influence of asthma. Specifically, we have examined the distribution of beta-adrenoceptors in lung and the influence of age, the epithelium, respiratory viruses and inflammation associated with asthma on airway smooth muscle beta-adrenoceptor function. Sites of action, beta 2-selectivity, efficacy and tolerance are also examined in relation to the use of beta 2-agonists in man. In addition, alpha-adrenoceptor function in airway smooth muscle has been reviewed, with some emphasis on comparing observations made in airway smooth muscle with those in animal models.

Distribution of beta 1- and beta 2-adrenoceptors in mouse trachea and lung: a quantitative autoradiographic study

1. Binding and quantitative autoradiography were used to detect [125I]-iodocyanopindolol (I-CYP) associated with beta 1- and beta 2-adrenoceptors in mouse tracheal epithelium and airway smooth muscle as well as in lung parenchymal tissue. 2. Specific I-CYP binding to slide-mounted tissue sections of both trachea and parenchyma was of high affinity (KD = 49.0 pM, n = 3, trachea; KD = 118.9 pM, n = 3, parenchyma) and saturable, involving single populations of non-interacting binding sites (Hill coefficient nH = 1.00 +/- 0.02, trachea; nH = 0.99 +/- 0.03, parenchyma). 3. Direct measurement of tissue radioactivity also showed that specific I-CYP binding was competitively inhibited in the presence of the beta-adrenoceptor antagonists (-)-propranolol (non-selective), CGP 20712A (beta 1-selective) and ICI 118,551 (beta 2-selective). Analysis of the competition binding curves for the two selective antagonists revealed mixed populations of beta 1- and beta 2-adrenoceptors in the approximate proportions 33% and 67% respectively in mouse trachea and 28% and 72% respectively in mouse lung parenchyma. 4. Densities of autoradiographic grains derived from specific I-CYP binding to alveolar wall tissue and to tracheal epithelium and airway smooth muscle were quantified by a computer-assisted image analysis system, which allowed the construction of competition binding curves in the presence of the selective beta-adrenoceptor antagonists CGP 20712A and ICI 118,551. Analysis of these data demonstrated that in alveolar wall, beta 1- and beta 2-adrenoceptors co-existed in the proportions 18% and 82%, respectively. 5. Quantitative autoradiographic analyses also showed that beta 1- and beta 2-adrenoceptors were differentially distributed in tracheal epithelium and airway smooth muscle. The beta 2-adrenoceptor subtype accounted for 71% of all beta-adrenoceptors in epithelium. Conversely, beta l-adrenoceptors which mediate relaxant responses of mouse trachea to beta,-adrenoceptor agonists (Henry & Goldie, 1990), accounted for 69% of all beta-adrenoceptors in the airway smooth muscle.

Beta 1-adrenoceptors mediate smooth muscle relaxation in mouse isolated trachea

1. The relaxant effects to the beta-adrenoceptor agonists isoprenaline, adrenaline, noradrenaline, RO363, procaterol and fenoterol were investigated in carbachol-contracted mouse isolated tracheal preparations. 2. The order of potencies for those beta-adrenoceptor agonists that induced full relaxation of carbachol-contracted mouse tracheal preparations was isoprenaline greater than RO363 greater than noradrenaline = adrenaline greater than fenoterol. The EC50 value of isoprenaline for relaxation was 46 nM. The beta 1-adrenoceptor-selective agonist, RO363 was ten times more potent than the beta 2-adrenoceptor-selective agonist, fenoterol. The highly beta 2-adrenoceptor-selective agonist procaterol was a partial relaxant and induced only 28 +/- 4% relaxation. 3. Relaxations induced by noradrenaline and isoprenaline were not significantly affected by the neuronal uptake inhibitor, cocaine (10 microM) or by the extraneuronal uptake inhibitor, deoxycorticosterone acetate (25 microM) respectively. The alpha-adrenoceptor agonist methoxamine induced no observable elevation of mouse tracheal smooth muscle tone. 4. Schild plots for the beta-adrenoceptor antagonists, atenolol and betaxolol (beta 1-adrenoceptor-selective) and ICI 118,551 (beta 2-adrenoceptor-selective) were linear, with slope values approaching unity. Mean pA2 values derived for atenolol, betaxolol and ICI 118,551 for antagonism of beta-adrenoceptor-mediated relaxation were 7.1, 8.4 and 7.2, respectively. These data were independent of the use of isoprenaline or noradrenaline as the agonist. 5. These findings indicate that beta-adrenoceptor-mediated relaxations of mouse isolated trachea occur predominantly through activation of beta 1-adrenoceptors.

