In vitro effects of beta adrenoceptor agonists and antagonists on the rat ovarian suspensory ligament

The mesovarian suspensory ligament of the rat was used to compare the activities of beta adrenoceptor agonists and antagonists. The following beta adrenoceptor agonists, in descending order of potency, inhibited spontaneous activity in a dose-related manner: zinterol greater than isoproterenol much greater than dobutamine. Several noncardioselective, beta-2 adrenoceptor antagonists with intrinsic sympathomimetic activity (ISA) also inhibited the activity of the ligament: pindolol greater than alprenolol = bucindolol = oxprenolol greater than labetalol. Maximal relaxation induced by the antagonists was equivalent to that caused by the beta receptor agonists. Two cardioselective, beta adrenoceptor antagonists with ISA, acebutolol and practolol, did not inhibit the activity of the suspensory ligament but did increase the rate of the isolated right atrium of the rat. The maximal increases in atrial rate evoked by the antagonists were significantly less than those induced by the beta adrenoceptor agonists. Studies with ICI 118,551 or atenolol as beta-2 or beta-1 selective adrenoceptor blockers, respectively, suggest that the beta adrenoceptors of the suspensory ligament are predominantly of the beta-2 subtype. The possible relevance of these results to the induction of mesovarian leiomyomas in rats by noncardioselective beta adrenoceptor agonists and antagonists with ISA is discussed.     

Vascular alpha-1 antagonistic and agonistic effects of beta adrenoceptor agonists in rabbit common carotid arteries.

The stainless-steel cannula-inserting method was used to observe vascular effects of mixed and selective beta adrenoceptor agonists, isoproterenol, procaterol and denopamine, on isolated, perfused rabbit common carotid arteries. In phenylephrine-preconstricted preparations, the three beta agonists induced a dose-dependent vasodilation which was not suppressed by treatment with beta antagonists, atenolol, a selective beta-1 antagonist and ICI 118551, a selective beta-2 antagonist. On the other hand, in prostaglandin F2 alpha-preconstricted preparations, these agonists produced no vasodilation and revealed weak vasoconstrictions which were readily suppressed by bunazosin, a selective alpha-1 antagonist. Moreover, these agonists caused a shift of the dose-response curve for phenylephrine to the right in a parallel fashion in non-preconstricted preparations. The relative pA2 values for isoproterenol, procaterol and denopamine calculated from the displacement curve were 7.47, 7.59 and 8.17, respectively. Thus, it is concluded that 1) there are little functional beta adrenoceptors in the rabbit common carotid arteries, 2) beta adrenoceptor agonists have both antagonistic and agonistic properties for alpha-1 adrenoceptor activation, 3) denopamine possesses a higher potency as an alpha-1 antagonist and 4) beta agonists generally act as vasodilators in rabbit cerebral circulation.     

Beta adrenoceptors in the canine large coronary arteries: beta-1 adrenoceptors predominate in vasodilation

Beta adrenoceptors of the canine large coronary artery were characterized by observing the effects of the subtype selective antagonists, metoprolol (beta-1) and ICI 118,551 (beta-2), on the vasodilator responses of isolated and perfused preparations to beta adrenoceptor agonists and in the radioligand binding assay. The integrity of the endothelium was checked by acetylcholine-induced vasodilations. Without any precontraction, isoproterenol, norepinephrine, epinephrine and procaterol (selective beta-2 agonist) dilated the canine large coronary artery pretreated with phentolamine (10(-5) M). The rank order of agonist potency was isoproterenol greater than norepinephrine greater than epinephrine greater than procaterol. The pA2 values for metoprolol and ICI 118,551 were determined by the antagonisms of the vasodilator responses to isoproterenol and procaterol. The slopes of Schild plots for metoprolol and ICI 118,551 against isoproterenol and the value for ICI 118,551 against procaterol were not significantly different from unity, but the value for metoprolol against procaterol was significantly less than unity. The pA2 value for metoprolol against isoproterenol was 7.48 and those values for ICI 118,551 against isoproterenol and procaterol was 7.19 and 7.25, respectively. These pA2 values are typical for beta-1 adrenoceptors. The beta adrenoceptors of the canine large coronary artery were examined further using an antagonist [125I]iodocyanopindolol as a ligand for the binding of beta adrenoceptors. The [125I]iodocyanopindolol binding to the canine coronary artery smooth muscle membrane was saturable with a KD of 63.7 pM and a total number of radioligand binding sites of 44 fmol/mg of protein.(ABSTRACT TRUNCATED AT 250 WORDS)     

