Regulation of alpha- and beta-adrenergic receptor subclasses by gonadal steroids in human myometrium

Both alpha- and beta-adrenergic receptors have been identified in the human myometrium by radioligand binding. Both adrenergic receptor subclasses have been shown to mediate the contractile response of the uterus upon catecholamine stimulation: alpha-adrenergic receptors cause uterine contraction while beta-adrenergic receptors induce relaxation. We have identified alpha 1- and alpha 2-adrenergic receptors in myometrial membranes using the newly developed radiolabelled specific antagonists [3H]-prazosin and [3H]-rauwolscine. This enabled us to characterize both receptor subclasses individually. Beta adrenergic receptors were identified using the radiolabelled antagonist (-)-[3H]-dihydroalprenolol. Binding of radioligands to the myometrial membrane receptors was rapid, readily reversible, of high affinity and stereoselective. The total number of alpha 1-, alpha 2- and beta-receptors was determined by Scatchard analysis of radioligand saturation binding and the beta/beta 2-receptor ratio was determined by computer analysis of the beta 2-selective antagonist ICI 118 551) (-)-[3H]-dihydroalprenolol competition binding curves. This enabled us to study the regulation of both alpha- and beta-receptor subclasses under various physiological and pharmacological conditions in the human, i.e., during different phases of the menstrual cycle, in postmenopausal women and during depo-progestin (Medroxyprogesterone acetate) therapy. Only the alpha 2- and beta 1-adrenergic receptor concentrations were found to be subjected to gonadal steroid regulation. The number of alpha 2- and beta 1-adrenergic receptors increased concomitantly with circulating plasma oestradiol levels. This effect was counteracted by progesterone. The number of alpha 1- and beta 2-adrenergic receptors was unaffected by the gonadal steroid environment. These results are an example of the heteroregulation of membrane receptors by oestrogens and progesterone and cast new light on the regulatory mechanisms involved in uterine contractility in the human.     

Identification of alpha 1 adrenergic receptors in rabbit aorta with [125I] BE2254

Alpha-adrenergic receptors may play an important role in regulating vascular tone and reactivity. To study alpha-adrenergic receptors in blood vessels, we have developed a method to characterize and quantitate alpha-adrenergic receptors in a particulate fraction of individual rabbit aortas using the high specific activity alpha antagonist [125I] BE2254. [125I] BE2254 specifically labels a single class of binding sites with a dissociation constant of 286 pM and a maximal binding capacity of 16.7 fmoles/mg protein. Catecholamines compete for [125I] BE2254 binding stereospecifically and with the characteristic alpha-adrenergic potency series of (-)epinephrine greater than or equal to (-)norepinephrine much greater than (-)isoproterenol. The alpha 1-selective antagonist prazosin (KD = 0.7 nM) is much more potent in competing for [125I] BE2254 binding than is the alpha 2-selective antagonist yohimbine (KD = 1000 nM), which suggests that the alpha adrenergic receptor identified is predominantly of the alpha 1 subtype. Also, the dissociation constants from these binding studies were in good agreement with those reported in rabbit aorta from classical pharmacological experiments where contraction was found to be mediated via alpha 1 receptors. This extension of radioligand binding techniques to individual rabbit aortas should simplify the study of vascular alpha adrenergic receptor regulation, and provide a basis for broadening the understanding of vascular alpha adrenergic receptors.     

Uptake of L-[propyl-2,3-3H]dihydroalprenolol by intact HeLa cells

This report describes the uptake of L-[propyl-2,3-3H]dihydroalprenolol, a beta-adrenergic antagonist, by HeLa (human adenocarcinoma) cells. [3H]Dihydroalprenolol binds to sites of high capacity and low affinity in intact HeLa cells. The binding achieves equilibrium rapidly and is rapidly reversible. Bound [3H]dihydroalprenolol is displaceable by beta-adrenergic antagonists in a nonstereoselective fashion, but is not displaceable by isoproterenol, an adrenergic agonist. Phentolamine, an alpha-adrenergic antagonist, and chloroquine, a lysosomotropic amine, also compete for [3H]dihydroalprenolol binding sites. [3H]Dihydroalprenolol binding is inhibited by metabolic inhibitors, but not by cytoskeletal blocking agents. The binding is sensitive to extracellular pH (less binding at lower pH) and is temperature-sensitive (less binding at lower temperatures). The bound radioligand is rapidly reversed following hypotonic lysis of the cells. These [3H]dihydroalprenolol binding sites in intact HeLa cells therefore do not have the characteristics expected for beta-adrenergic receptors. Further studies showed that beta-adrenergic receptors could be detected in a HeLa membrane preparation using [125I]iodohydroxybenzylpindolol, and that chloroquine had very low affinity for these receptors. We conclude that [3H]dihydroalprenolol diffuses across the plasma membrane of intact HeLa cells and accumulates in acidic intracellular compartments.     