Autoradiographic localization of changes in pulmonary beta-adrenoceptors in an animal model of atopy

Vaccination of guinea pigs with Haemophilus influenzae leads to an impairment of beta-adrenoceptor function in lung. We have used an autoradiographic technique to study the distribution of changes in lung beta-adrenoceptor density. H. influenzae induced a decrease in beta-adrenoceptors in peripheral lung membranes of 22 +/- 5% (mean +/- S.E.M., n = 7), while the affinity of binding was unaffected. Tracheal beta-adrenoceptor binding was not influenced by H. influenzae. Autoradiography revealed a 27% reduction in beta-adrenergic binding sites on alveolar septa. Bronchial epithelial beta-adrenoceptors were decreased for 36%, and vascular smooth muscle and endothelial beta-adrenoceptors were also reduced. beta-Adrenoceptors on airway smooth muscle were unaffected. H. influenzae affected both the beta 1- and beta 2-subtypes of receptors. It is concluded that in this animal model of atopy beta-adrenoceptors may be decreased on several different cell types within the lungs, which may influence overall airway and vascular reactivity.

A study of beta-adrenoceptors in rat lung parenchymal strip

The aim of the present study was to characterize the beta-adrenoceptor population in rat lung strip. For this purpose, Schild plots were obtained for the beta-adrenoceptor antagonists atenolol (beta 1-selective), butoxamine (beta 2-selective) and propranolol (non-selective), using three different agonists:isoprenaline (non-selective), salbutamol (beta 2-selective) and noradrenaline (beta 1-selective). The slopes of these Schild plots were close to the theoretical value of unity, and pA2 values determined with isoprenaline, salbutamol and noradrenaline as agonists were: for propranolol, 7.86 +/- 0.22, 7.72 +/- 0.15 and 7.89 +/- 0.23; for atenolol, 5.19 +/- 0.05, 5.33 +/- 0.07 and 5.47 +/- 0.22 and for butoxamine, 6.31 +/- 0.11, 6.34 +/- 0.03 and 5.99 +/- 0.23, respectively. These data suggest that pharmacological responses of rat isolated lung strip to beta-adrenoceptor agents are mediated by a homogeneous population of beta 2-adrenoceptors, although the presence of a minor population of beta 1-adrenoceptors undetected by the agonists used cannot be excluded.

Neuronally released (-)-noradrenaline relaxes smooth muscle of calf trachea mainly through beta 1-adrenoceptors: comparison with (-)-adrenaline and relation to adenylate cyclase stimulation

The nature of the receptors that mediate the relaxation of smooth muscle by field stimulation, (-)-noradrenaline and (-)-adrenaline was investigated in calf tracheal smooth muscle. The relation between relaxation, stimulation of the adenylate cyclase and density of beta-adrenoceptor subtypes was studied with the help of antagonists of beta 1- and beta 2-adrenoceptors. The question of the existence of catecholamine-containing nerves was also investigated. (1) Nerves with varicosities exhibiting catecholaminergic fluorescence were observed between bundles of smooth muscle cells. (2) Consistent with the existence of adrenergic nerves (-)-noradrenaline was also found. The content of (-)-noradrenaline (1 microgram.g-1 w.w.) was the same in smooth muscle strips from the sublaryngeal region and from the region close to the bifurcation of the calf trachea. (-)-Adrenaline was not detected. (3) Smooth muscle relaxation by low (-)-noradrenaline concentration (0.6-2 nmol/l) was mediated through beta 1-adrenoceptors. Low concentrations of (-)-adrenaline (0.06-1 nmol/l) relaxed through beta 2-adrenoceptors. High concentrations of (-)-noradrenaline and (-)-adrenaline also caused relaxation through beta 2- and beta 1-adrenoceptors respectively. (4) Field stimulation caused relaxation which was half maximal at 0.2-0.8 Hz. Blockade of beta 1-adrenoceptors strongly attenuated the relaxant response to field stimulation and shifted the frequency-relaxation curves to 4 times higher frequencies. These results are consistent with a beta 1-adrenoceptor-mediated relaxation caused by (-)-noradrenaline released from sympathetic nerve endings at low stimulation frequencies. (5) Blockade of beta 2-adrenoceptors failed to reduce smooth muscle relaxation caused by field stimulation at low stimulation frequencies (0.1-1 Hz). However, after beta 1-adrenoceptor blockade, additional blockade of beta 2-adrenoceptors reduced the relaxant effects observed at high frequencies (2-400 Hz). The results suggest that high concentrations of endogenous (-)-noradrenaline cause relaxation through beta 2-adrenoceptors. (6) Binding experiments with 3H-(-)-bupranolol and 3H-ICI 118,551 revealed between 10,000 and 20,000 beta-adrenoceptors per smooth muscle cell of which 3/4 were beta 2 and 1/4 beta 1. The equilibrium dissociation constant of (-)-adrenaline for both beta 1- and beta 2-adrenoceptors and of (-)-noradrenaline for beta 1-adrenoceptors was 1 mumol/l. The affinity of (-)-noradrenaline for beta 2-adrenoceptors was 10 to 20 times lower than for beta 1-adrenoceptors.(ABSTRACT TRUNCATED AT 250 WORDS)

