The secretory response in dissociated acini from the rat submandibular gland

Rat submandibular gland was dissociated by enzymatic digestion with collagenase and hyaluronidase, followed by mild mechanical shearing and filtration through a nylon mesh. The dissociated cell populations contained predominantly groups of acinar cells which maintained their acinar arrangement. The morphological and functional viability of the cells was confirmed by electron microscopic examination and a normal secretory response to β-adrenergic or cholinergic stimulation was observed. Both isoproterenol (IPR) and carbachol caused the fusion of secretory granules into large vacuoles which were also continuous with the lumen, and into which the secretory product was released. Secretion was assessed quantitatively from the incorporation of ¹⁴C-glucosamine into the acinar cells and its subsequent release into the culture medium as labelled glycoprotein. IPR stimulated secretion to 125% of untreated controls in the concentration range 5 × 10^?5 to 5 × 10^?7 M, and to 110% of controls at 5 × 10^?8 M, after 40 min incubation. Carbachol stimulated secretion to 131% of controls at 5 × 10^?5 M and to 115% at 5 × 10^?6 M but had no effect at 5 × 10^?7 or 5 × 10^?8 M. The secretory response was blocked by the respective β-adrenergic and cholinergic antagonists, propranolol and atropine. These findings show that dissociated rat submandibular acinar cells provide a useful in vitro model for the study of mucus synthesis and secretion.     

The role of central aminergic neurons in the action of 20-hydroxyecdysone on neurosecretory cells of Rhodnius prolixus

The enhancement of electrical activity of the neurosecretory cells in the brain and corpus cardiacum of Rhodnius prolixus induced by 20-hydroxyecdysone has been used as a means of examining the role of aminergic neurons in this reflex. The response of the brain and corpus cardiacum from mated ovariectomized females to 20-hydroxyecdysone was blocked by phentolamine and phenoxybenzamine (α-aminergic receptor antagonists) but not by propranolol (a β-aminergic receptor antagonist). Preparations taken from ‘reserpinzed’ females failed to respond to 20-hydroxyecdysone. Dopamine at 10^?7 M was capable of mimicking 20-hydroxyecdysone in activating the neurosecretory system from mated ovariectomised females as well as from ‘reserpinized’ mated ovariectomised females. The response to dopamine was blocked by phentolamine. The neurosecretory system from virgin ovariectomized females failed to respond to 10^?7 or 10^?6 M dopamine, but was activated by 10^?5 M dopamine.It is concluded that the action of 20-hydroxyecdysone onto the neurosecretory cells is indirect and involves aminergic interneurons. The results also suggest that the mating stimuli may function by enhancing the response of neurons to amines.     

[3H]norepinephrine binding and lipolysis by isolated fat cells

[³H]norepinephrine was shown to bind to specific sites on isolated fat cells. A Scatchard plot of norepinephrine binding showed two apparent K_a of 1.9 · 10⁶ and 1.2 · 10⁵ LM^?. 1.4 · 10^?4 M Norepinephrine covalently-linked to agarose beads reduced [³H]norepinephrine binding by over 50%. Several structurally related drugs were compared as inhibitors of [³H]norepinephrine binding and as stimulators of lipolysis in preparations of similarly prepared cells. Dose-response curves for norepinephrine, epinephrine and isoproterenol showed the affinities for binding inhibition and for stimulation of lipolysis to be in the same range of 6 · 10^?7-2 · 10^?6 M. Dopamine and dopa were potent inhibitors of [³H]norepinephrine binding at 8.5 · 10^?7 M and 2.0 · 10^?6 M respectively, but did not stimulate lipolysis even at 10^?4 M. Propranolol, a β-adrenergic antagonist, had no effect on [³H]norepinephrine binding at 10^?4 M but completely inhibited catecholamine-stimulated lipolysis at 10^?5 M. Phentolamine, an α-adrenergic antagonist, did not inhibit binding or catecholamine-stimulated lipolysis at 10^?4 M. Ephedrine, metaraminol, phenylephrine and normetanephrine were also ineffective both as [³H]norepinephrine binding inhibitors and as stimulators of lipolysis. The results suggested the catechol ring of catecholamines is more important than the ethanolamine side chain as a requirement for binding, while both an intact catechol moiety and ethanolamine function appear necessary for physiological effect.     