Characterization of the alpha adrenergic receptor population in hippocampus up regulated by serotonergic raphe deafferentiation

Serotonergic raphe deafferentiation elicits an up regulation of a nM (3H)WB-4101 binding site in rat hippocampus for which norepinephrine displays high affinity and prazosin displays low affinity. Guanine nucleotide affects the nM binding to hippocampal alpha-1 adrenergic receptors. Firstly, Gpp(NH)p, a nonhydrolyzable analog of GTP, inhibits (3H)WB-4101 binding at 3 nM concentration of the radioligand, the ligand concentration labelling the lower affinity, nM, binding site. Secondly, the addition of Gpp(NH)p causes recovery of the heterogeneity of binding sites lost upon preincubation of the membranes with 100 microM epinephrine, apparently by decreasing the affinity of the nM (3H)WB-4101 binding site for the adrenergic receptors. The phenomenon was still observed in the presence of saturating concentrations of the alpha-2 antagonist, yohimbine, and the beta antagonist, propranolol. The results imply that Gpp(NH)p regulates ligand binding to hippocampal alpha-1 agonist sites. It is likely that agonist and antagonist binding sites for the alpha-1 receptor exist in hippocampus with the agonist site being modulated by serotonin.     

Potassium conductance in straight proximal tubule cells of the mouse. Effect of barium, verapamil and quinidine

The present study has been performed to test for the influence of verapamil and quinidine on the potential difference across the basolateral cell membrane (PDbl) and on the basolateral potassium conductance of isolated perfused segments of the mouse proximal tubule. PDbl was recorded continuously with conventional microelectrodes during rapid alterations of bath or luminal perfusate composition. The contribution of the basolateral potassium conductance to the conductance of both cell membranes (tk) was estimated from the effects of altered bath potassium concentration on PDbl. Under control conditions tk approaches 0.8, i.e. the basolateral cell membrane is mainly conductive to potassium. Neither quinidine nor verapamil affect PDbl at concentrations below 10 mumol/l. At higher concentrations both substances depolarize the basolateral cell membrane mimicking the effect of 1 mmol/l barium. In the presence of 0.1 mmol/l verapamil tk is virtually abolished at 5 to 10 mmol/l bath potassium concentration but is almost unaffected at bath potassium concentrations between 20 and 40 mmol/l. 1 mumol/l ionophore A-23187 does not change the depolarizing effect of 0.1 mmol/l verapamil on cell membrane potential. In the presence of 0.1 mmol/l quinidine, tk is reduced to some 50%, irrespective of the bath potassium concentration. It is concluded that the potassium conductance in straight proximal tubules is inhibited not only by barium but as well by high concentrations of verapamil and quinidine. The effect is probably direct and not related to alterations in the intracellular calcium activity.     

Identification of alpha-2 adrenergic receptors in rabbit adipocytes

Adrenaline, an alpha and beta adrenergic agonist don't modify theophylline induced lipolysis in perirenal and epididymal adipose tissue of the rabbit. Clonidine an alpha 2 adrenergic agonist inhibits theophylline stimulated lipolysis in the two tissue indicating the existence of alpha 2 adrenergic responsiveness. Direct identification of these receptors by radioligand binding studies shows that (H3) yohimbine an alpha 2 adrenergic antagonist binds to rabbit's fat cell membranes with high affinity: KD = 1.7 +/- 0.1 nmoles. The maximal number of binding sites at saturation is low 16 +/- 29 fmoles/mg protein.     

Frequency-related blocking of sodium channels in the membrane of isolated rat cardiomyocytes by the calcium antagonist verapamil

Use-dependent blocking of sodium current in the membrane of single rat cardiomyocytes by verapamil (in the concentration range of 5-50 mumol/l) has been observed. The data obtained suggest that verapamil binding with sodium channels which are in the open or inactivated state underlies suppression of sodium current.     

