Myometrial Responses to Beta-Adrenoceptor Antagonists in Gynecological Malignancies.

OBJECTIVE: The aim of the study was to determine the influence of beta-adrenoceptor (ADRB) antagonists on contractile activity of the nonpregnant human uterus in patients affected by gynecological malignancies. DESIGN: This was a controlled and prospective ex vivo study. SETTING: The work was conducted as a collaboration between 4 academic departments. MATERIALS AND METHODS: Myometrial specimens were obtained from women undergoing hysterectomy for benign gynecological disorders (reference group; N = 15), and ovarian (N = 15), endometrial (N = 15), synchronous ovarian-endometrial (N = 3), and cervical cancer (N = 10). Contractions of myometrial strips in an organ bath before and after applications of ADRB antagonists (propranolol, bupranolol, SR 59230A, and butoxamine) were studied under isometric conditions. RESULTS: Propranolol and bupranolol attenuated contractions in the endometrial and cervical cancer groups similar to that in the reference group (all p < 0.05), whereas opposite effects were observed in the ovarian and synchronous ovarian-endometrial cancer groups. SR 59230A and butoxamine significantly increased contractions in the ovarian cancer group (both p < 0.001). LIMITATIONS: These results require now to be placed into a firm clinical context. CONCLUSIONS: Our study indicates that ovarian cancer considerably alters contractile activity of the nonpregnant human uterus in response to ADRB antagonists. This suggests a pathogenetic role of beta-adrenergic pathways in this malignancy. Furthermore, propranolol and bupranolol substantially influence spontaneous uterine contractility.

Influence of ß2- and ß3-adrenoceptor agonists on contractile activity of the porcine myometrium in the luteal phase and the first days of pregnancy.

This study analysed the relaxant properties of salbutamol (ß2-adrenoceptors agonist) and BRL 37344 (ß3-adrenoceptors agonist) regarding the contractility of porcine myometrium on days 10-14 of the oestrous cycle (cyclic group; n = 10) and on days 3-5 of pregnancy (early pregnant group; n = 6). The activity of myometrial strips (tension, frequency and amplitude) was recorded under isometric conditions using force transducers. The contractility was assessed further following the administration of increasing concentrations of the agonists (10-9-10-4 M), both with and without ß-adrenoceptor antagonists (butaxamine - a selective ß2- adrenoceptor antagonist, propranolol- a non-selective ß1- and ß2-adrenoceptor antagonist and bupranolol - a non-selective ß1-, ß2- and ß3-adrenoceptor antagonist) at a concentration of 10-4 M. Although neither salbutamol nor BRL 37344 caused changes in the tension, at the highest concentrations they decreased the frequency and amplitude of contractions. These changes were more evident after salbutamol treatment and in the early pregnant group. Antagonists given alone did not cause changes in the parameters examined but changed some activity of the agonists. Butoxamine reduced the decrease in frequency and amplitude induced by salbutamol and produced a decrease in the tension after BRL 37344 treatment in the early pregnant group. Propranolol reduced the decrease in frequency and amplitude induced by salbutamol in both examined groups and did not cause significant changes in BRL 37344 activity. The administration of bupranolol before salbutamol treatment caused an increase in the tension and reduced the decrease in the frequency in the cyclic group. Moreover, bupranolol eliminated a decrease in frequency and induced an increase in amplitude caused by BRL 37344 in both groups and these changes were more evident in the early pregnant group. The data indicates that both ß2- and ß3-adenoreceptors are involved in the regulation of the contractility in both groups, but the changes after agonists and antagonists treatment are more evident in the early pregnant myometrium.

Differences in the Antinociceptive Effects and Binding Properties of Propranolol and Bupranolol Enantiomers.

UNLABELLED: Recent efforts have suggested that the ß-adrenergic receptor (ß-AR) system may be a novel and viable therapeutic target for pain reduction; however, most of the work to date has focused on the ß(2)-adrenergic receptor (AR). Here, we compared the antinociceptive effects of enantiomeric configurations of propranolol and bupranolol, two structurally similar nonselective ß-blocking drugs, against mouse models of inflammatory and chronic pain. In addition, we calculated in silico docking and measured the binding properties of propranolol and bupranolol for all 3 ß-ARs. Of the agents examined, S-bupranolol is superior in terms of its antinociceptive effect and exhibited fewer side effects than propranolol or its associated enantiomers. In contrast to propranolol, S-bupranolol exhibited negligible ß-AR intrinsic agonist activity and displayed a full competitive antagonist profile at ß(1)/ß(2)/ß(3)-ARs, producing a unique blockade of ß(3)-ARs. We have shown that S-bupranolol is an effective antinociceptive agent in mice without negative side effects. The distinctive profile of S-bupranolol is most likely mediated by its negligible ß-AR intrinsic agonist activity and unique blockade of ß(3)-AR. These findings suggest that S-bupranolol instead of propranolol may represent a new and effective treatment for a variety of painful conditions. PERSPECTIVE: The S enantiomer of bupranolol, a ß-receptor antagonist, shows greater antinociceptive efficacy and a superior preclinical safety profile and it should be considered as a unique ß-adrenergic receptor compound to advance future clinical pain studies.

