Effect of varying concentrations of linoleic acid on alpha-adrenoceptor responses in spontaneously hypertensive rats

The effect of increased intake of linoleic acid on the alpha-adrenergic system was assessed by safflower oil supplementation to spontaneously hypertensive rats. Linoleic acid-enriched intake at 5%, 15% and 30% by weight of total food intake for 12 wk was associated with a reduction in resting arterial blood pressure, while heart rate and heart to body weight ratios were similar to control group values. A dose-response analysis to norepinephrine bitartrate administered intravenously indicated a significant reduction in the vascular reactivity to this alpha-adrenergic agonist in all groups given linoleic acid. Direct assessment of alpha-adrenoceptor number (Bmax) and affinity (KD) in cardiac sarcolemma with [3H]-prazosin indicated that receptor binding properties were not affected by linoleic acid intake. Our results suggest that short-term linoleic acid supplementation in the established hypertensive state may lower blood pressure through effects upon alpha-adrenergic reactivity in vascular tissue, without associated effects in cardiac tissue.     

Ontogeny of alpha 1- and beta-adrenergic receptors in rat lung

The binding characteristics of the alpha 1-selective adrenergic ligand [3H]-prazosin were determined in particulate membranes of rat lung from day 18 of gestation to adulthood. Specific binding was present at all ages studied, was reversible and inhibition of specific binding by agonists followed the order of potency: (-)-epinephrine = (-)-norepinephrine much greater than (-)-isoproterenol greater than (+)-norepinephrine. Inhibition by antagonists followed the order of potency: prazosin greater than WB4101, much greater than yohimbine. Binding capacity increased during the neonatal period from 52 +/- 9 fmoles x mg-1 protein in lung preparations on day 18 of a 21 day gestation increasing to 105 +/- 4 fmoles x mg-1 protein (mean +/- SE) by postnatal day 15. Binding activity decreased thereafter, reaching adult levels by 28 days of postnatal age, 62 +/- 3 fmoles x mg-1 protein. This pattern of alpha 1-adrenergic receptor density was distinct from that of beta-adrenergic receptors identified in rat lung membrane with the beta- adrenergic antagonist, (-)-[3H]dihydroalprenolol ((-)-[3H]DHA). (-)-[3H]DHA binding increased dramatically during this same time period, from 46 +/- 4 fmoles x mg-1 protein on day 18 of gestation to 496 +/- 44 fmoles x mg-1 protein in the adult lung. Affinity for [3H]-prazosin and (-)-[3H]DHA did not change with age. Pulmonary alpha 1-adrenergic receptors are present as early as 18 days of gestation in the rat and alpha 1-adrenergic receptor density is maximal by 15 days of postnatal age. The timing of the changes in alpha 1-adrenergic receptors correlates with the timing of increased sympathetic innervation of the developing rat lung and is distinct from that of beta-adrenergic receptor sites.     

Multiple binding sites for [3H]clonidine and [3H]WB-4101 in rat brain

Binding of the alpha-adrenergic agonist [3H]clonidine and the alpha-adrenergic antagonist [3H]WB-4101 exhibited multiple binding site characteristics in both rat frontal cortex and cerebellum. Kinetic analysis of the dissociation of both radioligands in rat frontal cortex suggests two high affinity sites for each ligand. Competition of various noradrenergic agonists and antagonists for [3H]WB-4101 binding yielded shallow competition curves, with Hill coefficients ranging from 0.45 to 0.7. This further suggests multiplicity in [3H]WB-4101 binding. In the rat cerebellum, competition of various noradrenergic drugs for [3H]clonidine binding yielded biphasic competition curves. Furthermore Scatchard analysis of [3H]clonidine binding in rat cerebellum showed two high affinity sites with KD = 0.5 nM and 1.9 nM, respectively. Competition of various noradrenergic drugs for [3H]WB-4101 binding in the rat cerebellum yielded biphasic competition curves. Lesioning of the dorsal bundle with 6-hydroxydopamine did not significantly affect the binding of either [3H]clonidine or [3H]WB-4101. These findings for both [3H]clonidine and [3H]WB-4101 binding in rat frontal cortex and cerebellum can be explained by the existence of postsynaptic binding sites for both 3H ligands.     

