Analysis of the role of adrenergic receptors in the regulation of small intestine motor activity in sheep

In sheep with chronic fistulae of the small intestine and rumen the participation of alpha- and beta-adrenergic receptors in the regulation of the motor activity of the small intestine was studied by the method of pharmacological analysis. The movements of the fistulated parts of the alimentary tract were recorded by the balloon method. Slow intravenous infusion of isoprenaline inhibited the contractions of the small intestine. This inhibitory effect of isoprenaline was abolished by propranolol. Intravenous phenylephrine inhibited the motor activity of this intestinal part as well. The effect of phenylephrine was abolished by pretreatment with dihydroergotamine. In the small intestine of sheep stimulation of the alpha and beta adrenergic receptors decrease the motor activity of intestine.     

Receptor-mediated enhancement of beta adrenergic drug activity by ascorbate in vitro and in vivo

Rationale

Previous in vitro research demonstrated that ascorbate enhances potency and duration of activity of agonists binding to alpha 1 adrenergic and histamine receptors.

Objectives

Extending this work to beta 2 adrenergic systems in vitro and in vivo.

Methods

Ultraviolet spectroscopy was used to study ascorbate binding to adrenergic receptor preparations and peptides. Force transduction studies on acetylcholine-contracted trachealis preparations from pigs and guinea pigs measured the effect of ascorbate on relaxation due to submaximal doses of beta adrenergic agonists. The effect of inhaled albuterol with and without ascorbate was tested on horses with heaves and sheep with carbachol-induced bronchoconstriction.

Measurements

Binding constants for ascorbate binding to beta adrenergic receptor were derived from concentration-dependent spectral shifts. Dose- dependence curves were obtained for the relaxation of pre-contracted trachealis preparations due to beta agonists in the presence and absence of varied ascorbate. Tachyphylaxis and fade were also measured. Dose response curves were determined for the effect of albuterol plus-and-minus ascorbate on airway resistance in horses and sheep.

Main Results

Ascorbate binds to the beta 2 adrenergic receptor at physiological concentrations. The receptor recycles dehydroascorbate. Physiological and supra-physiological concentrations of ascorbate enhance submaximal epinephrine and isoproterenol relaxation of trachealis, producing a 3–10-fold increase in sensitivity, preventing tachyphylaxis, and reversing fade. In vivo, ascorbate improves albuterol''s effect on heaves and produces a 10-fold enhancement of albuterol activity in “asthmatic” sheep.

Conclusions

Ascorbate enhances beta-adrenergic activity via a novel receptor-mediated mechanism; increases potency and duration of beta adrenergic agonists effective in asthma and COPD; prevents tachyphylaxis; and reverses fade. These novel effects are probably caused by a novel mechanism involving phosphorylation of aminergic receptors and have clinical and drug-development applications.     

Beta adrenergic receptor repopulation of C6 glioma cells after irreversible blockade and down regulation

C6 glioma cells possess beta adrenergic receptors coupled with adenylate cyclase which can be irreversibly blocked by bromoacetylaminomethylpindolol (Br-AAM-pindolol), a beta adrenergic antagonist. With 1 microM Br-AAM-pindolol, more than 80% of beta adrenergic receptors, labeled by (3H)-dihydroalprenolol [3H)-DHA), were blocked. After this blockade, new beta adrenergic receptors were synthesized only during cell division. However, at cell confluency when the cell number was constant, turnover of beta adrenergic receptors was barely detectable. Cycloheximide (1 microgram/ml) inhibited cell growth as well as reappearance of beta adrenergic receptors. A 90% loss of beta adrenergic receptors in C6 glioma cells was obtained after down-regulation for 15 h with 10 microM isoproterenol, a beta adrenergic agonist. After removal of the agonist, recovery of beta-adrenergic-sensitive adenylate cyclase was complete within 2 to 3 days, whereas beta adrenergic receptors reached 90% of control value within 6 days. The half-life of the receptor recovery was 2 to 3 days. Pretreatment of C6 glioma cells by Br-AAM-pindolol and subsequent cell exposure to isoproterenol indicated that down regulation and recovery of unblocked beta adrenergic receptors did occur; however isoproterenol did not accelerate the biosynthesis of beta adrenergic receptors. The recovery of both biological response and beta adrenergic receptor occupancy was restored both in the presence or absence of cycloheximide (1 microgram/ml), a concentration which blocked 90% of protein synthesis. Our results suggest that reappearance of beta adrenergic receptors in C6 glioma cells, following isoproterenol-induced down regulation, was not due to synthesis of new receptors but to recycling of the beta adrenergic receptors.     