Polymer based solutions of bupranolol hydrochloride for intranasal systemic delivery.

The present study was aimed at developing intranasal polymer based solutions as alternative route for systemic delivery of Bupranolol hydrochloride (BPH). It is a potent ß-blocker drug which upon oral administration undergoes extremely high hepatic first-pass metabolism (>90% in humans). The polymeric solutions were prepared using varying concentrations of polymers like sodium alginate, chitosan, sodium carboxymethylcellulose, methylcellulose (MC), polyvinyl alcohol, carbopol, hydroxypropyl MC, and hydroxypropyl cellulose. The prepared formulations were evaluated in terms of pH of the solution, angular viscosity, drug content, gel strength, gelation temperature, in vitro drug release, in vivo pharmacodynamic studies, histopathological, and stability studies. Except MC based solutions, a biphasic pattern of drug release was obtained in all other cases. Nasal administration of selected batches of polymeric solutions were found to be nontoxic and were able to improve drug bioavailability when compared to oral, nasal, and intravenous solution administrations of BPH.

Pulsatile changes in free fatty acids augment hepatic glucose production and preserves peripheral glucose homeostasis.

Recent studies in animal and human models have revealed that free fatty acid (FFA) release from adipose tissue is oscillatory. We have shown in our laboratory that these oscillations are controlled by the sympathetic nervous system (SNS). Although FFAs have been shown to directly stimulate glucose production [endogenous glucose production (EGP)] by the liver and to reduce peripheral glucose utilization, whether the specific pattern of FFA release affects glucose metabolism is unknown. The aim of this study was to examine the effects of pulsatile vs. constant infusion of FFA on glucose homeostasis in the canine model. Euglycemic clamps with basal insulin replacement (0.1 mU.kg(-1).min(-1) insulin) were performed in dogs (n = 8) during infusion of saline (SAL) or the medium-chain fatty acid octanoate, which was given by either pulsatile infusion (PUL: 10 mmol over 2 min every 10 min) or continuous infusion (C-INF: 1 mmol/min) designed to achieve equivalent total FFA mass. Endogenous lipolytic pulses were suppressed with the beta(3)-specific adrenergic receptor antagonist bupranolol. PUL infusion elicited a pulsatile pattern of FFA in circulation with average maximum pulse height of 0.82 +/- 0.04 mM, whereas C-INF FFA levels reached 0.47 +/- 0.03 mM (fasting levels) and were maintained throughout. Glucose uptake was not affected by PUL; however, C-INF significantly reduced glucose uptake compared with both SAL and PUL. Steady-state EGP increased by >90% from basal steady state during PUL but did not change during either SAL or C-INF. Thus, pulsatile FFA infusion led to an increase in EGP while preserving glucose disposal. These data suggest that the pattern of FFA may have a role in regulation of glucose homeostasis, which may have consequences in the obese or insulin-resistant state where the SNS is known to be altered.

Four close bupranolol analogues are antagonists at the low-affinity state of beta1-adrenoceptors.

Bupranolol is an antagonist at the cardiostimulatory low-affinity state of b(1)-adrenoceptors and we were interested whether this effect is shared by its fluorine (GD-6), methyl (DZ-51) and isopropyl analogue (DZ-13) and by the analogue hydroxylated at the tertiary butyl moiety (DZ-52). (-)-Bupranolol and compounds (-)-GD-6, (+)-GD-6, (-)-DZ-13, (+)-DZ-13, DZ-51 and DZ-52 antagonized the CGP 12177-induced tachycardia in pithed rats with "apparent pA(2) values" of 6.1, 6.1, 4.6, 5.5, 4.6, 5.1 and 5.3, respectively. For comparison, their potencies and affinities at the high-affinity state of b(1)-adrenoceptors were determined, using the xamoterol-induced tachycardia in pithed rats and [(3)H]CGP 12177 binding to rat cerebrocortical membranes. The respective "apparent pA(2) values" in the functional experiments were 7.9, 8.1, 5.4, 8.4, 5.7, 7.3 and 6.8 and the pK(i) values in the binding experiments were 8.8, 8.4, 6.9, 8.5, 6.7, 8.4 and 8.2. In conclusion, (-)-bupranolol and its fluorine analogue (-)-GD-6 are equipotent at the low-affinity state of beta(1)-adrenoceptors. The stereoselectivity of GD-6 and DZ-13 suggests that the low-affinity state is indeed a receptor.