Adrenoceptors and the lung: their role in health and disease

alpha- and beta-Adrenoceptors have each been divided into two subgroups (alpha 1, alpha 2, beta 1 and beta 2). The basic mechanisms underlying the adrenoceptor/effector coupling are complex and vary for the alpha-, but not for the beta-subpopulations. Adrenoceptors of the bronchi and the lung show a special pattern of distribution and response, ensuring that the airway system works as a functionary unit. Dysfunctions of adrenoceptor-mediated effects have been suggested to contribute to some important paediatric disorders such as hyaline membrane syndrome, wet lung, bronchial asthma, cystic fibrosis, and pertussis. Drugs which act on the adrenergic system influence some of these disorders directly. Further studies applying modern techniques to receptor research are needed in order to clarify the basic mechanisms involved in receptor-mediated lung disorders and the activity of drugs in lung tissue.

On minimum cyclic AMP formation rates associated with positive inotropic effects mediated through beta 1-adrenoceptors in kitten myocardium. Beta 1-specific and non-adrenergic stimulant effects of denopamine

The agonist (-)-denopamine was used as a tool to study relationships between pharmacological effects and adenylate cyclase stimulation mediated through beta 1-adrenoceptors. 1. (-)-Denopamine was a full agonist in kitten papillary muscles (force), kitten left atria (force) and kitten and guinea-pig atria (sinoatrial frequency). (-)-Denopamine was a strong partial agonist in guinea-pig tracheae (relaxation). None of these effects was influenced by blockade of beta 2-adrenoceptors. beta 1-Adrenoceptors mediated all effects of (-)-denopamine in atria and effects of low (-)-denopamine concentrations in papillary muscles and tracheae, as assessed with beta 1-selective antagonists. 2. High (-)-denopamine concentrations caused positive inotropic effects in papillary muscles and tracheorelaxant effects that were resistant to blockade by beta 1-, beta 2- and alpha-adrenoceptor antagonists (non-adrenergic effects). 3. (-)-Denopamine stimulated the adenylate cyclase of membranes derived from kitten ventricle and calf tracheal cells with an intrinsic activity of 0.3 and 0.2, respectively, compared to catecholamines. The contribution of beta 1- and beta 2-adrenoceptors to cyclase stimulation was assessed by selective blockade. Cyclase stimulation through beta 2-adrenoceptors by (-)-denopamine was 12% in ventricle and 82% in trachea but is not associated with positive inotropic effects and tracheal relaxation. 4. (-)-Denopamine exhibited only a 2- to 5-fold selectivity for beta 1-adrenoceptors compared to beta 2-adrenoceptors, as estimated consistently from binding assays and blockade of cyclase stimulation in myocardial and tracheal cell membranes. 5. Desensitization of kitten ventricular tissues, caused by a 3 h exposure to 30 mumol/l (-)-isoprenaline followed by 5 h washout, reduced the inotropic sensitivity of papillary muscles without decreasing the maximum inotropic effects of (-)-denopamine. In desensitized tissues, the nonadrenergic effect contributed by 30% to the maximum inotropic effect of (-)-denopamine. 6. In membranes, derived from desensitized tissues, the maximum adenylate cyclase stimulation induced by (-)-isoprenaline, (-)-denopamine and xamoterol was reduced to 1/2 of the corresponding stimulations observed in membranes from sham desensitized tissues. The density of beta-adrenoceptors, assessed with 3H-(-)-CGP 12,177, was not changed by the desensitization procedure suggesting that part of the receptors was uncoupled from the adenylate cyclase. The partial inotropic agonist xamoterol, which has an intrinsic activity of 0.5 in non-desensitized tissues, failed to cause positive inotropic effects in desensitized papillary muscles suggesting that not all cyclic AMP possesses inotropic relevance.(ABSTRACT TRUNCATED AT 400 WORDS)