Activation of alpha-1 adrenergic receptors modulates the control of left/right sidedness in rat embryos.

Presomite stage rat embryos were cultured for 45-49 hr with medium containing various adrenergic agonists and antagonists. L-Norepinephrine but not D-norepinephrine (several orders of magnitude less potent than the L-isomer at alpha-1 adrenergic receptors) resulted in a dose-dependent increase of situs inversus similar to that found for phenylephrine, an alpha-1 adrenergic agonist. Prazosin, an alpha-1 adrenergic antagonist, inhibited phenylephrine-induced situs inversus in a dose-dependent manner. Neither dexmedetomidine, an alpha-2 adrenergic agonist, nor isoproterenol, a beta adrenergic agonist, caused situs inversus. These results provide pharmacological evidence that stimulation of alpha-1 but not of alpha-2 and beta adrenergic receptors modulates the control of left/right sidedness in rat embryos.     

Influence of alpha and beta adrenergic receptors blockade on the adrenolytic effect of muscular work

The changes in the response of adrenergic receptors alpha and beta in the blood vessels in the working muscles in a hindlimb in cats were studied after intra-arterial administration of noradrenaline, isoprenaline and during electric stimulation of the sympathetic trunk. The experiments were carried out during alpha-adrenergic receptors blockade with dihydroergotamine (0.3 mg/kg) beta-adrenergic receptors blockade with propranolol (1 mg/kg) and blockade of acetylcholine M receptors with atropine (0.5 mg/kg). The investigations were performed at rest, during exercise (electric stimulation of the sciatic nerve) and after the exercise. The following results deserve attention: 1) beta-adrenergic receptors blockade reduced significantly the alpha-adrenolytic effect of exercise restoring the ability of blood vessel to constriction in response to noradrenaline; 2) the vasodilator effect of isoprenaline evident in resting state and maintained to some extent during exercise was abolished completely by preceding alpha-adrenergic blockade. The changes in the reactivity of resistance vessels in working skeletal muscles to noradrenaline, with abolition of its vasoconstrictor effect, have been shown by Rein [7] and others authors [2, 5]. Similarly, it is well known that the resistance vessels contain two types of adrenergic receptors alpha and beta, and that the response of the vessels to stimulation of these receptors are different [1]. In view of the recently published observations of Jarhult and Lundvall suggesting that the beta-adrenergic receptors play an important physiological role [6] in the arterial part of the microcirculation [6] and in view of the hypothesis put forward by Kunos and Szentivanyj that alpha and beta receptors can be transformed depending on the intensity of tissue metabolism [8] it seemed worth while to study more systematically the changes of the reactivity of alpha and beta adrenergic receptors in the vascular bed of the skeletal muscles during and after muscle exercise.     

Selective metabolic effects of salbutamol in anesthetized cats.

Salbutamol was found to produce a selective stimulation of beta adrenergic receptors mediating metabolic responses in anesthesized cats. Salbutamol was infused intravenously at a rate of 1 μg/Kg/min; this agent produced a significant decrease in diastolic blood pressure and concomitantly increased blood glucose and lactate while decreasing plasma potassium. Salbutamol did not elevate plasma free fatty acids. In contrast to salbutamol, comparable infusions of isoproterenol produced all cardiovascular and metabolic effects non-selectively. The cardiovascular and metabolic effects of salbutamol were blocked by oxprenolol, a beta adrenergic receptor antagonist. The apparent selectivity of action of salbutamol suggests that metabolic beta adrenergic receptors are heterogeneous and can be differentiated into at least two separate types.     

Human cardiac beta-adrenergic receptors: subtype heterogeneity delineated by direct radioligand binding

Human myocardial beta-adrenergic receptors were directly identified and characterized using the high affinity antagonist radioligand [125I]iodocyanopindolol. Beta 1 and beta 2 adrenergic receptors were found to coexist in both the left ventricle and right atrium. The relative proportions of the two receptor subtypes were determined by the use of competition radioligand binding and computer modelling techniques employing the subtype selective agents atenolol (beta 1 selective) and zinterol (beta 2 selective). The left ventricle contains 86 +/- 1% beta 1 and 14 +/- 1% beta 2 adrenergic receptors while the right atrium contains 74 +/- 6% beta 1 and 26 +/- 6% beta 2 adrenergic receptors. The direct demonstration of beta 2 adrenergic receptors in the human heart, with a higher proportion in the right atrium agrees with pharmacologic data and supports the notion that chronotropic effects of adrenergic agonists in man may be mediated by both beta 1 and beta 2 adrenergic receptors.     