Comparative analysis of beta-1 adrenoceptor agonist and antagonist potency and selectivity of cicloprolol, xamoterol and pindolol

The partial beta adrenoceptor agonist properties of cicloprolol, xamoterol and pindolol have been compared in vivo (anesthetized catecholamine-depleted or pithed rats) and in vitro (guinea pig or rat right atria and guinea pig tracheal muscle preparations) conditions. All three compounds increased heart rate in the former preparations, and their intrinsic activities relative to isoproterenol were 0.7, 0.65 and 0.45, respectively. The positive chronotropic effects of cicloprolol or xamoterol were competitively antagonized by betaxolol or propranolol; however, part of those induced by pindolol were resistant to these beta adrenoceptor antagonists. None of these compounds increased the spontaneous beating rate of isolated guinea pig atria; however, xamoterol only increased heart rate in isolated rat atria, and its intrinsic activity with respect to isoproterenol was 0.4. Pindolol, xamoterol and cicloprolol behaved as competitive beta-1 adrenoceptor antagonists against isoproterenol-induced tachycardia in a pithed rat model. In order to mimic the intrinsic effects of the partial agonist drugs, control dose-response curves for isoproterenol were determined in pithed rats in which the base-line heart rate was elevated by thoracic spinal cord stimulation. In this in vivo preparation, xamoterol and pindolol were more potent beta-1 adrenoceptor antagonists than cicloprolol; however, cicloprolol and xamoterol, in contrast to pindolol, were selective for beta-1 adrenoceptors. In isolated spontaneously beating guinea pig right atria, cicloprolol and xamoterol were equipotent beta-1 adrenoceptor antagonists but were about 50 times less potent than pindolol. In isolated rat atria, the beta-1 adrenoceptor antagonist potency of xamoterol was greater (pA2 = 8.7) than in guinea pig atria (pA2 = 7.8). The potencies of cicloprolol and pindolol did not vary between these species. In catecholamine-depleted rats, high i.v. doses of cicloprolol had vasodilator activity that was partly mediated by beta-2 adrenoceptors. In carbachol-contracted guinea pig trachea, cicloprolol and xamoterol, in contrast to pindolol, were relatively inactive against isoproterenol-induced relaxation. In conclusion, cicloprolol and xamoterol, similarly to pindolol, behave as agonists and antagonists of beta-1 adrenoceptors. However, only cicloprolol and xamoterol show an elevated degree of selectivity toward the beta-1 adrenoceptor subtype.     

Altered vascular beta adrenoceptor-mediated relaxation in deoxycorticosterone-salt hypertensive rats

Beta adrenoceptor-mediated relaxation was studied on femoral and mesenteric arteries and thoracic aorta from deoxycorticosterone-salt hypertensive and age-matched normotensive rats. Maximum relaxations to isoproterenol (ISO), fenoterol and norepinephrine were less in hypertensive than in normotensive tissues. Mean negative log EC50 values of ISO and norepinephrine, but not fenoterol, were smaller in femoral and mesenteric strips from hypertensive rats than those from oil-water-treated rats. In thoracic aortas from hypertensive rats, the mean negative log EC50 values of ISO and fenoterol decreased, whereas those of norepinephrine increased as compared with those in oil-water-treated rats. In oil-salt- and deoxycorticosterone-water-treated rats, hypertension did not develop nor were the responses to ISO reduced. Relative potencies of the beta adrenoceptor agonists and Schild plot data for atenolol and butoxamine indicate that femoral arteries of normotensive and hypertensive rats possess beta-1 adrenoceptors mediating relaxation. It also is suggested that the mesenteric artery and thoracic aorta of both normotensive and hypertensive rats predominantly possess beta-2 adrenoceptors mediating relaxation. The present results suggest that an elevation in blood pressure is associated with the reduction of beta-1 adrenoceptor-mediated relaxation in femoral arteries and of beta-2 adrenoceptor-mediated relaxation in mesenteric arteries.     