Beta-adrenoceptor stimulation inhibits histamine-stimulated inositol phospholipid hydrolysis in bovine tracheal smooth muscle

1. Histamine and carbachol produced concentration-related increases in the accumulation of 3H-inositol phosphates in slices of bovine tracheal smooth muscle. 2. Noradrenaline alone produced a small stimulation of 3H-inositol phosphate accumulation which was inhibited by the alpha-adrenoceptor antagonist phentolamine. In contrast, when noradrenaline (0.1 mM) was added simultaneously with histamine it significantly reduced the inositol phosphate response to high (greater than or equal to 0.1 mM) concentrations of histamine. However, noradrenaline had no inhibitory effect on the carbachol-induced inositol phosphate response. 3. The non-selective beta-agonist isoprenaline (IC50 = 0.08 microM) and the beta 2-selective agonist salbutamol (IC50 = 0.29 microM) both produced a dose-related inhibition of the inositol phosphate response to 0.1 mM histamine. The inhibitory effect of salbutamol was antagonized by propranolol (KA = 2.4 x 10(9) M-1) and the beta 2-selective adrenoceptor antagonist ICI 118551 (KA = 1.7 x 10(9) M-1). 4. The accumulation of 3H-inositol phosphates induced by histamine increased steadily over a 40 min period after an initial lag period of 3-4 min. Following the simultaneous addition of histamine and salbutamol there was a further delay of 3-4 min before the appearance of the inhibitory effect of salbutamol. 5. The effect of histamine on inositol phosphate accumulation was accompanied by a stimulation of [3H]-inositol incorporation into membrane phospholipids which was reduced by the presence of salbutamol. However, when histamine was used to stimulate maximally [3H]-inositol incorporation during the prelabelling period, salbutamol produced a marked inhibition of histamine-stimulated 3H-inositol phosphate accumulation under conditions in which there was no change in the level of incorporation.

Beta-adrenoceptor desensitization in guinea-pig isolated trachea

Exposure to (-)-isoprenaline (25 microM, 1 h) caused a stereoselective, time and concentration-related decrease in smooth muscle beta 2-adrenoceptor function in guinea-pig trachea. Furthermore, tracheal relaxant responsiveness to the beta-adrenoceptor agonists (+/-)-fenoterol and (-)-noradrenaline was reduced, while that to theophylline and nitroprusside was unaffected. Responsiveness to forskolin was marginally but significantly reduced. Indomethacin, a cyclooxygenase inhibitor and mepacrine, an inhibitor of phospholipid turnover, had no significant effect on the extent of isoprenaline-induced desensitization. Conversely, cortisol (25 microM) significantly reduced desensitization and enhanced the rate of spontaneous recovery of responsiveness to isoprenaline. Desensitization was not accompanied by a reduction in the density of beta-adrenoceptors in the trachea, as assessed by binding and light microscopic autoradiography using [125I]iodocyanopindolol [( 125I]CYP). Thus, desensitization was probably caused primarily by beta-adrenoceptor/adenyl cyclase uncoupling. This model may be useful in investigations of the effect of glucocorticoids on the beta-adrenoceptor dysfunction recognized in severe asthma.

Pharmacological analysis of postjunctional alpha-adrenoceptors mediating contractions to (-)-noradrenaline in the rabbit isolated lateral saphenous vein can be explained by interacting responses to simultaneous activation of alpha 1- and alpha 2-adrenoceptors