Octopamine--a single modulator with double action on the heart of two insect species (Apis mellifera macedonica and Bactrocera oleae): Acceleration vs. inhibition

The effects of octopamine, the main cardioacceleratory transmitter in insects, were investigated, in the isolated hearts of the honeybee, Apis mellifera macedonica, and the olive fruit fly, Bactrocera oleae. Octopamine induced a biphasic effect on the frequency and force of cardiac contractions acting as an agonist, with a strong acceleratory effect, at concentrations higher than 10⁻¹² M for the honeybee and higher than 50 × 10⁻⁹ M for the olive fruit fly. The heart of the honeybee is far more sensitive than the heart of olive fruit fly. This unusual sensitivity is extended to the blockers of octopaminergic receptors, where phentolamine at 10⁻⁵ M stopped the spontaneous contractions of the honeybee heart completely and permanently, while the same blocker at the same concentration caused only 50% inhibition in the heart of the olive fruit fly. Phentolamine and mianserin at low concentrations of 10⁻⁷ M also blocked the heart octopaminergic receptors, but for a short period of time, of less than 15.0 min, while a partial recovery in heart contraction started in spite of the presence of the antagonist. The unusual response of the honeybee heart in the presence of phentolamine and/or mianserin suggests excitatory effects of octopamine via two different receptor subtypes. At lower concentrations, 10⁻¹⁴ M, the agonist octopamine was converted to an antagonist, inducing a hyperpolarization in the membrane potential of the honeybee cardiac pacemaker cells and inhibiting the firing rate of the heart. The inhibitory effects of octopamine on certain parameters of the rhythmic bursts of the heart of the honeybee, were similar to those of mianserin and phentolamine, typical blockers of octopaminergic receptors. The heart of the olive fruit fly was 10⁵ times less sensitive to octopamine, since a persistent inhibition of heart contractions occurred at 10⁻⁹ M. In conclusion, the acceleration of the insect heart is achieved by increasing the levels of octopamine, while there is a passive but also an active decrease in heart activity due to the minimization of octopamine.     

Uptake of glycine and release of primary amines by the polychaete Nereis virens (Sars) and the mud snail Hydrobia neglecta muus

Uptake of glycine and release of primary amines by the polychaete Nereis virens (Sars) and the mud snail Hydrobia neglecta Muus was investigated. In a flow system, Nereis virens had a net influx of glycine of 32 to 39 nmol·g^?1 fresh wt·h from a 5-μM solution of glycine. Simultaneously, an efflux of primary amines of 14 nmol·g^?1·h^?1 was measured. The experiments indicated that glycine uptake and release of primary amines are two independent processes. Glycine was absorved by Hydrobia neglecta from 50-μM solutions at an influx of 175 nmol·g^?1 organic wt·h^?1, and simultaneously, there was an independent efflux of 25 nmol primary amine·g^?1·h^?1. In the experiments, released primary amines from both species increased the ambient concentration of primary amines, but after various periods of time these concentrations apparently stabilized. Finally, the significance of micro-organisms in amino-acid uptake experiments is considered.     