Differential regulation of fat cell beta-2 and beta-1 adrenoceptors by endogenous catecholamines in dog

The effects of long-term endogenous catecholamine exposure on the regulation of leukocyte and adipocyte beta adrenoceptor subtypes were studied through an experimental model of chronic neurogenic hypertension in the dog. Chronic sinoaortic denervation (SAD) is associated with a significant increase in plasma catecholamine levels, a reduction in the total beta adrenoceptor number of the leukocytes (52%) as well as of the omental adipocytes (59%). Using highly selective beta antagonists (bisoprolol for beta-1; ICI 118,551 for beta-2 adrenoceptors) we demonstrate that the normal dog fat cell possess both beta-2 and beta-1 adrenoceptors in proportions of 67 and 33%, respectively. SAD-induced catecholamine enhancement promotes a strong reduction of beta-2 (but not beta-1) adrenoceptor number (from 237 +/- 28 to 52 +/- 13 fmol/mg of protein) leading to a new relative distribution in fat cell membranes: 36% for beta-2 and 64% for beta-1 adrenoceptors. Such a different regulation provokes major consequences in the associated-biological effect on adipocytes when evaluating the lipolytic process. Lipolysis induced by epinephrine or isoproterenol (two mixed agonists) is weakly but significantly reduced whereas lipolysis induced by procaterol (a highly selective beta-2 agonist) is strongly reduced. These data fit with the results of the binding studies and demonstrate the loss in beta-2 adrenoceptor number and efficiency in SAD dogs. The present study demonstrates a differential regulation of beta adrenoceptors: beta-2 but not beta-1 adrenoceptors are decreased by long-term exposure to high plasma levels of endogenous catecholamines in the dog.     

Beta adrenoceptor subtype binding activity in plasma and beta blockade by propranolol and beta-1 selective bisoprolol in humans. Evaluation with Schild-plots

In the present study we investigated whether the beta adrenoceptor subtype binding activity in plasma samples can predict selective and nonselective beta blockade in humans. From the right shifts of isoprenaline dose-response curves 0 to 84 hr after administration of propranolol and the beta-1 selective bisoprolol, in vivo beta blockade was assessed. In an in vitro radioreceptor assay with membrane preparations of beta-1 or beta-2 adrenoceptors, plasma samples were assayed for subtype selective blocking activity. After propranolol administration, in vitro beta-1 and beta-2 adrenoceptor occupancy declined from initially 97% to less than 10% within 48 hr. An isoprenaline dose ratio (DR)-1 of 1 coincided with a 50% occupancy of the beta-1 or the beta-2 subtype in vitro. In Schild-plots using plasma concentrations (radioreceptor assay) and the isoprenaline DR-1 for heart rate, diastolic blood pressure and inotropy (QS2C), slopes of unity were observed. After bisoprolol administration, in vitro beta-1 occupancy shifted from initially 95% to less than 10% within 72 hr. For the beta-2 subtype, an occupancy of greater than 10% was detectable only within the first 12 hr. An isoprenaline DR-1 of 1 coincided with a 50% occupancy of beta-1 adrenoceptors. The bisoprolol Schild-plots yielded a slope of unity for inotropy, but less than unity for the heart rate and diastolic blood pressure. From an extended analysis of subtype selective antagonism in Schild-plots, the fractions of the beta-2 adrenoceptor subtype participating in the isoprenaline response were calculated: heart rate 0.45 +/- 0.12 and diastolic blood pressure 0.23 +/- 0.13. It is concluded that in vitro receptor occupancy can predict beta blockade in humans for propranolol. Beta adrenoceptor subtype-mediated effects in humans can be evaluated with a selective antagonist and a refined analysis of Schild-plot data.     