1. The pharmacological characteristics of the alpha-adrenoceptor population in the rabbit isolated saphenous vein has been examined with (-)-noradrenaline (NA), as principal agonist, and a number of antagonists with selectivity for either alpha 1- or alpha 2-adrenoceptors. 2. The rank order of potency of various agonists is consistent with a population of alpha 2-adrenoceptors; UK-14304 greater than (-)-noradrenaline = (-)-adrenaline greater than B-HT 920 = cirazoline greater than phenylephrine greater than amidephrine, but the rank order of pA2 values for the antagonists against (-)-noradrenaline: BDF-6143 greater than rauwolscine = prazosin greater than CH-38083 = YM-12617 greater than Wy-26703 = phentolamine greater than corynanthine, is indicative of a mixed population of alpha 1- and alpha 2-adrenoceptors or, alternatively, a new subtype with characteristics of both the alpha 1- and alpha 2-subtypes. 3. Further evidence for two discrete populations of alpha-adrenoceptors is provided by, (a) the potent but non-competitive effect of prazosin against (-)-noradrenaline, (b) the presence of a component of the contractions elicited by NA and phenylephrine which is resistant to the selective alpha 2-adrenoceptor antagonists rauwolscine and CH-38083: these responses were inhibited by the selective alpha 1-adrenoceptor antagonists prazosin and YM-12617, but not by the selective alpha 2-adrenoceptor antagonist BDF-6143 and, (c) the relative potency of the yohimbine diastereoisomers rauwolscine and corynanthine against NA, phenylephrine and UK-14304. 4. In spite of the overwhelming evidence for a population of postjunctional alpha 2-adrenoceptors, prazosin was similarly effective against all agonists and failed to discriminate between those with putative selectivity for alpha 1- and alpha 2-adrenoceptors. This suggests an interaction of the effects of agonists at the two alpha-adrenoceptor subtypes. 5. An attempt has been made to reconcile a number of paradoxical observations with regard to the identification of postjunctional alpha 2-adrenoceptors in vitro, and it is suggested that in many of the isolated blood vessels presently available for examination both subtypes reside on the same smooth muscle cell. The pharmacological consequences of multiple subtypes of receptors mediating the same response is considered.

Pre- and post-junctional actions of procaterol, a beta 2-adrenoceptor stimulant, on dog tracheal tissue

1. The effects of procaterol, a beta 2-adrenoceptor agonist, on excitatory neuro-effector transmission in the dog trachea were investigated and the findings were compared to those seen with isoprenaline, with microelectrode, double sucrose gap and tension recording methods. 2. Procaterol (10(-10)-10(-9) M) and isoprenaline (10(-9) M) had no effect on the resting membrane potential or on the input resistance of the smooth muscle cells of dog trachea. However with increased concentrations (greater than 10(-8) M), these agents hyperpolarized the membrane and decreased the input resistance of the membrane. 3. Procaterol (10(-10)-10(-7) M) and isoprenaline (10(-9)-10(-7) M) dose-dependently reduced the amplitude of the twitch contractions evoked by field stimulation in the combined presence of indomethacin (10(-5) M) and guanethidine (10(-6) M). In parallel with actions on twitch contractions, procaterol (10(-10)-10(-7) M) and isoprenaline (10(-9)-10(-7) M) reduced the amplitude of the excitatory junction potentials (e.j.ps), evoked by single pulse field stimulation in the dog trachea. 4. Procaterol (10(-8) M) had no effect on the post-junctional response of smooth muscle cells to exogenous acetylcholine (ACh) (10(-7)-10(-6) M). 5. Pretreatment with ICI-118551, a beta 2-adrenoceptor blocking agent, reduced the inhibitory action of procaterol on the amplitude of twitch contractions evoked by field stimulations in the dog trachea. 6. These results indicate that procaterol in low concentrations has a prejunctional action inhibiting the excitatory neuro-effector transmission in addition to a postsynaptic action, presumably by suppressing transmitter release from the vagus nerve terminals through beta 2-adrenoceptors in the dog tracheal tissue. The pre- and post-junctional actions of procaterol explain its potent bronchodilator effects in clinical use.

Haemophilus influenzae-induced decreases in lung beta-adrenoceptor function and number coincide with decreases in spleen noradrenaline

In the guinea-pig intraperitoneal administration of the Gram-negative bacterium Haemophilus influenzae induces a decrease of beta-adrenoceptor number and results in impairment of beta-adrenoceptor function in the peripheral and central airways, respectively. In the present study, the time-course of these events was studied and compared with changes in catecholamines in plasma, in organs involved in immunoregulation (spleen, thymus), and in the heart and the lung. The number of beta-adrenoceptor binding sites in peripheral lung tissue and beta-adrenoceptor function in isolated tracheal spirals were significantly decreased 3 and 4 days after administration of H. influenzae (24-33%). No significant changes were observed at day 1 and day 8. The effects on tracheal beta-adrenergic receptor function were characterized by a decrease of maximal relaxation only, whereas EC50-values were not affected. These data are indicative of an effect on the functional coupling of the receptors to the biochemical events leading to smooth muscle relaxation. No changes were observed in catecholamine concentrations in the lung, heart, and the thymus after H. influenzae-treatment. Plasma noradrenaline, though, was significantly increased at day 1 after H. influenzae. At day 8 plasma noradrenaline had returned to control levels. Interestingly, the effect on spleen noradrenaline was opposite to the effect seen in plasma. A significant decrease in spleen noradrenaline was observed after H. influenzae at days 1, 3, and 8, with a maximum of 42% at day 1. It is suggested that the decrease in spleen noradrenaline may have a causal relationship with the changes in lung beta-adrenoceptors.