Direct evidence for the interaction between papaverine and alpha 2-adrenergic receptors in canine platelets

The effects of papaverine on specific [3H]-yohimbine binding to canine platelet alpha 2-adrenergic receptors and on the platelet aggregation were assessed and compared with those of verapamil. Both compounds concentration-dependently inhibited [3H]-yohimbine binding with KI values for respective compounds of 0.39 +/- 0.05 microM (n = 3) and 15 +/- 0.19 microM (n = 3). In the presence of either compound KD values in Scatchard analysis of the equilibrium ligand binding increased in concentration-dependent manner, whereas Bmax did not change, indicating competitive inhibition of the ligand binding by these compounds. (-)-Epinephrine (3 microM) potentiation of adenosine diphosphate (ADP, 0.1 microM) aggregation was inhibited by papaverine with IC50 of 11 +/- 3.6 microM (n = 4). In the same experiments verapamil inhibited the platelet aggregation with lower IC50 (3.1 +/- 0.87 microM, n = 4) in comparison with that for papaverine. These results suggest that papaverine, like verapamil, inhibits physiological response of canine platelets through alpha-adrenergic receptor stimulation by direct interaction with the receptors.     

Identification and regulation of alpha- and beta-adrenergic receptors.

Direct radioligand binding methods for studying the alpha- and beta-adrenergic receptors have been developed over the past several years. These techniques use radioactively labeled adrenergic antagonists and agonists to identify the receptors in appropriate membrane fractions from catecholamine-sensitive tissues. In the case of the beta-adrenergic receptors, confident receptor identification has been aided by the close correlation of binding data with data on adenylate cyclase activation. Such direct binding studies are providing new insights about the molecular characteristics and regulatory properties of the receptors.     

Modulation of alpha-1 adrenergic receptors in rat brain following chronic reserpine

Functional denervation of the central adrenergic receptors by 30 daily injections of reserpine (0.25 mg/kg/day s.c.) produced an increase in the B_max of alpha-l adrenergic receptor binding sites labeled by [³H]prazosin. A similar increase was also observed for the alpha-1 adrenergic receptor component of [³H]WB4101 binding in the hippocampus but not in the cortex. No change in the lower affinity [³H]WB4101 binding site, which identifies S-l serotonin receptors was detected after this treatment. These data support the hypothesis that alpha-1 receptors are regulated by their neurotransmitter and may explain why previous studies have not detected alpha-1 receptor increases following 6-hydroxydopamine lesions of the dorsal bundle and locus coeruleus.     

Synergistic interaction between alpha- and beta-adrenergic receptors in rat brain slices: possible site for antidepressant drug action

Experiments were undertaken to examine the characteristics of the adrenergic receptor-coupled cAMP system in rat brain slices. It was found that the potentiation of isoproterenol-stimulated cAMP accumulation by 6-fluoronorepinephrine, an alpha-adrenergic agonist, is largely dependent upon the degree of beta-receptor occupancy, with prazosin-sensitive alpha-adrenergic receptors contributing less to this interaction. Chronic administration of a variety of antidepressants decreased the potentiating interaction between 6-fluoronorepinephrine and isoproterenol even under conditions where there were no obvious effects on the alpha- or beta- adrenergic components themselves. Chronic administration of imipramine had no effect on the interaction between 6-fluoronorepinephrine and adenosine, suggesting that the drug selectively modifies the coupling between the alpha- and beta-adrenergic systems. The results suggest that antidepressants influence the coupling between 6-fluoronorepinephrine and isoproterenol receptors independent of any effect on the individual recognition sites.     

Biochemical and functional characterization of alpha-adrenergic receptors in the rabbit vagina

Vascular and non-vascular smooth muscle within the vagina mediate important physiological changes during sexual arousal in women. In this study, we have characterized alpha-adrenergic receptors (AR) in rabbit vagina by assessment of radioligand binding, contractility of isolated tissue strips and genital hemodynamics. [3H]Prazosin and [3H]RX821002 (alpha-1 and alpha-2 AR selective antagonists) bound to rabbit vaginal membrane preparations with high affinity and limited capacity. Competition binding assays using both non-selective and subtype selective ligands for AR (phentolamine, prazosin, delequamine, rauwolscine and UK14304) further confirmed the presence of alpha-1 and alpha-2 AR in vaginal tissue. In organ bath preparations of vaginal tissue strips, norepinephrine-induced contraction was attenuated by alpha-1 and alpha-2 AR antagonists (prazosin, tamsulosin, delequamine and phentolamine). In anesthetized rabbits, intravaginal injection of the alpha-1 AR selective antagonist REC 15/2615 (50 and 100 microg/kg) caused a 2 to 3-fold increase in genital tissue oxyhemoglobin (OHb) concentration. Similar increases in tissue OHb were observed with intravaginal injection of phentolamine (500 microg/kg) or a tri-mixture of vasodilators (PGE1, papaverine, phentolamine). REC 15/2615, phentolamine or the tri-mixture also enhanced the amplitude and/or duration of change in genital tissue OHb after pelvic nerve stimulation. Thus, vaginal tissue expresses functional alpha-1 and alpha-2 AR, which modulate vaginal smooth muscle contractility and genital engorgement.     