Mechanism of vascular relaxation by thaligrisine: functional and binding assays

In the present study we examine the mechanism by which thaligrisine, a bisbenzyltetrahydroisoquinoline alkaloid, inhibits the contractile response of vascular smooth muscle. The work includes functional studies on rat isolated aorta and tail artery precontracted with noradrenaline or KCl. In other experiments rat aorta was precontracted by caffeine in the presence or absence of extracellular Ca2+. In order to assess whether thaligrisine interacts directly with calcium channel binding sites or with alpha-adrenoceptors we examined the effect of the alkaloid on [3H]-(+)-cis diltiazem, [3H]-nitrendipine and [3H]-prazosin binding to cerebral cortical membranes. The functional studies showed that the alkaloid inhibited in a concentration-dependent manner the contractile response induced by depolarization in rat aorta (IC50 = 8.9+/-2.9 microM, n=5) and in tail artery (IC50 = 3.04+/-0.3 microM, n=6) or noradrenaline induced contraction in rat aorta (IC50 = 23.0+/-0.39 microM, n=9) and in tail artery (IC50 = 3.8+/-0.9 microM, n=7). In rat aorta, thaligrisine concentration-dependently inhibited noradrenaline-induced contraction in Ca2+-free solution (IC50 = 13.3 microM, n=18). The alkaloid also relaxed the spontaneous contractile response elicited by extracellular calcium after depletion of noradrenaline-sensitive intracellular stores (IC50 = 7.7 microM, n=4). The radioligand receptor-binding study showed that thaligrisine has higher affinity for [3H]-prazosin than for [3H]-(+)-cis-diltiazem binding sites, with Ki values of 0.048+/-0.007 microM and 1.5+/-1.1 microM respectively. [3H]-nitrendipine binding was not affected by thaligrisine. The present work provides evidence that thaligrisine shows higher affinity for [3H]-prazosin binding site than [3H]-(+)-cis-diltiazem binding sites, in contrast with tetrandrine and isotetrandrine that present similar affinity for both receptors. In functional studies thaligrisine, acted as an alpha1-adrenoceptor antagonist and as a Ca2+ channel blocker, relaxing noradrenaline or KCl-induced contractions in vascular smooth muscle. This compound specifically inhibits the refilling of internal Ca2+-stores sensitive to noradrenaline, by blocking Ca2+-entry through voltage-dependent Ca2+-channels.     

Beta-adrenergic binding is increased by melatonin and alpha-adrenergic compounds

Binding of the beta-adrenergic ligands [3H]dihydroalprenolol and [125I]cyanopindolol to pineal particulate fractions was increased 1- to 3.5-fold by addition of low concentrations of melatonin, alpha-adrenergic agonists, or alpha-adrenergic antagonists. Minimum concentrations of melatonin or alpha-adrenergic compounds which increased beta-adrenergic binding were between 1 pM and 0.1 nM. The increased binding of [3H]dihydroalprenolol caused by melatonin (0.1 muM) was attributed to a major increase in Bmax, which persisted in protein fractions after removal of melatonin. Melatonin enhancement of [3H]dihydroalprenolol binding was apparent after 5 to 7 min (30(0], was was optimal between 20 and 40 min, and decreased at longer times. Alpha-Adrenergic receptors are unchanged during beta-receptor enhancement.     

Hepatic alpha-adrenoreceptor: specific and irreversible labeling by [3H]-phenoxybenzamine.

The binding of [³H]-phenoxybenzamine, a potent irreversible alpha-adrenergic antagonist, to alpha-adrenergic binding sites in rat liver plasma membranes was a saturable process with a number of binding sites of 1600 fmol/mg of membrane protein. No significant dissociation of this ligand occurred after dilution for 2 hours, or repeated washing of the labeled membranes. The specificity of the binding site was characterized by an order of potency of various drugs typical for an alpha-adrenergic receptor. Binding showed strict stereospecificity since R(+)phenoxybenzamine exhibited a two order of magnitude higher affinity than its S(?)isomer. A SH group was involved in the binding of both [³H]-phenoxybenzamine and [³H]-dihydroergocryptine to alpha-receptor. It appears therefore that [³H]-phenoxybenzamine binds irreversibly and specifically to the alpha-adrenoreceptor and that it might prove adequate in the solubilization and purification of the alpha-adrenoreceptor.     

Ontogenic development of alpha-adrenergic receptors and responsiveness in white adipocytes.

The influence of age on adipocyte alpha-adrenergic receptors was studied by using the binding of [3H]dihydroergocryptine to crude adipocyte membranes from hamsters of different ages (1-10 months). The number of alpha-receptor sites was found to increase with increasing age, but in contrast, their binding affinity remained unchanged. These changes in receptor concentrations, which were not related to cell-size differences, were also accompanied by parallel variations of the alpha-adrenergic responsiveness of the fat-cells.     