Effects of clenbuterol on central beta-1 and beta-2 adrenergic receptors of the rat

Repeated administration of the centrally acting beta adrenoceptor agonist, clenbuterol, to rats reduced the ability of isoproterenol to increase the concentration of cyclic AMP (cAMP) in slices of cerebellum. This reduced responsiveness to isoproterenol was accompanied by a marked reduction in the density of beta adrenoceptors as measured by the binding of the beta adrenoceptor antagonist [125I]iodopindolol. In addition, the agonist-binding properties of remaining cerebellar beta adrenoceptors were altered after clenbuterol treatment. The clenbuterol-induced reduction in the density of beta adrenoceptors in the cerebellum is in marked contrast to its inability to do this in cerebral cortex. Comparison of the ability of clenbuterol to that of isoproterenol to increase levels of cAMP in slices of cerebral cortex or cerebellum showed that clenbuterol is a weakly potent agonist in both brain regions. The increase in cAMP induced by isoproterenol in the cortex was significantly reduced in the presence of the selective beta-1 adrenoceptor antagonist, ICI 89,406. In contrast, the clenbuterol-induced increase in cortical cAMP was unchanged by ICI 89,406 but was reduced significantly by the beta-2 adrenoceptor antagonist, ICI 118,551. In cerebellum, both isoproterenol- and clenbuterol-stimulated accumulation of cAMP were antagonized much more potently by ICI 118,551 than by ICI 89,406. Furthermore, clenbuterol antagonized the cAMP response induced by isoproterenol in the presence of ICI 118,551 in a concentration-dependent manner. In terms of measurement of cAMP in brain slices, clenbuterol is weakly potent as an agonist at beta-2 adrenoceptors and has antagonist properties at beta-1 adrenoceptors.     

Beta-1 and beta-2 adrenoceptors mediate smooth muscle relaxation in bovine isolated mesenteric lymphatics.

The relaxant effects of beta adrenoceptor agonists were investigated in isolated bovine mesenteric lymphatics which had been contracted by 5-hydroxytryptamine. Addition of isoproterenol (a nonselective beta agonist), denopamine (a selective beta-1 agonist) and procaterol (a selective beta-2 agonist) caused concentration-dependent relaxations in the lymphatic preparations. There was no significant difference in the relaxant responses to the beta adrenoceptor agonists between the preparations with and without endothelium. Treatment with 10(-7) to 3 x 10(-6) M metoprolol (a selective beta-1 antagonist) shifted the concentration-response curve for denopamine to the right, whereas 10(-9) to 3 x 10(-8) M ICI 118,551 (a selective beta-2 antagonist) did not affect the relaxant response to denopamine. The relaxations of bovine mesenteric lymphatics induced by isoproterenol were suppressed by both metoprolol and ICI 118,551. The procaterol-induced relaxations were inhibited by 10(-9) to 3 x 10(-8) M ICI 118,551 but not by 10(-7) to 3 x 10(-6) M metoprolol. Schild plot analyses showed that the slope and pA2 values for metoprolol against denopamine were 1.10 and 7.59, respectively, and that those for ICI 118,551 against procaterol were 0.91 and 9.96. These results suggest that both beta-1 and beta-2 adrenoceptors are located on the smooth muscle cells in bovine mesenteric lymphatics and that stimulation of either receptor produces a marked relaxation.     

Antagonist characterization of atypical beta adrenoceptors in guinea pig ileum: blockade by alprenolol and dihydroalprenolol

The present study was undertaken to further characterize the atypical beta adrenoceptor in guinea pig ileum. Tension was developed in isolated segments of ileum using transmural electrical stimulation of enteric cholingeric nerves. The ability of isoproterenol to relax the ileum, via beta-1 adrenoceptor and atypical beta adrenoceptor agonism, was measured. Propranolol (5 x 10(-6) M) and bromoacetylaprenololmetane blocked beta-1 adrenoceptors but, at the concentrations tested, were without affinity at atypical beta adrenoceptors. (-)-Alprenolol and (-)-dihydroalprenolol, however, acted as competitive antagonists at both sites (pA2 values of 8.2 and 8.81 at beta-1 adrenoceptors and 6.47 and 6.43 at atypical beta adrenoceptors, respectively). (-)-Alprenolol also exerted agonistic activity at the atypical beta adrenoceptor. [3H](-)-Dihydroproalprenolol failed to identify beta-1 adrenoceptors or atypical beta adrenoceptors but, instead, bound to a putative lipophilic site unrelated to ileal adrenoceptors. Before this study, nadolol (pA2 = 4.7) was the only documented antagonist at the atypical beta adrenoceptor in guinea pig ileum. Thus, the present results detail two additional pharmacological probes which exhibit about a 100-fold greater affinity than nadolol for the atypical site.     