Platelet adrenergic alpha receptors in hypertensive subjects undergoing treatment with calcium antagonists

The effects of two different calcium-channel blocking agents on platelet alpha-2 adrenoceptors were studied in 18 mild to moderate hypertensive patients. The subjects were randomly assigned in a double blind fashion to treatment with either nifedipine 10 mg t.i.d. or tiapamil 300 b.i.d. for six weeks. Platelet alpha-2 receptors were studied before and following 6 weeks of treatment using radioligand binding assay (3H Rauwolscine). Both agents induced a reduction in alpha-2 receptors, which reached statistical significance only for nifedipine. Such a reduction may contribute to the antihypertensive effect of calcium-channel blocking drugs.     

Adrenergic stimulation of diacylglycerol production in genital tract smooth muscle myocytes

Summary Diacylglycerol (DAG) production has not been reported in previous studies that have characterized inositol phosphate production during alpha-1 adrenergic receptor signal transduction in the DDT₁ MF-2 genital tract myocytes. The current study sought to measure norepinephrine (NE)-stimulated DAG production in these transformed myocytes utilizing thin layer chromatography. DAG production was characterized as an alpha-1 adrenergic mediated event utilizing subtype specific adrenergic agonist and antagonists. DAG production occurred in response to physiologic concentration of NE, was apparent by 30 s and was significantly increased by 2 min. Maximal DAG production was unaffected by pretreatment of the myocytes for 96 h with testosterone, which has previously been shown to induce a doubling of alpha-1 adrenergic receptors in these cells. In contrast, testosterone pretreatment did result in a shift of the dose-response curve resulting in a significantly lower EC₅₀ for NE in the treated cells compared to control myocytes. In conclusion, these studies have confirmed that DAG production occurs as a component of alpha-1 adrenergic signal transduction in the DDT₁ MF-2 myocytes; transduction events that were modulated by testosterone resulting in increased agonist sensitivity.     

Radioligand binding characterization of beta-adrenergic receptors in the protozoa Trypanosoma cruzi

A direct radioligand binding technique utilizing the beta-adrenergic antagonist [3H]dihydroalprenolol was employed in the identification and characterization of Trypanosoma cruzi beta-adrenergic receptors. [3H]DHA binding was saturable (Bmax = 1.5 pmol/10(6) cells) with an apparent equilibrium dissociation constant (Kd) of 127 nM. Binding of [3H]DHA was displaced by propranolol in a concentration-dependent manner. The relative potency order of adrenergic ligands in displacing [3H]DHA binding was: propranolol greater than or equal to alprenolol greater than epinephrine. 5-Hydroxytryptamine, phentolamine and catechol had no effect. The experimental results support the suggestion that beta-adrenergic receptors are present in the pathogenic protozoa Trypanosoma cruzi.     

Differentiation of Alpha-Adrenergic Receptors Using Pharmacological Evaluation and Molecular Modeling of Selective Adrenergic Agents

Abstract

Subtypes of alpha adrenergic receptors were studied using selective adrenergic agonists. A-53693, A-54741, and related compounds were evaluated for their affinity for alpha receptor subtypes using radioligand binding techniques. Efficacy and potency were also evaluated using in vitro bioassays of alpha-1 receptors in rabbit aorta smooth muscle and alpha-2 receptors in the phenoxybenzamine-pretreated canine saphenous vein. Active and inactive compounds were then submitted for computer-assisted molecular modeling evaluation to ascertain the structural requirements for optimal potency and selectivity. Rigid catecholamines such as A-53693 display a high degree of selectivity for alpha-2 compared to alpha-1 receptors, probably because of the unique regions of space at the ligand binding site occupied by active compounds. Imidazolines such as A-54741 also interact with extremely high affinity and potency for alpha-2 receptors, and to a lesser extent at alpha-1 receptors. The spatial domains occupied by phenethylamines and imidazolines differ, each having unique regions of permissable space at alpha receptors. Compounds such as A-53693 and A-54741 are extremely useful probes of the molecular interactions of alpha agonistic compounds which will help in the design of even more selective drugs for alpha adrenergic receptors.     