Hormone stimulated lipolysis and proline synthesis in the fat body of the adult tsetse fly, Glossina morsitans

G. morsitans fat cells incubated in vitro with l-[U-¹⁴C]-leucine incorporated the radiolabel, mainly into triglycerides. Aqueous extracts of corpora cardiaca, midbrain, or thoracic ganglion stimulated the release of radiolabelled material from prelabelled fat cells in vitro. Corpora cardiaca extracts were the most active, approx. 1 × 10^?3 gland pairs/μl elicited the maximal response. At concentrations above 1 × 10^?3 gland pairs/μl the activity of corpora cardiaca extracts was inhibited by a substance which could be removed by gel filtration. The stimulatory factor in nervous-tissue extracts was destroyed by proteolytic enzymes and was recoverable in a single peak by Sephadex G15 gel filtration. Results suggest that it is a peptide hormone produced mainly by the median neurosecretory cells of the midbrain with the corpora cardiaca being the site of storage and release. No hormone was detectable in fresh haemolymph, but it was found at high concentration in boiled haemolymph, implying the presence of a heat labile inhibitor.Under the in vitro conditions used the hormone stimulated the synthesis of proline from alanine and the hydrolysis of triglycerides to free fatty acids. The probable functions of the hormone are to stimulate proline synthesis in response to demand for flight and/or to mobilise lipid for larval nutrition. The relative importance of these apparent functions in vivo could not be determined.     

Histamine stimulates prostacyclin synthesis in cultured human umbilical vein endothelial cells

Human venous endothelial cells synthesize prostacyclin (PGI₂) in response to treatment with histamine. The amount of PGI₂ produced is proportional to the histamine concentration over the range of 10^?7 to 10^?5 M, with a maximal response at 2–5 × 10^?6 M. PGI₂ synthesis occurs as a burst lasting less than 3 minutes after histamine addition. The H1 histamine receptor antagonist pyrilamine causes an 87% inhibition of PGI₂ synthesis, whereas the H2 antagonist cimetidine gives no significant inhibition, suggesting that PGI₂ synthesis in response to histamine is mediated by an H1 receptor.     

Some pharmacological properties of neuromuscular transmission in the oviduct of the locust,Locusta migratoria

The effects of various pharmacological agents on neurally evoked contractions of the visceral muscles of the oviduct of Locusta migratoria have been examined. The pentapeptide, proctolin, at low concentrations (10^?11 M?10^?10 M), induced an increase in the amplitude of neurally evoked contractions and basal tonus, and induced the appearance and increased the frequency of myogenic contractions. Glutamate, at 10^?4 M, produced a small transient contraction which in some preparations was accompanied by a reduction in amplitude of neurally evoked contractions. Octopamine, at 10^?6 M, reduced the amplitude of neurally evoked contractions and also resulted in a relaxation of the muscles. The octopaminergic effects were inhibited by the α-aminergic antagonist phentolamine. Neurally evoked contractions were unaffected by dopamine, 5-HT or the acetylcholine receptor antagonists atropine and hexamethonium. Acetylcholine increased the amplitude of neurally evoked contractions, but only at the high concentration of 10^?3 M. The possible role of proctolin and glutamate as excitatory neuro-transmitters and the inhibitory action of octopamine is discussed.     

Pharmacological characterization of the dopamine-mediated accumulation of cyclic AMP in intact retina of rabbit.

Exposure of intact retinae of rabbit to dopamine, epinephrine and norepinephrine led to dose-related accumulations of cyclic AMP. Dopamine appears to be more potent than the two other catecholamines, since at 10^?6M it still induced a significant increase in cyclic AMP, whereas the two latter drugs were ineffective. Pure α- or β-adrenergic agonists such as phenylephrine or isoproterenol, as well as other drugs such as clonidine, DPI, (+)- and (±)-amphetamine, used at 10^?4M, were also devoid of agonist activity. In contrast a dopamine-analogue (epinine) and a dopamine-like drug (apomorphine) were as potent as dopamine. Blockade of the dopamine- or norepinephrine-elicited accumulation of cyclic AMP was achieved by antipsychotics such as fluphenazine, (+)-butaclamol and lithium, whereas propranolol (a β-adrenergic antagonist), phentolamine (an α-adrenergic antagonist) and (?)-butaclamol (an inactive compound), at 10^?4 to 5 × 10^?4M concentrations, showed no antagonist activity. The results indicate that the cyclic AMP production induced by catecholamines in intact retina of rabbit is a result of an activation of relatively pure dopamine receptors.     