Beta-adrenoceptors in human tracheal smooth muscle: characteristics of binding and relaxation

Specific binding of [125I]-(-)-cyanopindolol to human tracheal smooth muscle membranes was saturable, stereo-selective and of high affinity (Kd = 5.3 +/- 0.9 pmol/l and RT = 78 +/- 7 fmol/g tissue). The beta 1-selective antagonists atenolol and LK 203-030 inhibited specific [125I]-(-)-cyanopindolol binding according to a one binding site model with low affinity in nearly all subjects, pointing to a homogeneous beta 2-adrenoceptor population. In one subject using LK 203-030 a small beta 1-adrenoceptor subpopulation could be demonstrated. The beta-mimetics isoprenaline, fenoterol, salbutamol and terbutaline recognized high and low affinity agonist binding sites. Isoprenaline's pKH- and pKL-values for the high and low affinity sites were 8.0 +/- 0.2 and 5.9 +/- 0.3 respectively. In functional experiments isoprenaline relaxed tracheal smooth muscle strips having intrinsic tone with a pD2-value of 6.63 +/- 0.19.

The effect of platelet activating factor on pulmonary beta-adrenoceptors

An intravenous infusion of platelet activating factor (Paf) in the guinea-pig elicits an increase in bronchial responsiveness to the spasmogens, histamine and bombesin. Airways obstruction induced by bombesin in Paf-treated animals is poorly reversed by isoprenaline compared to comparable airways obstruction induced by bombesin in vehicle-treated animals. Isoprenaline induced a comparable dose-related relaxation in vitro of tracheal smooth muscle isolated from Paf- and vehicle-treated animals. No change in beta-adrenoceptor numbers or binding affinity was observed in lungs removed from Paf-treated animals in comparison with those from vehicle-treated animals, or after direct incubation with Paf in vitro. The reduced bronchodilator responsiveness to isoprenaline in Paf-treated animals is not related to changes in pulmonary beta-adrenoceptor function. These results suggest that non-spasmogenic elements may contribute to airways obstruction induced in hyper-responsive animals.

Autoradiographic location of beta-adrenoceptor subtypes in cat colon smooth muscle

In order to localize beta-adrenoceptors 125I-(-)pindolol (IPIN) was used in binding to sections from cat colon. The binding characteristics for IPIN to beta-adrenoceptors on colon sections were estimated by demonstrating reversible binding in the presence of isoprenaline and by steroselective binding to the isomers of propranolol. The binding of IPIN to both beta 1- and beta 2-adrenoceptors was shown by biphasic displacement curves in the presence of the selective beta-adrenoceptor compounds betaxolol, ICI 118.551 and procaterol. The colon sections were found to contain proportions of beta 1-adrenoceptors (30-50%) and beta 2-adrenoceptors (50-70%). In the autoradiographic studies, 100% of the developed grains after exposure of IPIN to the photographic emulsion were displaced by 50 microM of isoprenaline. By microscopic counting at autoradiographic grains, 30-40% of the grains were found in the circular smooth muscle, while 60-70% of the grains were found in the longitudinal smooth muscle. A concentration of 2 nM ICI 118.551 completely displaced all grains in the circular smooth muscle and partly displaced those found in the longitudinal smooth muscle. A high concentration of ICI 118.551 (1 microM) displaced all grains above background from the smooth muscle. It is concluded that the circular smooth muscle only contains beta 2-adrenoceptors, while longitudinal smooth muscle may contain a proportion of beta 1-adrenoceptors. Whether such a location of beta adrenoceptors can be related to the beta 1-adrenoceptor-mediated inhibition of colon motility can not be clarified from these studies.(ABSTRACT TRUNCATED AT 250 WORDS)