Physiological Color Changes in Reptiles

SYNOPSIS. The physiological regulation of color changes in reptilesas studied in the lizard, Anolis carolinensis, is discussed.In Anolis, the ability to adapt to a background is dependentupon the level of circulating MSH, therelease of which is dependenton information received through the eyes. Blinded (or intact)lizards are brown under conditions of strong illumination andgreen under conditions of lower light intensities, and, again,these color changes are regulated by MSH. According to Kleinholz,color changes in the blinded lizard are regulated by dermalphotoreceptors. High or low temperatures directly affect thecolor of Anolis skins and alter the rate at which skins respondto hormones. Aggregationof melanin granules within Anolis melanophoresin response to sympathomimetic stimulation is regulated throughalpha adrenergic receptors whereas dispersion of melanin granulesin response to such stimulation is controlled through beta adrenergicreceptorspossessed by the melanophores. Most Anolis melanophores possessboth alpha and beta adrenergic receptors, but some melanophorespossess only beta adrenergic receptors. In the normal physiologyof the lizard, under conditions of stress, stimulation of alphaadrenergic receptors by catecholamines leads to an "excitement—pallor"followedby an "excitement—darkening" resulting from stimulationof beta adrenergic receptors which causes dispersion of melaningranules within localized populations of melanophores. Thus,in Anolis, dispersion of melanin granules within melanophoresis regulated by both MSH and by catecholamines. Evidence ispresented that the intracellular level of cyclic 3', 5'-AMPwithin melanophores may be responsible for the regulation ofmovement of melanin granules.     

Comparison of rat and human left ventricle beta-adrenergic receptors: subtype heterogeneity delineated by direct radioligand binding

Beta adrenergic receptors were identified in rat myocardial left ventricle and human papillary muscle by using the antagonist radioligand 3H-dihydroalprenolol. The number (37.3 and 44.5 fmol/mg of protein, respectively in rat and man), and the KD (1.6 and 2.8 nM, respectively in rat and man) of beta receptors were not significantly different. Adrenergic receptors of both beta 1 and beta 2 subtypes were found to coexist in the left ventricle. The relative proportions of the two beta receptor subtypes were determined by the use of competition radioligand selective binding and computer modelling techniques employing the subtype selective antagonists ICI 118,551 (beta 2 selective) and atenolol (beta 1 selective) in rat or metoprolol (beta 1 selective) in man. The rat left ventricle contained about 74% beta 1 and 26% beta 2 adrenergic receptors, human left ventricle papillary muscles contained about 69% beta 1 and 31% beta 2. Human and rat left ventricles contain both beta 1 and beta 2 adrenergic receptors with similar affinities. Rat might be a model for the study of human myocardial beta adrenergic receptors.     

The role of adrenergic receptors in the motility of duodenum and choledochoduodenal junction in the pig

The role of adenergic receptors in the motility of duodenum and choledochoduodenal junction in the pig. Acta Physiol. Pol., 1977, 28 (6): 521-528. The choldeochoduodenal junction in the Vietnamese pig is functionally and anatomically a part of duodenal wall. In view of this, investigations were carried out for establishing the role of adrenergic receptors in the development of motor function of this part of the intestinal tract. The experiments were performed on domestic Vietnamese pigs (Sus scrofa domestica) and they showed that after stimulation of alpha and beta adrenergic receptors the motor activity of the duodenal muscular coat and the choledochoduodenal junction is inhibited. The obtained results suggest similar reactions of the adrenergic receptors in both examined parts of the intestinal tract in the pig.     

High affinity binding of reovirus type 3 to cells that lack beta adrenergic receptor activity

A previous report demonstrated both immunological crossreactivity and structural similarity between the mammalian beta adrenergic receptor and the cell surface receptor for the reovirus type 3 (14). We now demonstrate that reovirus type 3 can bind selectively and with high affinity to cells that lack beta adrenergic receptor activity (L-cells). The present study was also designed to determine what effect reovirus binding has on beta adrenergic receptor function in cells (DDT1) that possess an intact ligand binding site. Based on computer analysis of reovirus competitive inhibition curves, the apparent dissociation binding constants (Kd) for reovirus binding to DDT1 and L-cells are 0.1 nM and 0.25 nM, respectively. High affinity [125I]-iodocyanopindolol (CYP) binding to beta adrenergic receptors can also be demonstrated in DDT1 cells but not in L-cells. In agreement with these ligand binding studies, adenylate cyclase activity is stimulated by the beta receptor agonist isoproterenol in DDT1 cell membranes but not in L-cell membranes. In addition, isoproterenol increases cAMP levels in DDT1 cells but not in L-cells. Neither reovirus serotype stimulates cAMP levels in either cell line, nor do they influence beta-adrenergic agonist stimulation of cAMP in DDT1 cells. These results argue against identity of the receptors for reovirus type 3 and beta adrenergic ligands.     

