Binding Sites for [3H]Glutamate and [3H]Aspartate in Human Cerebellum

Abstract The binding of [³H]aspartate and [³H]glutamate to membranes prepared from frozen human cerebellar cortex was studied. The binding sites differed in their relative proportions, their inhibition by amino acids and analogues, and by the effects of cations. A proportion (about 30%) of [³H]glutamate binding was to sites similar to those labelled by [³H]aspartate. An additional component of [³H]gluta-mate binding (about 50%) was displaced by quisqualate and aL-amino-3-hydroxy-5-methylisoxazole-4-propionic acid, and may represent a “quisqualate-preferring” receptor. Neither N-methyl-d-aspartic acid-sensitive nor dl-2-amino-4-phosphonobutyric acid-sensitive [³H]glutamate binding was detected.     

Nicotinic Stimulation of [3H]Acetylcholine Release from Mouse Cerebral Cortical Synaptosomes

The effects of nicotine and 1,1-dimethyl-4-phenylpiperazinium (DMPP) on the release of newly synthesized [3H]acetylcholine in mouse cerebral cortical synaptosomes were examined. Nicotine and DMPP produced increases in [3H]acetylcholine release, over the level of spontaneous release, of 24% and 30%, respectively, of a maximum depolarization-induced release produced by 50 mM potassium. The maximum effect was achieved at a concentration of 1 X 10(-4) M for both agents. The time course of release indicated a slow onset of action, reaching a maximum effect at 15 min of incubation. Both nicotine and DMPP also produced a slightly greater release of total tritium, measured in the absence of cholinesterase inhibition, than of [3H]acetylcholine. The release induced by nicotine was completely antagonized by hexamethonium and was largely (58%) calcium-dependent. Nicotine also produced an increase in [3H]choline accumulation into synaptosomes. These results indicate that the nicotinic agonists nicotine and DMPP can produce a moderate enhancement of acetylcholine release by a receptor-mediated action on cholinergic nerve terminals in the central nervous system.     

Desensitization of Nicotine-Stimulated [3H]Dopamine Release from Mouse Striatal Synaptosomes

Potential desensitization of brain nicotinic receptors was studied using a [³H]dopamine release assay. Nicotine-stimulated [³H]dopamine release from mouse striatal synaptosomes was concentration-dependent with an EC₅₀ of 0.33 ± 0.13 μ M and a Hill coefficient of 1.44 ± 0.18. Desensitization by activating concentrations of nicotine had a similar EC₅₀ and a half-time of 35 s. Concentrations of nicotine that evoked little release also induced a concentration-dependent desensitization (EC₅₀=6.9 plusmn; 3.6 n M , t_1/2= 1.6-2.0 min, n _H=1.02 ± 0.01). Both types of desensitization produced a maximum 75% decrease in [³H]dopamine release. Recovery from desensitization after exposure to low or activating concentrations of nicotine was time-dependent with half-times of 6.1 min and 12.4 min, respectively. Constants determined for binding of [³H]nicotine to striatal membrane at 22°C included a K _Dof 3.7 ± 0.5 n M , B_max of 67.5 ± 2.2 fmol/mg, and Hill coefficient of 1.07 ± 0.06. Association of nicotine with membrane binding sites was biphasic with half-times of 9 s and 1.8 min. The fast rate process contributed 37% of the total reaction. Dissociation was a uniphasic process with a half-time of 1.6 min. Comparison of constants determined by the release and binding assays indicated that the [³H]-nicotine binding site could be the presynaptic receptor involved in [³H]dopamine release in mouse striatal synaptosomes.     