Heterogeneity of beta adrenoceptors in right atria isolated from cold-exposed rats

The chronotropic response of right atria isolated from 5-day-cold-exposed rats to isoproterenol and norepinephrine was studied. A large increase in the sensitivity of the pacemaker to isoproterenol and a decrease in the sensitivity to norepinephrine occurred. Determination of pA2 values of propranolol and metoprolol using isoproterenol and norepinephrine as agonists and analysis of the slopes of Schild plots suggested that in atria isolated from control rats the chronotropic effect of isoproterenol and norepinephrine resulted from the preferential interaction of the catecholamines with a homogeneous beta-1 adrenoceptor population. After cold exposure the affinity of atrial adrenoceptors for propranolol increased when the agonist was isoproterenol and decreased when norepinephrine was used. The slopes of the Schild plots of metoprolol when the agonists were isoproterenol or norepinephrine were not unitary unless the experiments were performed in the presence of butoxamine. However, butoxamine prevented the demonstration of cold-induced super-sensitivity to isoproterenol, leaving the subsensitivity to norepinephrine unaffected. It is concluded that cold-induced heterogeneity of the atrial beta adrenoceptors is responsible for the increased sensitivity to isoproterenol. Probably, subsensitivity to norepinephrine resulted from conformational alterations of the atrial beta-1 adrenoceptors.     

Beta-2 adrenoceptor-mediated relaxation of the isolated human saphenous vein

On isolated strips of human saphenous vein, pretreated with 5 microM phenoxybenzamine and contracted with 10 mM KCl, the beta adrenoceptor mediating the relaxant effects of isoproterenol, procaterol and norepinephrine was characterized using the selective beta-1 adrenoceptor antagonist, bisoprolol, and the selective beta-2 adrenoceptor antagonist, ICI 118,551. All three agonists produced concentration-dependent relaxations of the isolated saphenous vein with an order of potency: procaterol (pD2 value, 7.69) greater than isoproterenol (pD2 value, 7.41) much greater than norepinephrine (pD2 value, 5.30). ICI 118,551 (3 X 10(-10) to 3 X 10(-9) M) was nearly 100 times more potent than bisoprolol (10(-7) to 10(-6) M) in antagonizing the relaxant effects of isoproterenol and procaterol. The slopes of the Schild plots for the antagonistic effects of ICI 118,551 and bisoprolol against isoproterenol- and procaterol-induced relaxations were not significantly different from unity indicating interaction with a homogeneous population of beta adrenoceptors. The pA2 value for ICI 118,551 amounted to 9.11 to 9.20 and for bisoprolol to 6.50 to 6.63. In addition, the concentration-response curve for the relaxant effect of norepinephrine was significantly shifted to the right by 10(-9) M ICI 118,551, but not affected by 10(-7) M bisoprolol. These results indicate that on the isolated strips of the human saphenous vein the beta adrenoceptor mediating relaxation is of the beta-2 subtype.     

Characterization of the beta adrenoceptor subtype(s) mediating the positive inotropic effects of epinine, dopamine, dobutamine, denopamine and xamoterol in isolated human right atrium.