Thyroid hormone regulation of adrenergic receptors and beta-adrenergic responsiveness in the rat submandibular gland

The effects of altered thyroid function on the sensitivity of isoproterenol induced secretion of saliva and in the characteristics of adrenergic receptors from the rat submandibular gland were examined. Hyperthyroidism produced an increased sensitivity to beta-adrenergic stimulation of the gland, and this phenomenon was associated with an increase in the number of beta and alpha 1-adrenoceptors. On the other hand, surgical thyroidectomy produced a decrease sensitivity to isoproterenol stimulation of the submandibular gland and a diminished density of beta-adrenoceptors. In this case, no changes in alpha-adrenoceptors were observed. These results are discussed emphasizing the correlation between the functional control of saliva secretion and the adrenergic receptors in different thyroid states.     

Regulation of the glucose enhanced insulin pool

Exposure of islets to high levels of glucose at a critical time leads to enhanced insulin release when later stimulated by glucose. Newly synthesized insulin is preferentially released with subsequent stimulation, implying the creation or enlargement of a separately regulated pool of insulin in response to the initial stimulus. Epinephrine via beta adrenergic receptors can trigger the discharge of the enhanced insulin pool via a beta adrenergic receptor response. Raising intracellular cAMP levels or stimulation by arginine also discharge the marked pool. The enhanced pool is accessible by several independent mechanisms.     

Cadmium effects on ros production and DNA damage via adrenergic receptors stimulation: role of Na+/H+ exchanger and PKC

The objective of the present study was to elucidate the events that are involved in reactive oxygen species (ROS) production and DNA damage after adrenergic receptors stimulation by cadmium, in relation to cAMP, protein kinase C (PKC) and Na+/H+ exchanger (NHE). Cadmium (50 microM) caused increased levels of ROS with a concomitant increase in DNA damage in digestive gland of Mytilus galloprovincialis. Either the use of EIPA, a NHE blocker, or calphostin C, the inhibitor of PKC, reduced cadmium effects. Cells treated with alpha1-, alpha2-, beta- and beta1- adrenergic antagonists together with cadmium reversed cadmium alone effects, while the respective adrenergic agonists, phenylephrine and isoprenaline, mimic cadmium effects. Moreover, cadmium caused an increase in the levels of cAMP in digestive gland cells that were reversed after NHE and PKC inhibition as well as in the presence of each type of adrenergic antagonist. The different sensitivity of alpha1-, alpha2-, beta-, beta1- adrenergic receptors on ROS, cAMP production and DNA damage possibly leads to the induction of two signaling pathways that may be interacting or to the presence of a compensatory pathway that acts in concert with the alpha- and beta- adrenergic receptors. In these signaling pathways PKC and NHE play significant role.     

Effects of epinephrine on glucose-1,6-bisphosphate and carbohydrate metabolism in skin

1. Injection of epinephrine induced in skin a decrease in the level of glucose-1,6-bisphosphate (Glc-1,6-P2), which was accompanied by correlated changes in the activities of several enzymes which are modulated by this regulator. 2. These effects were blocked by the alpha adrenergic blocker phentolamine, in contrast to muscle where the hormone increases Glc-1,6-P2, acting through beta receptors. 3. The changes in the enzymes' activities, as well as in glycogen and lactate content induced by epinephrine, reveal that the hormone causes, in skin, a stimulation of glycogenolysis and glycolysis, as well as an acceleration of pentose phosphate pathway. 4. The reduction in glycogen content induced by epinephrine, was blocked by the beta adrenergic blocker propranolol, whereas the hormone's effects on the other processes were mainly mediated through alpha receptors.     

Absence of alpha-2 adrenergic effects on cAMP production in a genital tract smooth muscle cell line

This study sought to evaluate alpha-2 and beta adrenergic modulation of cAMP production in the DDT1 MF-2 transformed smooth muscle myocyte. After stimulation with forskolin or adrenergic agonists with or without subtype specific antagonists, cAMP production was determined. These experiments confirmed an increase of cAMP in response to forskolin, isoproterenol, epinephrine, and norepinephrine; the adrenergic stimulation was inhibited by propranolol. On the other hand, the alpha-2 agonist clonidine did not inhibit cAMP production. Likewise, alpha-2 receptor blockade did not increase cAMP production in response to epinephrine. These studies, therefore, suggest that the DDT1 MF-2 myocyte does not contain a significant population of functional alpha-2 adrenergic receptors.     