Blockade of central beta-adrenergic receptors by tazolol (1-isopropylamino-3-(2-thiazoloxy)-2-propanol).

Tazolol, a β₁-adrenergic agonist in heart, had no intrinsic β-adrenergic agonist activity with respect to cyclic AMP-generating systems in rat cerebral cortical slices or with respect to firing of rat cerebellar Purkinje cells. Instead, tazolol proved to be a relatively potent and specific β-adrenergic antagonist. The IC₅₀ for (±) tazolol in antagonizing (-) isoproterenol-elicited accumulation of cyclic AMP in rat cortical slices was 7 × 10^?7M. The IC₅₀ in antagonizing [³H] dihydroalprenolol-binding in rat cortical homogenates was 2.9 × 10^?7 M. Tazolol was about 10 fold more potent in both cases than the β-antagonist, (±) sotalol. Tazolol antagonized the inhibitory, β-adrenergically mediated effects of iontophoretically applied norepinephrine on firing of cerebellar Purkinje cells. The inhibitory effects of γ-aminobutyric acid on firing of Purkinje cells were not altered by tazolol. Tazolol appeared to lack significant local anesthetic activity as evidenced by its lack of effect on spike height in spontaneous firing Purkinje cells.     

Stereospecific (3H)(minus)-alprenolol binding sites, beta-adrenergic receptors and adenylate cyclase

The binding of [³H](?)-alprenolol (a potent β-adrenergic antagonist) to sites in frog erythrocyte membranes has been studied by a centrifugal assay. The specificity of the binding sites is strikingly similar to what might be expected of the β-adrenergic receptor binding sites which mediate stimulation of adenylate cyclase by catecholamines in these membranes. The sites bind β-adrenergic antagonists and agonists with affinities which are directly related to their antagonist or agonist potency on the frog erythrocyte membrane adenylate cyclase. Binding shows strict stereospecificity with (?)-isomers exhibiting two orders of magnitude higher affinities than (+)-isomers. Dissociation constants for potent β-adrenergic antagonists are in the range of 10^?9 – 10^?8M whereas those for β-adrenergic agonists are about two orders of magnitude higher (≥ 10^?6M).     

Presynaptic Control of the Synthesis and Release of Dopamine from Striatal Synaptosomes: A Comparison Between the Effects of 5-Hydroxytryptamine, Acetylcholine, and Glutamate

The effects of 5-HT and glutamate on dopamine synthesis and release by striatal synaptosomes were investigated and compared with the action of acetylcholine, which acts presynaptically on this system. 5-HT inhibited (28%) synthesis of [¹⁴C]dopamine from L-[U-¹⁴C]tyrosine, at 10-⁵M and above. This contrasts with the action of acetylcholine, which stimulated [¹⁴C]-dopamine synthesis by 24% at 10-⁴ M. Tissue levels of GABA were unaffected by either 5-HT or acetylcholine up to concentrations of 10-⁴ M. The inhibitory action of 5-HT (5 × 10^?5 M and 2 × 10^?4 M) on [¹⁹C]dopamine synthesis was completely abolished by methysergide (2 × 10^?6 M). Higher concentrations of methysergide (10^?4 M) or cyproheptadine (10^?5 M) inhibited [¹⁴C]dopamine synthesis by 28% and 25%, respectively, when added alone to synaptosomes. However, only methysergide prevented the further inhibition of synthesis caused by 5-HT. At concentrations of 2 × 10^?5 M and above, 5-HT stimulated [¹⁴C]dopamine release. This releasing action differed from that of acetylcholine, which occurred at lower concentrations (e.g., 10^?6 M). Methysergide (up to 10^?4 M) or cyproheptadine (2 × 10^?4 M) did not reduce the 5-HT (5 × 10^?5 M)-induced release of [¹⁴C]dopamine, but methysergide (10^?4 M) showed a potentiation (49%) of this increased release. The stimulatory effects of 5-HT (2 × 10^?5 M) and K⁺ (56 mM) on [¹⁴C]dopamine release were additive, indicating that two separate mechanisms were involved. However, when both agents were present the stimulatory effect of K⁺ (56 mM) on [¹⁴C]dopamine synthesis was not seen above the inhibitory effect of 5-HT. Glutamate (0.1-5 mM) did not affect [⁴C]dopamine release or its synthesis from L-[U-¹⁴C]tyrosine. It is concluded that 5-HT modulates the synthesis of dopamine in striatal nerve terminals through a presynaptic receptor mechanism, an action antagonised by methysergide. The releasing action of 5-HT apparently occurs through a separate mechanism which is also distinct from that involved in the response to K⁺ depolarisation.     