In patients with chronic heart failure cardiac beta-1 adrenoceptors are reduced, whereas beta-2 adrenoceptor changes vary depending on the etiology of the disease. Beta Adrenoceptor agonists can be used for short-term inotropic support in chronic heart failure; their clinical efficacy might depend on which beta adrenoceptor subtype(s) mediates their positive inotropic effect. Thus, the beta adrenoceptor subtype(s) involved in the positive inotropic effects of clinically used beta adrenoceptor agonists was characterized on isolated electrically driven human right atria by the use of the selective beta-1 adrenoceptor antagonist CGP 20712 A (300 nmol/l) and/or the selective beta-2 adrenoceptor antagonist ICI 118,551 (30 nmol/l). Epinine evoked positive inotropic effects through stimulation of beta-1 and beta-2 adrenoceptors to about the same degree, whereas dobutamine acted mainly at beta-1 adrenoceptors but had a significant beta-2 adrenoceptor component. Both agonists were full agonists causing the same maximum increase in contractile force (Emax) as did isoprenaline or Ca++ (Emax = 1.0). In contrast, denopamine was a partial selective beta-1 adrenoceptor agonist (Emax = 0.75-0.85). Dopamine was in the presence of uptake1-blockade (by 5 mumol/l phenoxybenzamine) a partial agonist (Emax = 0.60-0.70) acting selectively at beta-1 adrenoceptors; in the absence of uptake1-blockade, however, dopamine was a full agonist, indicating that part of its positive inotropic effect is indirect via the release of endogenous noradrenaline. Xamoterol did not exert positive inotropic effects, but concentration-dependently slightly decreased basal force of contraction.     

Supersensitivity and changes in the active population of beta adrenoceptors in rat right atria in early sepsis.

We have investigated the effect of sepsis induced by cecal ligation and puncture on the chronotropic actions of beta adrenoceptor agonists on isolated right atria. The present findings show that right atria obtained from rats in an early stage of sepsis were supersensitive to the chronotropic actions of the beta-agonists, isoproterenol (ISO), fenoterol (FEN) and prenalterol (PREN). The supersensitivity to the chronotropic actions of ISO and FEN was much greater than that which developed to PREN. The positive chronotropic actions of isobutylmethylxanthine and forskolin were not affected by sepsis. The receptor subtypes mediating the responses to ISO, FEN and PREN by control and septic right atria were characterized by functional assays using selective beta-1 and beta-2 antagonists. The results showed that the chronotropic response produced by all three agonists on right atria obtained from control rats were mediated by beta-1 receptors. In contrast, the chronotropic actions of ISO and FEN on atria from septic rats were mediated by what appears to be beta-2 receptors and those of PREN by beta-1 receptors.     

Responses mediated via beta-1 adrenoceptors but not beta-2 adrenoceptors exhibit supersensitivity after chronic reserpine pretreatment

The purpose of this study was to examine whether reserpine pretreatment induces supersensitivity of both beta-1 and beta-2 adrenoceptor-mediated responses. Guinea pigs received reserpine (0.5 mg kg-1 s.c. or i.p.) daily for 7 days. Isolated tissues were set up in the presence of phentolamine (5 microM) and metanephrine (10 microM) and the sensitivity to isoproterenol and, where possible, a partial agonist (ritodrine, salbutamol or prenalterol) was determined. The beta adrenoceptor-mediated responses were recorded as the increase in rate and tension of right and left atria, inhibition of carbachol-induced contractions of ileum, relaxation of aortic spirals contracted with histamine, inhibition of transmurally stimulated vas deferens and relaxation of tracheal spirals and lung strips with intrinsic tone. The atria exhibited supersensitivity after reserpine pretreatment (s.c. and i.p.) as a leftwards shift of the isoproterenol concentration-response curve and elevation of the prenalterol maximum response. The ileum was also supersensitive, but only when tissues from animals receiving i.p. reserpine were compared with shams, which themselves were subsensitive or when reserpine was administered s.c. The trachea was also supersensitive, but not the aorta, lung and vas deferens, the responses of which are mediated via beta-2 adrenoceptors. In contrast, beta-1 adrenoceptors are involved in the atrial, ileal and tracheal responses. Therefore, only responses mediated via beta-1 adrenoceptors exhibited reserpine-induced supersensitivity which supports the hypothesis that beta-1 but not beta-2 adrenoceptors receive a sympathetic innervation.     