5-Hydroxytryptamine Stimulates [3H]Dopamine Release from the Fish Retina

Abstract: Serotonin (5-hydroxytryptamine, 5-HT; 0.5 μM and above) stimulated the release of [³H]dopamine ([³H]DA) from particulate fractions of the carp ( Cyprinus carpio ) retina. The 5-HT effect was dose- and Ca²⁺-dependent, and was structurally specific. A similar response was not elicited by the other indoles (5,6-dihydroxytryptamine, 5,7-dihydroxytryptamine, 5-hydroxytrypto-phan, or 5-hydroxyindoleacetic acid) examined. An increase in [³H]DA release was elicited by addition of 5-HT agonists (5-methoxytryptamine, 5-methoxy- N,N- dimethyltryptamine, and tryptamine), but not antagonized by three 5-HT antagonists (metergolin, methysergide, and spiperone). Either DA alone or noradrenaline (0.5 m M ) produced a large increase in [³H]DA release from the particulate fractions, but this action was Ca²⁺-independent. Further, no significant release of [³H]γ-aminobutyric acid could be evoked by 5-HT (0.5 mM) under similar experimental conditions. Taken together, the present data suggest that 5-HT stimulates [³H]DA release from the fish retina through a specific receptor-mediated mechanism on dopaminergic terminals, but not through an exchange or nonspecific phenomenon.     

Nicotine Indirectly Inhibits [3H]Dopamine Uptake at Concentrations That Do Not Directly Promote [3H]Dopamine Release in Rat Striatum

The effects of both (-)- and (+)-nicotine isomers were examined on in vitro uptake and release of [3H]dopamine in rat striatum. Both isomers inhibited uptake of [3H]dopamine in chopped tissue at concentrations well below those necessary for promoting release of preloaded [3H]dopamine. (-)-Nicotine was more potent than (+)-nicotine both at inhibiting uptake and at promoting release. Unlike other dopamine uptake inhibitors, however, nicotine inhibited only 50% of the total uptake. In the presence of 1 nM nicotine, the residual [3H]dopamine uptake was less sensitive to inhibition by cocaine than uptake in the absence of nicotine. Nicotine did not compete against the binding of [3H]GBR 12935, a selective dopamine uptake inhibitor. The nicotinic receptor agonists carbachol and 1,1-dimethyl-4-phenylpiperazinium iodide also inhibited uptake, whereas the nicotinic antagonists chlorisondamine and mecamylamine blocked nicotine's effect. Thus, the effect of nicotine on dopamine uptake appears to be mediated by a receptor similar to the nicotinic acetylcholine receptor. These receptors do not seem to be on the terminals that are accumulating dopamine, however, since tetrodotoxin prevented the effect of nicotine on [3H]dopamine uptake and nicotine had no effect on uptake in a synaptosomal preparation.     

Cholinergic Modulation of the Release of [3H]Acetylcholine from Synaptosomes of the Myenteric Plexus

Abstract: The purpose of these experiments was to determine if cholinergic agents affected the release of acetylcholine (ACh) from a synaptosomal preparation of the guinea pig ileum myenteric plexus. The synaptosomal preparation was first incubated with the precursor [³H]choline; subsequently, release of the stored [³H]ACh was measured. The release was decreased by oxotremorine or exogenous ACh plus hexamethonium and increased by exogenous ACh plus atropine. The nicotinic agonist 1,1-dimethyl-4-phenylpiperazinium (DMPP) evoked release that was inhibited by nicotinic antagonists or muscarinic agonists. Release was stimulated half-maximally by approximately 2 μ m - and maximally by 10 μ m -DMPP. Either in the absence of calcium or at 0°C, DMPP was without effect. The effect of 10 μ m -DMPP was brief, a significant stimulation occurring only within the first 2 min at 37°C. Tetrodotoxin also inhibited excitation by DMPP but not completely. Thus, the release of [³H]ACh appears to be presynaptically modulated, negatively by muscarinic agonists and positively by nicotinic agonists.     