The effects and selectivity of beta-adrenoceptor agonists in rat myometrium and urinary bladder.

Recent evidence supports a role for beta(3)-adrenoceptors in human non-pregnant and pregnant myometrium. The present study was designed to characterize the pharmacology of beta-adrenoceptors involved in the function of non-pregnant rat myometrium by comparison of the activity of several beta-adrenoceptor agonists and antagonists in isolated rat uterus and urinary bladder. Contractions of myometrial and detrusor strips were induced by adding 1 nM oxytocin and 15 mM KCl respectively. Cumulative concentration-response curves to the selective beta(3)-adrenoceptor agonists, CL 316243 and BRL 37344 and the selective beta(2)-adrenoceptor agonist ritodrine were obtained in the presence and absence of the selective beta(2)-adrenoceptor antagonist ICI 118551 and the non-selective beta-adrenoceptor antagonist bupranolol. Both BRL 37344 (pD(2)=6.79+/-0.09) and ritodrine (pD(2)=6.89+/-0.19) produced potent inhibition of oxytocin-induced contractions in myometrial strips; CL 316243 was inactive at concentrations up to 10 microM. Concentration effect curves to both BRL 37344 and ritodrine were shifted (10 to 30-fold) to the right in the presence of ICI 118551 (10 nM). BRL 37344 (pD(2)=8.51+/-0.21) and CL 316243 (pD(2)=8.61+/-0.24) produced potent inhibition of detrusor strips, while ritodrine was almost 100-fold less potent (pD(2)=5.83+/-0.17). The response to all agonists was significantly attenuated by pretreatment with bupranolol (10 microM), but only ritodrine was affected by ICI 118551 (1 microM). These results demonstrate that relaxation of rat myometrium is mediated by beta(2)-adrenoceptors while, consistent with previous reports, the beta(3)-subtype is primarily responsible for relaxation of rat detrusor.

Effect of DL-nebivolol, its enantiomers and metabolites on the intracellular production of superoxide and nitric oxide in human endothelial cells.

Nebivolol, a third generation selective beta(1)-adrenoceptor (beta(1)-AR) antagonist, has been reported to reduce intracellular oxidative stress and to induce the release of nitric oxide (NO) from the endothelium. Nebivolol is also subjected to a complex metabolic process where glucuronidation, aromatic and alicyclic hydroxylation are the major pathways leading to several metabolites. We have studied the effect of nebivolol, its enantiomers and metabolites on intracellular oxidative stress and NO availability in human umbilical vein endothelial cells (HUVECs). Furthermore, since the receptors involved in this endothelial effect of nebivolol remain controversial, we have studied this matter by the use of antagonists of beta-AR. dl-Nebivolol, d-nebivolol and l-nebivolol significantly reduced the formation of reactive oxygen species (ROS) and superoxide induced by oxidized-low density lipoprotein (ox-LDL), although the racemic and l-form were significantly more active than d-nebivolol in this activity. A marked decrease in the availability of intracellular NO was found in HUVECs exposed to ox-LDL and this parameter was normalized by the prior incubation with dl-nebivolol, d-nebivolol and l-nebivolol; the effect of racemate was mainly mimicked by its l-enantiomer. eNOS activity significantly increased by a 5-min contact of HUVECs with dl-nebivolol and l-nebivolol, but not with d-nebivolol, and a similar pattern was observed when the intracellular calcium increase was measured. The metabolites A2, A3', A12 and A14 but not A1, A3 and R 81,928, derived from different metabolic pathways, retained the antioxidant activity of the parent racemic compound dl-nebivolol, reducing the intracellular formation of ROS and superoxide. The effects of dl-nebivolol on intracellular formation of NO, eNOS activity and intracellular Ca(2+) were partially antagonized by the antagonists of beta(1-2)-AR nadolol or by the beta(3)-AR antagonist SR59230A and further antagonized by their combination or by (beta(1-2-3)-AR antagonist bupranolol. In conclusion, this study shows that the NO releasing effect of nebivolol is mainly due to its l-enantiomer; the racemate and its enantiomers possess a remarkable antioxidant activity that contributes to its effect on the cellular NO metabolism and the activation of beta(3)-AR through a calcium dependent pathway is involved in the mechanisms leading to the NO release.