Serotonergic and noradrenergic receptors in the rat brain: modulation by chronic exposure to ovarian hormones

Noradrenergic (alpha 1 and beta) and serotonergic (5HT1 and 5HT2) receptors were assayed in the brains of ovariectomized female rats treated for 2 weeks with estrogen, progesterone or a combination of both hormones. Estrogen treatment resulted in a decrease in the number of 5HT1 and beta adrenergic receptors, with a concomitant increase in 5HT2 receptors. Progesterone alone caused a smaller increase in 5HT2 receptors, a similar decrease in 5HT1 and had no significant effect on noradrenergic receptors. When given with estrogen, progesterone blocked the estrogen effect on 5HT2 receptors but did not inhibit the estrogen-mediated decrease in 5HT1 and beta adrenergic receptors. alpha 1 adrenergic receptors were not affected by any of the hormone treatment paradigms. beta adrenergic and 5HT2 receptors are often implicated in antidepressant action, and the modulation of these two receptor types by ovarian hormones might be relevant to hormone-linked affective changes such as premenstrual tension and post-partum depression.     

Alpha adrenergic stimulation reduces cyclic adenosine 3',5'-monophosphate generation in rabbit myometrium by two mechanisms

Rabbit myometrium contains postsynaptic alpha-1, alpha-2, and beta-2 adrenoreceptors. The response to endogenous catecholamines depends on the summation of interactions at these receptors and is influenced by the hormonal environment. Estrogen treatment of ovariectomized rabbits increases the alpha adrenergic contractile response whereas progesterone treatment of estrogen primed animals results in a predominance of the beta adrenergic response, which is inhibition of contractions. Of the receptor subtypes, only the alpha-2 receptor concentration is increased at physiological estrogen concentrations. However, alpha-2 receptors have not been shown to be directly involved in myometrial contraction, which appears to be mediated solely by alpha-1 adrenergic interactions. To test whether alpha-2 receptors might indirectly affect contraction by opposing interactions at the beta receptor, we examined the ability of alpha adrenergic stimulation to reduce myometrial cyclic adenosine 3',5'-monophosphate (cAMP) generation. We find that alpha-2 receptors inhibit myometrial ade adenylate cyclase through the guanine nucleotide regulatory protein, Gi. In addition, we find that activation of alpha-1 receptors also reduces cAMP generation. This interaction, which can be demonstrated in the absence but not the presence of the phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine, does not appear to be mediated through Gi. These findings illustrate the complexity of adrenergic interactions in tissues containing several adrenergic subtypes.     

Calcium dependent aggregation of marine sponge cells is provoked by leukotriene B4 and inhibited by inhibitors of arachidonic acid oxidation

The mechanism of agonist-induced desensitization of the beta adrenergic receptor coupled adenylate cyclase has been studied in a smooth muscle cell line, BC3H-1, which expresses both alpha and beta adrenergic receptors and nicotinic receptors. beta receptors have been investigated in intact cells using as radioligand 3HCGP-12177, an hydrophilic compound which labels only surface receptors. The treatment of BC3H-1 cells with the agonist Isoproterenol, at 37 degrees but not at 4 degrees, induced a dose dependent internalization of the beta adrenergic receptor. Agonist-induced internalization was very rapid, in the order of few minutes. beta adrenergic receptor internalization was very specific: the alpha adrenergic agonist Phenylefrine had almost no effect on beta receptor levels, while Isoproterenol treatment had no effect on the number of alpha adrenergic or nicotinic receptors expressed at the cell surface of these cells. beta adrenergic receptor internalization is probably the major mechanism responsible for catecholamine desensitization in smooth muscle cells.     

Adrenergic receptor homologies in vertebrate and invertebrate species examined by DNA hybridization

The deduced protein sequences of the mammalian adrenergic receptors (ARs) suggest that these proteins have evolved by several ancient gene duplication events. To investigate in what species these events may have occurred DNA fragments encoding the family of adrenergic receptors from human (beta 1AR and alpha 2AR) and hamster (beta 2AR and alpha 1AR) were used to detect homologous sequences in other vertebrates, invertebrates and unicellular organisms by Southern blot hybridization analysis. Sequences homologous to hamster beta 2AR were detected in lower vertebrates, invertebrates and Dictyostelium, but not in yeast or bacteria. Within vertebrates, sequences strongly homologous to human beta 1AR and human platelet alpha 2AR were confined to the higher vertebrates only. In the invertebrates, only Drosophila contained sequences homologous to hamster alpha 1AR. Our results suggest that non-mammalian species may contain receptors homologous to the mammalian adrenergic receptors and that the sequences homologous to human beta 2AR have been the most strongly conserved.