Characterization of alpha 2-adrenergic receptors in human platelets by binding of a radioactive ligand [3H]yohimbine

[3H]Yohimbine, a potent alpha 2-adrenergic antagonist, was used to label the alpha-adrenergic receptors in membranes isolated from human platelets. Binding of [3H]yohimbine to platelet membranes appears to have all the characteristics of binding to alpha-adrenergic receptors. Binding reached a steady state in 2-3 min at 37 degrees C and was completely reversible upon the addition of excess phentolamine or yohimbine (both at 10(-5) M; t1/2 = 2.37 min). [3H]Yohimbine bound to a single class of noncooperative sites with a dissociation constant of 1.74 nM. At saturation, the total number of binding sites was calculated to be 191 fmol/mg protein. [3H]Yohimbine binding was stereo-specifically inhibited by epinephrine: the (-) isomer was 11-times more potent that the (+) isomer. Catecholamine agonists competed for the occupancy of the [3H]yohimbine-binding sites with an order of potency: clonidine greater than (-)-epinephrine greater than (-)-norepinephrine much greater than (-)-isoproterenol. The potent alpha-adrenergic antagonist, phentolamine, competed for the sites whereas the beta-antagonist, (+/-)-propranolol, was very weak inhibitor. 0.1 mM GTP reduced the binding affinity of the agonists, while producing no change in antagonist-binding affinity. Dopamine and serotonin competed only at very high concentrations. Similarly, muscarinic cholinergic ligands were also poor inhibitors of [3H]yohimbine binding. These results suggest that [3H]yohimbine binding to hunan platelet membranes is specific, rapid, saturable, reversible and, therefore, can be successfully used to label alpha 2-adrenergic receptors.     

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.     

Alpha-1 adrenergic receptor number and receptor density in isolated hepatocytes from foetal, juvenile and adult rats.

Alpha-1 adrenergic receptor number was defined by [3H]-prazosin binding in crude membrane preparations of hepatocytes and in intact hepatocytes isolated from foetal (day 22 of gestation), juvenile (12 days old), adult female and adult male (90-150 days old) rats and compared with the alpha-1 adrenergic response (measured by epinephrine stimulated glucose liberation in presence of the beta-antagonist propranolol). The alpha-1 receptor number (expressed as fmol bound [3H]-prazosin/mg membrane protein or as receptor number/cell) increases in an age-dependent fashion reaching the highest values in hepatocytes of adult female and male rats. Statistically significant differences could be found between foetal, juvenile and adult rat hepatocytes. No differences in [3H]-prazosin binding were observed between hepatocytes of adult female and adult male rats. The receptor density (expressed as receptor number/microns 2 cell surface), however, was found to be equal in juvenile and adult rats. There are no differences of alpha-1 adrenergic response in juvenile, adult female and adult male rat hepatocytes, whereas the values in foetal hepatocytes were significantly lower. So the biological response is closely correlated with the receptor density and not with the receptor number per cell.     

Biochemical characterization of alpha-adrenergic receptors in human brain and changes in Alzheimer-type dementia

Using ligand binding techniques, we studied alpha-adrenergic receptors in brains obtained at autopsy from seven histologically normal controls and seven patients with histopathologically verified Alzheimer-type dementia (ATD). Binding of the alpha-adrenergic antagonists [3H]prazosin and [3H]yohimbine to membranes of human brains exhibited characteristics compatible with alpha 1- and alpha 2-adrenergic receptors, respectively. Binding of both ligands was saturable and reversible, with dissociation constants of 0.15 nM for [3H]prazosin and 5.5 nM for [3H]yohimbine. [3H]Prazosin binding was highest in the hippocampus and frontal cortex and lowest in the caudate and putamen in the control brains. [3H]Yohimbine binding was highest in the nucleus basalis of Meynert (NbM) and frontal cortex and lowest in the caudate and cerebellar hemisphere in the control brains. Compared with values for the controls, [3H]prazosin binding sites were significantly reduced in number in the hippocampus and cerebellar hemisphere, and [3H]yohimbine binding sites were significantly reduced in number in the NbM in the ATD brains. These results suggest that alpha 1- and alpha 2-adrenergic receptors are present in the human brain and that there are significant changes in numbers of both receptors in selected regions in patients with ATD.     