Pharmacological characterization of the beta-adrenoceptor that mediates the relaxant response to noradrenaline in guinea-pig tracheal smooth muscle.

Pharmacological characteristics of beta-adrenoceptors (beta-ARs) mediating noradrenaline-induced relaxation were investigated in guinea-pig tracheal smooth muscle. The inhibitory effects of several types of beta-AR antagonists on noradrenaline-induced relaxation against histamine contraction were scrutinized with Schild plot analysis. The concentration-response curve for noradrenaline obtained in the absence of phentolamine and uptake inhibitors was competitively antagonized by all of the beta-AR antagonists used in this study (propranolol, bupranolol, atenolol, butoxamine and ICI-118,551). However, their pA2 values were markedly less than the expected values for beta1-AR and beta2-AR. On the other hand, pA2 values of ICI-118,551 (6.85) determined in the presence of phentolamine suggested a contribution of a beta1 -AR rather than beta2 -AR. In the presence of phentolamine and uptake inhibitors (desipramine and deoxycorticosterone), the Schild plot for atenolol was a better fit, with two distinct straight lines. The pA2 values of atenolol provided by the regression were: approximately 7.0, which corresponds to the expected beta1-AR value, and approximately 6.5, which was 3 times less than the expected value for beta1 -AR, and thus the possible presence of two classes of beta1 -AR (beta1(Low) and beta1(High)) was suggested. This view was also supported by Schild plot analysis for propranolol, which fit two straight lines each with a slope of 1.0. The present findings indicate that beta1 -ARs contributing to noradrenaline-elicited relaxation in guinea-pig tracheal smooth muscle exhibit diverse pharmacological characteristics and may be subdivided into at least two classes with distinct affinities for atenolol. Under physiological conditions, beta1(Low) rather than beta1(High) seems to play a more significant role in noradrenaline-regulated airway smooth muscle tone.

Potential involvement of a propranolol-insensitive atypical beta-adrenoceptor the vasodilator effect of cyanopindolol in the human pulmonary artery.

The aim of our study was to examine whether non beta(1)-/beta(2)-adrenoceptors participate in the relaxation of the human pulmonary artery. For this purpose the vasodilatory effect of the non-conventional partial beta-adrenoceptor agonist cyanopindolol was examined. Cyanopindolol (1-300 microM), studied in the presence of the beta(1)-/beta(2)-adrenoceptor antagonist propranolol, relaxed the human pulmonary artery preconstricted with serotonin 1 microM in a concentration-dependent manner (maximally by about 80%). This effect was diminished by bupranolol 10 microM (an antagonist of beta(1)-beta(3)-adrenoceptors and the low affinity state of the beta(1)-adrenoceptor) and CGP 20712 10 microM (known to antagonize the low-affinity state of the beta(1)-adrenoceptor at high concentrations). In further experiments, the effect of beta-adrenoceptor ligands on the serotonin-induced vasoconstriction was examined. The concentration-response curve for serotonin was not affected by cyanopindolol 30 microM, bupranolol 10 microM and CGP 20712 10 microM but shifted to the right by cyanopindolol 100 and 300 microM; the serotonin 5-HT(2A) receptor antagonist ketanserin 0.3 microM abolished the maximum contraction elicited by serotonin. In conclusion, the present study reveals that the vasodilatory effect of cyanopindolol in the human pulmonary artery consists of two components, i.e. activation of a propranolol-insensitive atypical beta-adrenoceptor and antagonism against 5-HT(2A) receptors.

Functional coupling of beta3-adrenoceptors and large conductance calcium-activated potassium channels in human uterine myocytes.