Alpha-1, alpha-2, and beta adrenergic signal transduction in cultured uterine myocytes

Summary The following studies were undertaken to develop a cultured uterine myocyte model which would allow further clarification of the adrenergic signal transduction mechanisms utilized by these myocytes. After mechanical removal of the endometrium, rabbit uterine myoctes were isolated by an overnight enzymatic disaggregation using collagenase and DNase I. The isolated myocytes were maintained in culture in 75-cm² flasks containing Waymouth's MB 751/1 medium-10% fetal bovine serum along with 10⁻⁸ M estradiol, penicillin, streptomycin, and Fungizone. The phase contrast and electron micrographic appearance of these cells was consistent with that previously reported for smooth muscle myocytes in culture. Immunocytochemical studies utilizing monoclonal anti-alpha-smooth muscle actin antibodies confirmed the presence of smooth muscle actin in these cultured myocytes. Western blot studies similarly confirmed the presence of alpha-smooth muscle actin in rabbit myometrial tissue and the cultured myocytes, both the primary and F1 generation. After prelabeling the myocytes with [³H]inositol, adrenergic stimulation experiments demonstrated alpha-1 receptor mediated stimulation of inositol phosphates. Beta receptor stimulation experiments confirmed cAMP production in these cultured myocytes, and the ability of clonidine, an alpha-2 agonist, to inhibit forskolin stimulated cAMP production confirmed the presence of functional alpha-2 adrenergic receptors in these myocytes. In conclusion, these cultured rabbit uterine myocytes have provided an in vitro model which can be utilized to further clarify the adrenergic receptor signal transduction mechanisms in genital tract smooth muscle. This research was supported by grant HD-22063 from the National Institutes of Health, Bethesda, MD.     

Alterations in cardiovascular responsiveness and adrenoceptor binding during catecholamine infusion hypertension in rats.

Chronic continuous infusion of norepinephrine in rats causes alterations in biochemical and physiologic responses of the cardiovascular system and in cardiovascular adrenoceptor number. The response of cardiac and aortic ornithine decarboxylase (ODC) activity to stimulation by norepinephrine was decreased in rats receiving norepinephrine infusion. These responses are due to stimulation of beta- and alpha-adrenergic receptors, respectively. Additionally, there was reduced stimulation of aortic ODC activity by angiotensin II and vasopressin. The cardiac ODC response to angiotensin II was decreased, but the response to vasopressin was not affected. The decreased ODC response is accompanied by decreased pressor responses to the alpha-adrenergic agonist phenylephrine. Decreased numbers of alpha- and beta-adrenoceptor binding sites (as measured by the binding of [3H]prazosin and [125I]pindolol) might mediate, in part, the altered responses to adrenergic agonists. The decreased cardiovascular responsiveness measured in these animals after several days of norepinephrine infusion hypertension contrasts with the increased responses found in most other forms of hypertension. This provides a useful model in which to examine the consequences of prolonged adrenergic receptor stimulation.     

Adrenergic receptor characteristics of cardiac myocytes cultured in serum-free medium: comparison with serum-supplemented medium

Neonatal rat ventricular myocytes cultured in serum-free medium coexpress both alpha 1 and beta 1 receptors as determined by radioligand binding studies. In cells exposed to serum for 48 hr surface area increased 3.69 fold, but the maximum number of binding sites ([125I]-iodocynanopindolol) only increased 1.5 fold from 12956 +/- 7579 to 19676 +/- 5181 sites/cell (n = 5, p less than .05) yielding a value of 2.48 sites/um2 for cells grown in serum-supplemented medium compared with 6.96 sites/um2 for cells grown in serum-free medium. Thus serum-induced hypertrophy is associated with a decrease in beta 1 receptor density relative to cell size; however, adenylate cyclase response is unaffected. This cell culture system constitutes an excellent model for studying interventions that may influence the regulation of cardiac myocyte hypertrophy by nonhemodynamic factors, particularly through the adrenergic receptor system.