Stimulation of [3H]Dopamine Release by Nicotine in Rat Nucleus Accumbens

Abstract: The mesolimbic system of the brain has been shown to be involved in the reward properties of a number of agents. It is possible that release of monoamines by nicotine in this brain area could be related to the pleasurable aspects related to cigarette smoking. In this investigation, the effect of nicotine on the release of [³H]dopamine in the nucleus accumbens of the rat was studied. It was shown that nicotine produced a concentration-dependent increase in [³H]dopamine release at concentrations of 0.1 μ M and above. The increase in release was found to be almost completely calcium dependent. The nicotine-induced release was only partially blocked by the nicotinic antagonists hexamethonium and d -tubocurarine. A number of cholinergic agonists, as well as other compounds, were tested for their capacity to mimic the effect of nicotine. At equimolar concentrations there was, at most, only 50% of the activity of nicotine. The results of this study demonstrate that nicotine stimulates the release of dopamine in the nucleus accumbens at concentrations similar to those in the blood of cigarette smokers. This suggests that the release of mono-amines in specific nuclei of the mesolimbic system may be an important determinant of the desire to smoke cigarettes.     

Hypoxia Enhances [3H]Noradrenaline Release Evoked by Nicotinic Receptor Activation from the Human Neuroblastoma SH-SY5Y

Abstract: We have used the human sympathetic neuronal line SH-SY5Y to investigate the effects of hypoxia on noradrenaline (NA) release evoked by either raised [K⁺]_o (100 m M ) or the nicotinic acetylcholine receptor (nAChR) agonist dimethylphenylpiperazinium iodide (DMPP). NA release was monitored by loading cells with [³H]NA and collecting effluent fractions from perfused cells kept in a sealed perifusion chamber. Cells were challenged twice with either stimulus and release was expressed as that evoked by the second challenge as a fraction of that evoked by the first. K⁺-evoked release was unaffected by hypoxia (P o ₂≅ 30–38 mm Hg), but release evoked by DMPP was significantly increased. For both stimuli, replacement of Ca²⁺_o with 1 m M EGTA abolished NA release. K⁺-evoked release was also dramatically reduced in the presence of 200 µ M Cd²⁺ to block voltage-gated Ca²⁺ channels, but DMPP-evoked release was less affected. In hypoxia, DMPP-evoked Cd²⁺-resistant NA release was dramatically increased. Our findings indicate that hypoxia increases NA release evoked from SH-SY5Y cells in response to nAChR activation by increasing Ca²⁺ influx through the nAChR pore, or by activating an unidentified Cd²⁺-resistant Ca²⁺-influx pathway. As acetylcholine is the endogenous transmitter at sympathetic ganglia, these findings may have important implications for sympathetic activity under hypoxic conditions.     

Intrasynaptosomal Sequestration of [3H]Amphetamine and [3H]Methylenedioxyamphetamine: Characterization Suggests the Presence of a Factor Responsible for Maintaining Sequestration