CONTEXT: Beta3-adrenoreceptor modulation in human myometrium during pregnancy is linked functionally to myometrial inhibition. Maxi-K+ channels (BK(Ca)) play a significant role in modulating cell membrane potential and excitability. OBJECTIVE: This study was designed to investigate the potential involvement of BK(Ca) channel function in the response of human myometrium to beta3-adrenoceptor activation. DESIGN: Single and whole-cell electrophysiological BK(Ca) channel recordings from freshly dispersed myocytes were obtained in the presence and absence of BRL37344, a specific beta3-adrenoreceptor agonist. The in vitro effects of BRL37344 on isolated myometrial contractions, in the presence and absence of the specific BK(Ca) channel blocker, iberiotoxin (IbTX), were investigated. SETTING: The study was carried out at the Clinical Science Institute. PATIENTS OR OTHER PARTICIPANTS: Myometrial biopsies were obtained at elective cesarean delivery. INTERVENTION: No intervention was applied. MAIN OUTCOME MEASURES: Open state probability of single channel recordings, whole cell currents, and myometrial contractile activity were measured. RESULTS: Single-channel recordings identified the BK(Ca) channel as a target of BRL37344. BRL37344 significantly increased the open state probability of this channel in a concentration-dependent manner (control 0.031 +/- 0.004; 50 microM BRL37344 0.073 +/- 0.005 (P < 0.001); and 100 microM BRL37344 0.101 +/- 0.005 (P < 0.001). This effect was completely blocked after preincubation of the cells with 1 microM bupranolol, a nonspecific beta-adrenoreceptor blocker, or 100 nM SR59230a, a specific beta3-adrenoreceptor antagonist. In addition, BRL37344 increased whole-cell currents over a range of membrane potentials, and this effect was reversed by 100 nM IbTX. In vitro isometric tension studies demonstrated that BRL37344 exerted a significant concentration-dependent relaxant effect on human myometrial tissue (P < 0.05), and preincubation of these strips with IbTX attenuated this effect on both spontaneous and oxytocin-induced contractions (44.44 and 57.84% at 10(-5) M, respectively). CONCLUSIONS: These findings outline that activation of the BK(Ca) channel may explain the potent uterorelaxant effect of beta3-adrenoreceptor agonists.

Comparison of the alpha-adrenoceptor-mediated effects of beta3-adrenoceptor ligands in rat pulmonary artery.

We have recently shown that the beta-adrenoceptor ligands CGP 12177, bupranolol, and SR 59230A (aryloxypropanolamines), but not BRL 37344 and CL 316243 (phenylethanolamines), exhibit significant affinity for alpha1-adrenoceptors and that CGP 12177 displays partial agonist properties at alpha-adrenoceptors in rat pulmonary artery. In this study, bupranolol and SR 59230A were further evaluated for their potential alpha-adrenoceptor mediated effects (i.e., agonist and/or antagonist properties) in rat intralobar pulmonary artery and compared with BRL 37344 and CL 316243. Bupranolol induced a relaxation in phenylephrine-precontracted arteries, but had no effect in prostaglandin F2alpha(PGF2alpha) -precontracted ones. SR 59230A also elicited a relaxation in phenylephrine-precontracted arteries. In PGF2alpha -precontracted arteries, SR 59230A induced a contractile response that was insensitive to the irreversible alpha-adrenoceptor antagonist phenoxybenzamine. BRL 37344 at high concentrations, but not CL 316243, produced slight relaxation in both phenylephrine- and PGF2alpha -precontracted arteries. The contractile response to phenylephrine was antagonized by bupranolol and SR 59230A in a competitive manner (pA2: 6.38 and 7.08 respectively). The concentration-response curve to phenylephrine was also shifted to the right by BRL 37344 (mean pKb: 4.45), but not by CL 316243 (100 microM). This study indicates that the aryloxypropanolamine derivatives bupranolol and SR 59230A exhibit competitive antagonist, but no agonist properties on alpha1-adrenoceptors, SR 59230A also inducing alpha-adrenoceptor-independent contraction. Among the phenylethanolamines, BRL 37344 but not CL 316243, also exerts an antagonist effect on alpha1-adrenoceptors, with a much lower potency than the aryloxypropanolamines studied.

Inconsistent role of nitric oxide on lipolysis in isolated rat adipocytes.

Though two isoforms of nitric oxide synthase, iNOS and eNOS, were reported in adipocytes, the role of NO in adipose tissue is still ambiguous. The aims of the present study were 1) to follow the effect of bacterial lipopolysaccharide (LPS), on 24 h-lipolysis in rat epididymal adipocyte culture in relation to iNOS stimulation; 2) to compare LPS-induced NO effects with exogenously NO, delivered as S-nitroso-N-acetylpenicillamine (SNAP), and 3) to examine the possible role of NO signaling agonist in lipolysis mediated by the beta(3)-adrenoreceptor agonist. Lipolysis was measured by glycerol and free fatty acid (FFA) production. The medium nitrite levels were used for the indirect estimation of NOS expression. Adipocyte mitochondrial function was assessed by the MTT test. LPS produced a concentration-dependent increase of NO with a decrease of viability at the highest dose. However, LPS did not affect lipolysis. SNAP did not exhibit significant changes in glycerol, FFA or MTT. BRL-37344 and db-cAMP significantly increased nitrite, glycerol and FFA levels. There was a positive correlation between glycerol release and nitrite production. Moreover, BRL-37344 significantly reduced mitochondrial functions. The pretreatment with bupranolol, beta(3)-antagonist, restored all parameters affected by BRL-37344. These results support a concept that NO fulfils multifaceted role of stimulating lipolysis under physiological conditions (beta-agonistic effect) and modulating the same processes during inflammatory (LPS) processes.