Specialization in beta-1 and beta-2 adrenoceptor distribution in veins of the rabbit face: relationship to myogenic tone and sympathetic nerve innervation

Studies were performed on several superficial veins from the rabbit face to examine the relationship between beta adrenoceptor subtype distribution, intrinsic myogenic tone and sympathetic nerve innervation. Experiments using selective beta adrenoceptor agonists and antagonists indicate that the dorsal nasal and angularis oculi veins possess a homogeneous population of beta-2 adrenoceptors. Sympathetic nerve stimulation in these segments results only in contraction mediated through postjunctional alpha adrenoceptors. These segments are devoid of intrinsic myogenic tone. In the facial vein, of which both veins are tributaries, both beta-1 and beta-2 adrenoceptors are found. Studies with the beta-1 adrenoceptor antagonist, betaxolol, and beta-2 adrenoceptor antagonist, ICI 118,551, indicate that the prominent relaxation observed in this tissue to sympathetic nerve stimulation is mediated through postjunctional beta-1 adrenoceptors. At physiological temperatures, the facial vein possesses a marked intrinsic myogenic tone that is inhibited by this beta-1 adrenoceptor-mediated sympathetic activity. Considering the anatomical relationship between these vessels and the unique association between beta adrenoceptor subtype, intrinsic myogenic tone and sympathetic innervation, it is possible that facial blood redistribution in the rabbit can be markedly affected by sympathetic nerve stimulation. Such a process could have an important role in cranial thermoregulation.     

A beta adrenoceptor with atypical characteristics is involved in the relaxation of the rat small intestine

In several studies in guinea pig ileum or rat colon a beta adrenoceptor with characteristics distinct from beta-1 or beta-2 receptors has been observed and has been denoted as "atypical" beta adrenoceptor. In this study the relaxation of the rat small intestine was investigated, using isolated segments of the rat jejunum. Several beta-1 or beta-2 agonists and antagonists were tested on the rat jejunum preparation, and it was found that nonselective and selective antagonists for beta-1 or beta-2 receptors showed a relatively low affinity, compared to their affinity for beta-1 or beta-2 receptors. BRL 37344, an agonist which has been reported to be selective for the atypical beta adrenoceptor, was more potent although a partial agonist compared to isoprenaline, whereas it is clearly less active than isoprenaline on beta-1 or beta-2 receptors. These findings indicate that beta adrenergic relaxation of the rat small intestine is mediated via atypical beta adrenoceptors. Efforts were made to confirm these findings with binding studies on small intestinal 45,000-g membranes. Competition radioligand binding experiments were performed with the radiolabeled ligand [125I]iodocyanopindolol and the various antagonists which were also tested in the intact rat jejunum preparations. Receptor binding experiments only revealed beta adrenoceptors of the beta-2-subtype, which does not correspond with the results obtained in the jejunum relaxation. Probably the beta-2 receptors found in the binding studies are located on circular smooth muscle cells or on epithelial cells, whereas longitudinal smooth relaxation is mediated by atypical beta adrenoceptors. Atypical beta adrenoceptors were not measured in binding studies probably because [125I]iodocyanopindolol is an unsuitable ligand to label atypical intestinal beta adrenoceptors.     

Adrenoceptor blocking properties of the stereoisomers of amosulalol (YM-09538) and the corresponding desoxy derivative (YM-11133)

The antagonist potencies of amosulalol (YM-09538), its stereoisomers and the corresponding desoxy derivative (YM-11133) have been compared at alpha-1, alpha-2, beta-1 and beta-2 adrenoceptors in isolated organs in vitro and in radioligand binding experiments. In isolated peripheral tissues, (+/-)-, (-)- and (+)-amosulalol and YM-11133 are selective alpha-1 adrenoceptor antagonists over alpha-2 adrenoceptors by two orders of magnitude and are nonselective beta adrenoceptor antagonists. (+)-Amosulalol and YM-11133 were 14 and 9.3 times more potent than (-)-amosulalol as alpha-1 adrenoceptor antagonists but approximately 50 and 40 times less potent antagonists at beta adrenoceptors than (-)-amosulalol, respectively. The adrenoceptor blocking profile of the racemate is approximately 2-fold less potent than that of the (+)-isomer at alpha and that of the (-)-isomer at beta adrenoceptors. The affinities of (+/)-, (-)- and (+)-amosulalol and YM-11133 obtained from radioligand binding experiments (pKi) using rat brain membrane correlated well with those obtained from in vitro experiments (pA2) at alpha-1 (r = 0.884), alpha-2 (r = 0.977), beta-1 (r = 0.993) and beta-2 (r = 0.971) adrenoceptors. These results indicate that the stereochemical requirements of alpha and beta adrenoceptors differ for the stereoisomers of amosulalol with the alpha adrenoceptor subtypes favoring the (+)-isomer and the desoxy form and the beta subtypes favoring the (-)-isomer.     