Protein release from the larval fat body of the southwestern corn borer, Diatraea grandiosella: An in vitro study

The release of protein from the perivisceral fat body of non-diapausing, pre-diapausing and diapausing larvae of the southwestern corn borer, Diatraea grandiosella, was examined in vitro. Time course studies showed a selective release of proteins into macromolecule-free Grace's medium. The rate of release of individual proteins differed. The release of some proteins was partially inhibited by the incorporation of potassium cyanide (10^?2 M) and ouabain (5 × 10^?3 M) into the medium. During a 5 min incubation a single major high molecular weight protein fraction was released at a high rate from the fat body of both non-diapausing and diapausing larvae. A low molecular weight protein (the diapause-associated protein) was also released readily from the fat body of diapausing larvae. Although most proteins released from the fat body in vitro appeared to be present in the haemolymph in vivo, one notable exception was the absence of the diapause-associated protein from the haemolymph. The method holds promise for facilitating further studies of protein release from insect fat body.     

Effect of adrenalectomy on cellular calcium metabolism and on the response to adrenergic stimulation of hepatocytes isolated from male and female rats

The effects of adrenalectomy on cell calcium metabolism and on the effects of epinephrine on cAMP, phosphorylase a activity, and calcium efflux were studied in hepatocytes isolated from adult male and female rats. Adrenalectomy increased the total calcium of hepatocytes, all exchangeable calcium pools, and all calcium fluxes between the cellular pools in both sexes. After adrenalectomy, basal cAMP was elevated, phosphorylase a + b was decreased, but basal phosphorylase a activity was not changed. In adrenalectomized males and at all concentrations of epinephrine studied (1·10^?8?1·10^?5M) stimulation of calcium efflux was decreased and cAMP accumulation was enhanced, while the resulting phosphorylase a activation was depressed. In hepatocytes from adrenalectomized females there was a similar increase in cAMP accumulation induced by epinephrine, and a decrease in the stimulation of calcium efflux; however, the depression in phosphorylase a activation was much less and was significant only at 1·10^?8 and 1·10^?5M epinephrine. In the male, while activation of phosphorylase a shifted from a pure α-adrenergic response mediated by calcium to one also involving a cAMP-mediated β-adrenergic response, the contribution of the attenuated calcium signal was still significant. Hepatocytes from female rats did not show a comparable α- to β-shift, since the relative contribution of calcium and cAMP to phosphorylase activation was similar in sham-operated and adrenalectomized animals.     