Endothelial beta3-adrenoceptors mediate vasorelaxation of human coronary microarteries through nitric oxide and endothelium-dependent hyperpolarization.

BACKGROUND: Coronary vessel tone is modulated in part by beta-adrenergic relaxation. However, the implication of specific beta-adrenoceptor subtypes and their downstream vasorelaxing mechanism(s) in human coronary resistance arteries is poorly defined. beta3-Adrenoceptors were recently shown to vasodilate animal vessels and are expressed in human hearts. METHODS AND RESULTS: We examined the expression and functional role of beta3-adrenoceptors in human coronary microarteries and their coupling to vasodilating nitric oxide (NO) and/or hyperpolarization mechanisms. The expression of beta3-adrenoceptor mRNA and protein was demonstrated in extracts of human coronary microarteries. Immunohistochemical analysis revealed their exclusive localization in the endothelium, with no staining of vascular smooth muscle. In contractility experiments in which videomicroscopy was used, the nonspecific beta-agonist isoproterenol and the beta3-preferential agonist BRL37344 evoked an approximately 50% relaxation of endothelin-1-preconstricted human coronary microarteries. Relaxations were blocked by the beta1/beta2/beta3-adrenoceptor antagonist bupranolol but were insensitive to the beta1/beta2-adrenoceptor antagonist nadolol, confirming a beta3-adrenoceptor-mediated pathway. Relaxation in response to BRL37344 was absent in human coronary microarteries devoid of functional endothelium. When human coronary microarteries were precontracted with KCl (thereby preventing vessel hyperpolarization), the relaxation to BRL37344 was reduced to 15.5% and totally abrogated by the NO synthase inhibitor L-omega-nitroarginine, confirming the participation of a NO synthase-mediated relaxation. The NO synthase-independent relaxation was completely inhibited by the Ca2+-activated K+ channel inhibitors apamin and charybdotoxin, consistent with an additional endothelium-derived hyperpolarizing factor-like response. Accordingly, membrane potential recordings demonstrated vessel hyperpolarization in response to beta3-adrenoceptor stimulation. CONCLUSIONS: Beta3-adrenoceptors are expressed in the endothelium of human coronary resistance arteries and mediate adrenergic vasodilatation through both NO and vessel hyperpolarization.

Aspartate138 is required for the high-affinity ligand binding site but not for the low-affinity binding site of the beta1-adrenoceptor.

The beta(1)-adrenoceptor "two-site ligand binding hypothesis" was investigated by comparing the pharmacological activities of the receptor with an Asp to Glu mutation of amino acid 138 after transient transfection into CHO cells. The high-affinity binding of (-)-[(3)H]-CGP12177 (p K(D)=9.4) and binding inhibition by (-)-isoprenaline (p K(i)=6.2), observed with Asp138-beta(1)-adrenoceptors, were absent at Glu138-beta(1)-adrenoceptors. (-)-[(3)H]-CGP12177 bound with a p K(D)=7.6 to Glu138-beta(1)-adrenoceptors and (-)-isoprenaline enhanced binding, probably allosterically. Glu138-beta(1)-adrenoceptors compared with Asp138-beta(1)-adrenoceptors showed a 500,000-fold decrease in cyclic AMP-enhancing potency by (-)-isoprenaline and antagonism by (-)-bupranolol (1 microM) was abolished. At Glu138-beta(1)-adrenoceptors, the agonist potency of (-)-CGP12177, compared with (-)-isoprenaline was reduced five-fold, but the antagonism by (-)-bupranolol (p K(B)=7.1) was not significantly changed, compared with Asp138-beta(1)-adrenoceptor. Thus, Asp138 of the beta(1)-adrenoceptor is essential for the binding of (-)-isoprenaline, (-)-bupranolol and (-)-CGP12177 to a high-affinity site, but not for the binding of (-)-CGP12177 and (-)-bupranolol to a low-affinity site.