Halogenated derivatives of boldine with high selectivity for alpha1A-adrenoceptors in rat cerebral cortex

The selectivity of 3-nitrosoboldine and different halogenated derivatives of boldine (3-bromoboldine, 3,8-dibromoboldine and 3-chloroboldine) for alpha1-adrenoceptor subtypes was studied by examining [3H]-prazosin competition binding in rat cerebral cortex. In the competition experiments [3H]-prazosin binding was inhibited completely by all the compounds tested. The inhibition curves displayed shallow slopes which could be subdivided into high and low affinity components. The relative order of affinity and selectivity for alpha1A-adrenoceptors was 3-bromoboldine = 3,8-dibromoboldine = 3-chloroboldine > boldine > 3-nitrosoboldine. The competition curves for 3-bromoboldine remained shallow and biphasic following chloroethylclonidine treatment. Whereas the relative contribution of the high affinity sites increased, the 3-bromoboldine affinities at its high and low affinity sites remained similar to those obtained in untreated membranes. 3-Bromoboldine, 3,8-dibromoboldine, 3-chloroboldine and 3-nitrosoboldine did not significantly displace [3H]-(+)-cis-diltiazem binding to rat cerebral cortex membranes. This activity was lower than that shown by boldine. Compared to boldine, halogen (bromine or chlorine) substitution at position 3 increases the alpha1A-adrenoceptor subtype selectivity and decreases the affinity for the benzothiazepine binding site at the calcium channel. Further halogen substitution at position 8 did not significantly improve this activity with respect to 3-bromoboldine. In contrast, the NO substitution at position 3 of boldine (3-nitrosoboldine) gives a loss of affinity and selectivity for alpha1-adrenoceptor subtypes.     

Characterization by [3H]Dihydroergocryptine Binding of Alpha-Adrenergic Receptors in Neuroblastoma × Glioma Hybrid Cells

[3H]Dihydroergocryptine ([3H]DHE) was shown to bind to sites in membranes from neuroblastoma X glioma hybrid cells (NG 108-15) that had the characteristics expected of alpha-adrenergic receptors. The binding was saturable with 0.3 pmol [3H]DHE bound per mg of protein and of high affinity, with an apparent dissociation constant (KD) of 1.8 nM. The specificity of the binding site for various ligands was more similar to that of alpha 2 receptors than to that of alpha 1. No specific binding of [3H]WB-4101 was found in the membranes derived from NG 108 cells. This finding also indicated that the [3H]DHE binding site in the cell is the alpha 2 receptor. GTP lowered the affinity of agonists for the [3H]DHE binding site, although the nucleotide hardly affected the affinity of antagonists including [3H]DHE.     

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 dog platelet alpha-adrenergic receptor: lack of in vivo down regulation by adrenergic agonist treatments

The dog platelet alpha-adrenergic receptor was characterized using [3H]clonidine and [3H]yohimbine. The binding of both radioligands was rapid and reversible at 25 degrees C; saturation and kinetic experiments revealed a single population of binding sites. The number of [3H]yohimbine sites was 2-3-fold higher than the number of [3H]clonidine sites as reported in other tissues containing alpha2-adrenoceptors. The various alpha-agonists and antagonists displaced [3H]clonidine and [3H]yohimbine with an order of potency indicating alpha2-adrenoceptor specificity. Neither (-)adrenaline nor clonidine infusions (0.5 micrograms/min/kg during 3 hr) modified the number of [3H]yohimbine and [3H]clonidine sites or the affinity of the ligands for the alpha2-sites of the dog platelet. Oral administration of clonidine (3 X 150 micrograms/day) did not alter the binding parameters of either ligand.     

Autoradiographic visualization of alpha 1-adrenergic receptors in cervix of early pregnant rat

alpha 1-Adrenergic receptors were identified, characterized, and localized in rat cervix on Day 6 of pregnancy by autoradiography. Autoradiographic study was performed in slide-mounted rat cervix sections using [3H]-prazosin ([3H]-PRAZ) as ligand. Binding was time dependent and specific. Pharmacological study indicated that specific [3H]-PRAZ binding was inhibited with high affinity by prazosin and phenylephrine and low affinity by yohimbine and clonidine. In cervix, the alpha 1-adrenergic receptors were localized mainly to the inner circular layer of the myometrium. Binding to the outer longitudinal layer of myometrium was moderate, and binding was absent in the endometrium. The regional distribution of alpha 1-adrenergic receptors strongly suggests that the circular layer of myometrium may function as an important modulator of contractile response of the cervix, probably involved in the retention of blastocysts at the utero-cervical end of the horn.     