Neuromuscular modulation in Limulus by both octopamine and proctolin

Both octopamine and proctolin potentiate nerve-evoked skeletal muscle contractions in the horseshoe crab, Limulus. The threshold concentration for octopamine was 10^?9 to 10^?8M, while for proctolin it was 3 × 10^?9M. Norepinephrine and dopamine produced effects similar to octopamine but at higher thresholds; tyramine and serotonin were ineffective. Octopamine caused significant increases in amplitudes of excitatory postsynaptic potentials (epsps) of muscle fibers, but had little effect on muscle fiber input resistance or membrane potential. Also, octopamine did not affect depolarization of muscle fibers and subsequent contraction due to the direct action of exogenously applied glutamate. These results suggest that octopamine potentiates nerve-evoked contractions primarily by facilitating release of neuromuscular transmitter. At concentrations above 10^?7M, however, octopamine sometimes caused muscle spikes in response to motoneuron stimulation, a finding that suggests that octopamine may also have some postsynaptic action. Proctolin potentiated the muscle contractions evoked by glutamate but had little effect on glutamate-evoked muscle fiber depolarization, muscle fiber input resistance, or membrane potential. Thus, proctolin appears to act directly on skeletal muscle to enhance contractility. The proctolin-induced potentiations of contraction were sometimes accompanied by modest increases in epsp amplitude, so that unlike lobster skeletal and Limulus cardiac neuromuscular preparations, proctolin may have a secondary direct synaptic effect. Both octopamine and proctolin have been found in Limulus cardiac ganglion. This potential access to the hemolymph and the relatively low threshold concentrations needed for physiological action suggest that octopamine and proctolin could function as hormonal modulators of neuromuscular function in Limulus.     

Hormonal control of lipid synthesis in the fat body of the adult female tsetse fly, Glossina morsitans

Aqueous extracts of brain, thoracic ganglion or corpora cardiaca of female Glossina morsitans were shown to contain a substance which inhibited the synthesis of lipid from l[U-¹⁴C] leucine by fat cells incubated in vitro. The highest concentration of this substance was found in the corpora cardiaca; approximately 1 × 10^?6 gland pairs μl^?1 were required for maximum inhibition. At concentrations greater than 1 × 10^?4 gland pairs μl^?1 the lipid synthesis inhibiting factor (hereafter referred to as the LSIF) was inactivated by the presence of a substance which could be removed by gel filtration. The concentration of LSIF in the corpora cardiaca and midbrain varied throughout the reproductive cycle of the female. Net release of LSIF from the midbrain occurred between the 2nd and 7th day of the 9-day reproductive cycle. Net release from the corpora cardiaca began on day 5 and continued until the end of the interlarval period on day 9. Results are consistent with the hypothesis that LSIF is synthesised mainly in the medial neurosecretory cells of the midbrain whereas the corpora cardiaca are the site of storage and release into the haemolymph. LSIF was present in midbrain and corpora cardiaca extracts from male G. morsitans but at lower concentrations than in females. No variation in LSIF concentration could be correlated with the feeding cycle. LSIF activity was not detected in fresh haemolymph but was found at high concentration in boiled haemolymph, suggesting the presence of an inhibitor which was inactivated at high temperature. Preliminary investigations into the nature of LSIF have shown it to be inactivated by proteolytic enzymes and to be recoverable in a single peak from a Sephadex G15 column.Results support the view that LSIF is a peptide hormone which, in conjunction with an inhibitor, controls the lipid synthetic ability of the fat cells of the adult female tsetse fly throughout the reproductive cycle.     

Factors influencing cyclic AMP and diacylglycerol levels in fat body of Locusta migratoria

Forskolin (FORSK), octopamine (OA) and adipokinetic hormone (AKH) stimulate the production of diacylglycerol (DG) in fat body of the locust, Locusta migratoria and the release of DG from fat body into hemolmph. The three effectors also increase the level of cAMP in fat body, but the cAMP content is not proportional to DG production. AKH stimulates the uptake of Ca²⁺ by fat body cells and requires the presence of extracellular Ca²⁺ to increase cAMP and DG levels in fat body. The production of DG seems to be an energy-dependent process. The uptake of DG by lipophorin (LP) from fat body is also energy-dependent but does not require extracellular Ca²⁺.     