ALpha1-adrenoceptor antagonist properties of CGP 12177A and other beta-adrenoceptor ligands: evidence against beta(3)- or atypical beta-adrenoceptors in rat aorta.

1. The alpha(1)-adrenoceptor antagonist properties of the beta-adrenoceptor nonconventional partial agonist, CGP 12177A, was investigated in functional assays in rat aorta and in radioligand binding assays in rat cerebral cortical membranes. In addition, binding affinities of other beta-adrenoceptor ligands were measured to investigate any correlation between alpha(1)-adrenoceptor affinity and relaxant potency in phenylephrine-constricted rings. 2. In functional studies, CGP 12177A produced parallel rightward shifts of the phenylephrine CRC with no reduction in the maximum responses. Schild regression analysis gave a straight line with a slope of 0.95 (95% CL: 0.87-1.04), suggesting reversible competitive antagonism, and gave a pK(B) value of 5.26. In contrast, CGP 12177A (

Role of alpha-adrenergic receptors in the effect of the beta-adrenergic receptor ligands, CGP 12177, bupranolol, and SR 59230A, on the contraction of rat intrapulmonary artery.

This study investigates the effect of the aryloxypropanolamines 4-[3-[(1,1-dimethylethyl)amino]-2-hydroxypropoxy]-1,3-dihydro-2H-benzimidazol-2-one (CGP 12177), bupranolol, and 3-(2-ethylphenoxy)-1[(1S)-1,2,3,4-tetrahydronaphth-1-ylamino]-(2S)-2-propanol oxalate (SR 59230A) [commonly used as beta(3)- and/or atypical beta-adrenergic receptors (beta-AR) ligands] on the contractile function of rat intralobar pulmonary artery. Affinities of beta-AR ligands for alpha(1)-adrenergic receptors (alpha(1)-AR) were also evaluated using [(3)H]prazosin binding competition experiments performed in rat cortical membranes. In intralobar pulmonary artery, CGP 12177 did not modify the basal tone, but antagonized the contraction induced by the alpha(1)-AR agonist phenylephrine (PHE). In arteries precontracted with PHE, CGP 12177 elicited relaxation, whereas in those precontracted with prostaglandin F(2alpha) (PGF(2alpha)), it further enhanced contraction. CGP 12177 induced an increase in intracellular calcium concentration in pressurized arteries loaded with Fura PE-3 and precontracted with PGF(2alpha). In PGF(2alpha) precontracted arteries, phentolamine (an alpha-AR antagonist) and phenoxybenzamine (an irreversible alpha-AR antagonist) antagonized the contractile responses to PHE and CGP 12177. Both responses were also decreased by bupranolol and SR 59230A. Specific [(3)H]prazosin binding was displaced by CGP 12177, bupranolol, and SR 59230A with pK(i) values of 5.2, 5.7, and 6.6, respectively. In contrast, (+/-)-(R*,R*)-[4-[2-[[2-(3-chlorophenyl)-2-hydroxyethyl]amino]propyl]phenoxy]acetic acid sodium (BRL 37344) and disodium 5-[(2R)-2-([(2R)-2-(3-chlorophenyl)-2-hydroxyethyl]amino)propyl]-1,3-benzodioxole-2,2-dicarboxylate (CL 316243) (nonaryloxypropanolamines beta(3)-AR agonists) displayed very low affinity for [(3)H]prazosin binding sites (pK(i) values below 4). These data suggest that CGP 12177 exhibits partial agonist properties for alpha(1)-AR in rat pulmonary artery. They also show that bupranolol and SR 59230A exert an alpha(1)-AR antagonist effect. As a consequence, these aryloxypropanolamine compounds should be used with caution when investigating the role of beta(3)- and atypical beta-AR in the regulation of vascular tone.

Atypical cardiostimulant beta-adrenoceptor in the rat heart: stereoselective antagonism by bupranolol but lack of effect by some bupranolol analogues.