Do catecholestrogens interact with the in vitro binding of radioligands to catecholamine receptors?

Using a competitive binding assay the effects of 2-hydroxyestradiol-17 beta, 4-hydroxyestradiol-17 beta, estradiol-17 beta and progesterone on the binding of tritiated catecholaminergic ligands to membrane preparations from rat brain and pituitary gland were studied. Up to a concentration of 10(-5) M none of the steroids tested was able to displace [3H]spiroperidol, [3H]dihydroergocryptine or [3H]dihydroalprenolol. The data suggest that the catecholestrogens do not interfere directly with the binding of catecholaminergic ligands to dopaminergic, alpha-adrenergic or beta-adrenergic receptors in the central nervous system. The view that a catechol structure is not essential for the interaction with dopaminergic receptors was further supported by the results obtained from additional studies on the competition of O-methylated and deaminated dopamine metabolites with [3H]spiroperidol binding.     

Pharmacological Characterization of Cholinergic Receptors in a Human Neuroblastoma Cell Line

A human neuroblastoma cell line, IMR32, has been characterized as far as morphology, membrane receptors for neurotransmitters, and uptake and release of [3H]3,4-dihydroxyphenylethylamine ([3H]dopamine). These cells expressed at their surface both nicotinic and muscarinic cholinergic receptors, revealed by [125I]alpha-bungarotoxin and [3H]quinuclidinylbenzilate ([3H]QNB) binding, respectively. [125I]alpha-Bungarotoxin binding was efficiently inhibited by alpha-bungarotoxin, nicotine, carbachol, and d-tubocurarine. [3H]QNB binding was competitively inhibited by atropine, pirenzepine, and carbachol. Hexamethonium did not affect the binding of either ligand. In competition experiments with [3H]QNB, pirenzepine recognized only one binding site with "low affinity," and carbachol recognized two sites with different affinities. beta-adrenergic receptors were present in a very low amount, whereas alpha-adrenergic and dopaminergic receptors were not detectable. IMR32 cells had an imipramine-sensitive [3H]dopamine uptake, but carbachol, high levels of K+, the calcium ionophore A23187, and alpha-latrotoxin were not able to induce release of [3H]dopamine that had been taken up. The ultrastructural analysis showed that IMR32 cells contained very few dense-core vesicles, suggesting a low storage capacity for neurotransmitter. These cells could be an useful in vitro model for studying neurotransmitter receptors of the human CNS.     

3H]Spiroperidol Binding in Rat Striatum: Two High-Affinity Sites of Differing Selectivities

[3H]Spiroperidol binding to homogenates of rat striatum is saturable and shows either monophasic or biphasic saturation isotherms under specified conditions. In poorly washed membrane fragment preparations, saturation isotherms of [3H]spiroperidol binding are monophasic, revealing an apparently homogeneous set of sites with KD 0.6 +/- 0.3 nM and density 440 +/- 80 fmol/mg protein. However, equilibrium displacement studies of [3H]spiroperidol binding at this site indicate an alpha-adrenergic component in addition to the previously described dopaminergic component. In thoroughly washed membrane fragment preparations, saturation isotherms are clearly biphasic, showing an additional high-affinity site with an approximate KD of 24 +/- 10 pM and an approximate density of 110 +/- 20 fmol/mg protein at a protein concentration of 2.0 mg/ml. Selectivity at this site appears classically dopaminergic, suggesting that the lower affinity site is the primary source of the alpha-adrenergic component of spiroperidol binding.     

Binding and uptake of [3H]adrenaline by perfused rat liver.

The binding and uptake of [3H]adrenaline by the intact perfused rat liver was investigated. We showed that the administration of [3H]adrenaline to liver resulted in the rapid uptake of the radioligand, and that such uptake was independent of any Ca2+ redistributions induced by the hormone. At low adrenaline concentrations (less than 50 nM) uptake was inhibited by prazosin, whereas at higher hormone concentrations a significant proportion of total [3H]adrenaline uptake could not be inhibited by this antagonist. [3H]Adrenaline uptake could be directly correlated with adrenaline-induced responses such as an increased rate of respiration and glycogenolysis. The partial inhibition (approx. 25%) of [3H]adrenaline uptake by antagonists was sufficient for the total inhibition of hormone-induced responses. The effect of various pharmacological agents on [3H]adrenaline uptake was investigated, and the contribution of tissue-related factors to alpha-adrenergic agonist-antagonist interactions in vivo is discussed.