Comparative pharmacology of two D1-like dopamine receptors cloned from the silkworm Bombyx mori

Dopamine (DA) is a physiologically important biogenic amine in insect peripheral and nervous tissues. We recently cloned two DA receptors (BmDopR1 and BmDopR2) from the silkworm Bombyx mori and identified them as D1-like receptors, which activate adenylate cyclase to increase intracellular cAMP levels. In this study, these two receptors were stably expressed in HEK-293 cells, and the dose-responsiveness to DA and their pharmacological properties were examined using cAMP assays. BmDopR1 showed a dose-dependent increase in cAMP levels at DA concentrations up to 10^?7 M with EC₅₀ of 3.30 nM, while BmDopR2 required 10^?6 M DA for activation. In BmDopR1-expressing cells, DA at 10^?6–10^?4 M induced 30–50% lower cAMP production than 10^?7 M DA. BmDopR2-expressing cells showed a standard sigmoidal dose–response, with maximum cAMP levels attained with 10^?5–10^?4 M DA and EC₅₀ of 1.30 μM. Both receptors had similar agonist profiles, and the typical vertebrate D1-like receptor agonist SKF-38393 was ineffective. Experiments with antagonists revealed that BmDopR1 exhibits D1-like features. However, the pharmacology of BmDopR2 was distinct from D1-like receptors; the typical vertebrate D1-like receptor antagonist SCH-23390 was less potent than the nonselective antagonist flupenthixol and the D2-like receptor antagonist chlorpromazine. The rank order of activities of several antagonists for BmDopR1 and BmDopR2 was more similar to that of Drosophila melanogaster DA receptors than Apis mellifera DA receptors. These data suggest that DA receptors could be potential targets for specific insecticides or insectistatics.     

The beta-adrenergic receptor in human lymphocytes: subclassification by the use of a new radio-ligand, (+/-)-125 Iodocyanopindolol

(±)?¹²⁵Iodocyanopindolol (ICYP), a new radio-ligand with high affinity and specificity to β-adrenoceptors was used to identify and characterized β-adrenergic receptors in human lymphocytes. Binding of ICYP was saturable with 1.56 ± 0.2 fmol ICYP specifically bound/10⁶ cells at maximal occupancy of the sites and of high affinity (K_D=57 ± 7.1pM, N=4. In contrast to ¹²⁵Iodohydroxybenzylpindolol ICYP-binding was not affected by phentolamine (up to 10^?4M) or serotin (up to 10^?5M). Analysis of inhibition of ICYP-binding via a pseudo-Scatchard-plot (“Hofstee-plot”) by β_1-selective (practocol, metaprolol) and β_2-selective (IPS 339, zinterol) adrenergic drugs resulted in linear plots suggesting the existence of a homogeneous population of β-adrenergic receptorsin human lymphocytes. From the resulting K_D-values for practolol (16.8 μM), metoprolol (4.11 μM), zinterol (0.08 μM) and IPS 339 (0.002 μM) is concluded that the β-adrenergic receptor present in human lymphocytes is of the β₂-subtype. According to its low non-specific binding and its high specificity to β-adrenergic receptors ICYP appears to be an ideal ligand for long-term studies on the regulation of β-adrenergic receptors of human lymphocytes.     

Octopamine and occupancy: an aminergic mechanism for intruder-resident aggression in crickets

Aggression is a behavioural strategy for securing resources (food, mates and territory) and its expression is strongly influenced by their presence and value. While it is known that resource holders are generally highly aggressive towards intruding consexuals and usually defeat them, the underlying neuronal mechanisms are not known. In a novel intruder–resident paradigm for field crickets (Gryllus bimaculatus), we show that otherwise submissive losers of a preceding aggressive encounter readily fight and often defeat aggressive winners after occupying an artificial shelter. This aggression enhancing effect first became evident after 2 min residency, and was maximal after 15 min, but absent 15 min after shelter removal. The residency effect was abolished following non-selective depletion of biogenic amines from the central nervous system using reserpine, or semi-selective depletion of octopamine and dopamine using α-methyl-tyrosine, but not following serotonin depletion using α-methyl-tryptophan. The residency effect was also abolished by the treatment with phentolamine, an α-adrenergic receptor antagonist, or epinastine, a highly selective octopamine receptor blocker, but not by propranolol, a ß-adrenergic receptor antagonist, or by yohimbine, an insect tyramine receptor blocker. We conclude that crickets evaluate residency as a rewarding experience that promotes aggressive motivation via a mechanism involving octopamine, the invertebrate analogue of noradrenaline.