Interactions of epinephrine, norepinephrine, dopamine and their corresponding alpha-methyl-substituted derivatives with alpha and beta adrenoceptors in the pithed rat

The effects of alpha-methyl substitution of epinephrine, norepinephrine and dopamine were investigated at alpha-1, alpha-2, beta-1 and beta-2 adrenoceptors in the pithed rat. alpha-Methyl substitution of these three phenethylamines variably altered their capacity to elicit alpha adrenoceptor-mediated vasoconstriction, with slightly enhanced potency being observed for alpha-methyl substitution of norepinephrine and dopamine and a marked reduction in potency for alpha-methyl substitution of epinephrine. However, in all instances, alpha-methyl substitution resulted in a higher selectivity for alpha-2 adrenoceptors (over alpha-1 adrenoceptors). Thus, while epinephrine, norepinephrine and dopamine all produced vasoconstriction that was mediated equally by postsynaptic vascular alpha-1 and alpha-2 adrenoceptors, their corresponding alpha-methyl-substituted derivatives produced vasoconstriction exclusively by activation of postsynaptic vascular alpha-2 adrenoceptors. The beta-1 adrenoceptor-mediated chronotropic effects of these phenethylamines were inconsistently affected by alpha-methyl substitution, with an increase in potency being observed for alpha-methyl substitution of norepinephrine and decreases in potency being observed for alpha-methyl substitution of epinephrine and dopamine. In marked contrast, alpha-methyl substitution of epinephrine, norepinephrine and dopamine was associated with consistent and dramatic increases in potency for beta-2 adrenoceptor-mediated vasodepressor activity. These results indicate that alpha-2 and beta-2 adrenoceptors possess the unique ability to recognize and/or accept alpha-methyl substituents on phenethylamines and that this ability is not shared by their respective receptor subtypes, the alpha-1 and beta-1 adrenoceptors. Furthermore, the results show that alpha-methylepinephrine is a potent beta adrenoceptor agonist, with an apparent 500-fold selectivity for beta-2 adrenoceptors over beta-1 adrenoceptors.     

A study designed to explore the hypothesis that beta-1 adrenoceptors are "innervated" receptors and beta-2 adrenoceptors are "hormonal" receptors

It has been demonstrated that the chronotropic responses to sympathomimetic amines in rat atria were mediated only by beta-1 adrenoceptors. This was like guinea pig (beta-1) but unlike cat (beta-1 and beta-2). Extraneuronal uptake of isoproterenol into rat atrial myocardial cells was detected by fluorescence histochemistry but uptake was less than was seen in cat atria. Furthermore, it did not modulate responses of rat atrial preparations to isoproterenol. The lack of specific extraneuronal uptake in guinea-pig atrial myocardial cells was confirmed. Collation of data on the atria of these three species with data already available on guinea-pig trachea allowed the following conclusions. All four tissues contained a population of beta-1 adrenoceptors and were adrenergically innervated. Beta-2 adrenoceptors were present in cat atria and guinea-pig trachea and these tissues possessed a functionally effective extraneuronal metabolizing system for catecholamines. Beta-2 adrenoceptors were not detected in guinea-pig or rat atria and in these tissues extraneuronal uptake was either absent (guinea pig) or not functionally effective (rat). It is suggested that these data could support the hypotheses that 1) beta-1 adrenoceptors are "innervated" receptors mediating responses to neuronally released norepinephrine, whereas beta-2 adrenoceptors are "hormonal" receptors mediating responses to circulating epinephrine and 2) extraneuronal metabolizing systems are of particular importance in the dissipation of circulating catecholamines acting on beta-2 adrenoceptors.