1. Atypical beta-adrenoceptors resistant to propranolol, but blocked by bupranolol, increase contractile force and/or frequency of the heart in humans and rats. We compared the potencies of the enantiomers of bupranolol and examined the possible effects of seven bupranolol analogues including bevantolol (BEV) at this receptor in pithed and vagotomized rats. 2. CGP 12177, an agonist of the atypical beta-adrenoceptor, increased heart rate dose-dependently. Its dose-response curve was shifted to the right by S-(-)-bupranolol 10 micro mol kg(-1) by a factor of 8.4, but not affected by the same dose of R-(+)-bupranolol. 3. Desmethylbupranolol and compounds BK-21, BK-22, BK-23 and BK-25 also increased heart rate dose-dependently. The beta(1)-adrenoceptor antagonist CGP 20712 given in combination with the beta(2)-adrenoceptor antagonist ICI 118,551 (0.1 micro mol kg(-1) each) reduced the positive chronotropic action of the five bupranolol analogues without affecting that of CGP 12177. The potencies of the bupranolol analogues to increase heart rate were correlated (r=0.91, P<0.05) with their affinities for beta(1)-adrenoceptor binding sites in rat brain cortex membranes labelled with [(3)H]CGP 12177 (in the presence of ICI 118,551). 4. BK-26 and BEV, 10 micro mol kg(-1) each, had only minor effects on heart rate by themselves and did not antagonize the effect of CGP 12177. However, at 1 micro mol kg(-1), they antagonized the increase in heart rate elicited by the beta(1)-adrenoceptor agonist prenalterol. 5. In conclusion, bupranolol is a stereoselective antagonist at the atypical cardiostimulant beta-adrenoceptor. The effects of the bupranolol analogues are related to the activation or blockade of beta(1)-adrenoceptors, but not of atypical beta-adrenoceptors.

beta3-Adrenergic stimulation produces a decrease of cardiac contractility ex vivo in mice overexpressing the human beta3-adrenergic receptor.

OBJECTIVES: The regulation of cardiac function by catecholamines involves three populations of beta-adrenoceptor (beta-AR). beta(1)- and beta(2)-AR stimulations produce an increase in contractility and beta(3)-AR stimulation mediates a negative inotropic effect in human ventricular muscle. Because of the lack of suitable animal models, we have generated transgenic mice with cardiac-specific expression of the human beta(3)-AR (TG beta(3) mice). METHODS: TG beta(3) mice were produced by microinjection of the human beta(3)-AR under the control of the alpha myosin heavy chain promoter. Phenotypic analyses comprised beta(3)-AR mRNA and protein determinations, histological studies, electrocardiogram, contractility and cyclic nucleotide measurements. RESULTS: TG beta(3) mice presented no histological evidence of myocyte hypertrophy or fibrogenesis. In basal conditions, TG beta(3) mice were characterized by an increase in heart rate and an acceleration of twitch parameters without modification of its amplitude. beta(3)-AR agonists (CL 316243, SR 58611A) decreased contractility at low concentrations (1-100 nM). At high concentrations, the negative inotropic effect was abolished. Pretreatment with nadolol, a beta(1)/beta(2)-AR blocker, blunted the rebound in peak tension elicited by beta(3)-AR agonists suggesting a non-specific action of these compounds on beta(1)- and beta(2)-AR. The involvement of beta(3)-AR in the negative inotropic effect was confirmed by the pretreatment with bupranolol, a non-selective beta-AR antagonist, which fully abolished the effects of SR 58611A. The negative inotropic effect was associated with an increase in intracellular cGMP level. CONCLUSIONS: We conclude that cardiac overexpression of beta(3)-AR in mice reproduces ex vivo the negative inotropic effects obtained with beta(3)-AR stimulation in human ventricular tissues.

Burst-like control of lipolysis by the sympathetic nervous system in vivo.

Rapid oscillations of visceral lipolysis have been reported. To examine the putative role of the CNS in oscillatory lipolysis, we tested the effects of beta(3)-blockade on pulsatile release of FFAs. Arterial blood samples were drawn at 1-minute intervals for 120 minutes from fasted, conscious dogs (n = 7) during the infusion of saline or bupranolol (1.5 micro g/kg/min), a high-affinity beta(3)-blocker. FFA and glycerol time series were analyzed and deconvolution analysis was applied to estimate the rate of FFA release. During saline infusion FFAs and glycerol oscillated in phase at about eight pulses/hour. Deconvolution analysis showed bursts of lipolysis (nine pulses/hour) with time-dependent variation in burst frequency. Bupranolol completely removed rapid FFA and glycerol oscillations. Despite removal of lipolytic bursts, plasma FFAs (0.31 mM) and glycerol (0.06 mM) were not totally suppressed and deconvolution analysis revealed persistent non-oscillatory lipolysis (0.064 mM/min). These results show that lipolysis in the fasting state consists of an oscillatory component, which appears to be entirely dependent upon sympathetic innervation of the adipose tissue, and a non-oscillatory, constitutive component, which persists despite beta(3)-blockade. The extinction of lipid fuel bursts by beta(3)-blockade implies a role for the CNS in the maintenance of cyclic provision of lipid fuels.