We examined the incorporation of [3H]methylenedioxyamphetamine ([3H]MDA) and [3H]amphetamine into rat brain synaptosomes. Saturation studies, using increasing concentrations of nonradioactive ligand, revealed that [3H]-MDA interacted with two saturable sites that were sensitive to boiling of the tissue. Eadee-Scatchard plots of [3H]MDA saturation data were curvilinear; nonlinear curve-fitting analysis of these data suggested the presence of high- and low-affinity [3H]MDA sites of association: KD high = 295 nM, Bmax high = 32 pmol/mg of protein; KD low = 45 microM, Bmax low = 5.2 nmol/mg of protein. Association of [3H]MDA to the low-affinity site was dependent on the presence of isotonic sucrose in the incubation medium. The high capacities of these sites argue against a bimolecular interaction of [3H]MDA with monovalent protein binding sites. [3H]MDA incorporation was reduced under conditions that disrupt the integrity of plasma membranes, such as sonication, incubation in hypotonic media, and incubation in the presence of the detergent digitonin. These data indicate that [3H]MDA incorporation into synaptosomes may represent an internalization and sequestration phenomenon. [3H]MDA incorporation was also reduced by preincubation of the synaptosomal preparation at 37 degrees C or in hypotonic buffer at 4 degrees C, a result suggesting that this sequestration is maintained by an intrasynaptosomal component that is lost under the preincubation conditions described above. [3H]MDA incorporation was pH dependent (maximal at pH 7.5) and temperature sensitive (maximal incorporation occurred at 21 degrees C and was substantially reduced at 37 degrees C). [3H]Amphetamine was also incorporated into synaptosomes, and this incorporation was sensitive to the same physical manipulations of the tissue preparation as [3H]MDA incorporation. The synaptosomal sequestration of both [3H]MDA and [3H]amphetamine was inhibited by permeant cations, such as sodium and potassium, a result suggesting that the proposed intrasynaptosomal component that maintains the sequestration is anionic. Preliminary pharmacological profiles of [3H]MDA and [3H]amphetamine sequestration were identical. The rank order of inhibitor potencies for the incorporation of both ligands was desipramine greater than amphetamine greater than MDA greater than methylphenidate. This order of potency does not correspond to the lipophilicity of the test drugs. The synaptosomal incorporation and sequestration of [3H]MDA, [3H]methylenedioxymethamphetamine, and [3H]amphetamine described in the present report may be important in the molecular mechanism of action of monoamine release induced by the amphetamines.     

Cyclothiazide Selectively Potentiates AMPA- and Kainate-Induced [3H]Norepinephrine Release from Rat Hippocampal Slices

Abstract: Activation of the α-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid (AMPA) subtype of ionotropic glutamate receptors has been shown to result in a rapid desensitization of the receptor in the presence of certain agonists. One effect of AMPA receptor desensitization in the hippocampus may be to decrease the efficacy of AMPA receptor agonists at stimulating the release of norepinephrine from noradrenergic terminals. Recently, cyclothiazide was reported to inhibit AMPA receptor desensitization by acting at a distinct site on AMPA receptors. We have examined the effect of cyclothiazide on AMPA- and kainate (KA)-induced norepinephrine release from rat hippocampal slices to determine whether cyclothiazide would increase the efficacy of AMPA-induced [³H]norepinephrine release by inhibiting AMPA receptor desensitization. Cyclothiazide was observed to potentiate markedly both AMPA- and KA-induced [³H]norepinephrine release. This potentiation is selective for AMPA/KA receptors as cyclothiazide did not potentiate N -methyl- d -aspartate-induced [³H]norepinephrine release or release induced by the nonspecific depolarizing agents veratridine and 4-aminopyridine. These results demonstrate that AMPA receptor-mediated modulation of [³H]norepinephrine release from rat brain slices is a useful approach to studying the cyclothiazide modulatory site on the AMPA receptor complex.     

Adenosine A2a Receptor-Mediated Modulation of Striatal [3H]GABA and [3H]Acetylcholine Release

Abstract: The ability of adenosine agonists to modulate K⁺-evoked 4D†-[³H]aminobutyric acid ([³H]GABA) and acetylcholine (ACh) release from rat striatal synaptosomes was investigated. The A_2a receptor-selective agonist CGS 21680 inhibited Ca²⁺-dependent [³H]GABA release evoked by 15 m M KCI with a maximal inhibition of 29 ± 4% (IC₅₀ of ∼4 ± 10 ⁻¹² M ). The relative order of potency of three agonists was CGS 21680 ± 5'- N -ethylcarboxamidoadenosine > R-phenylisopropyladenosine (R-PIA), with the inhibition being blocked by A_2a receptor-selective antagonists (CP 66,713 and CGS 15943A) but not by the A₁-selective antagonist 8-cyclopentyl-1,3-dipropylxanthine (DPCPX). When release of [³H]GABA was evoked by 30 mM KCI, no significant inhibition was observed. In contrast, CGS 21680 stimulated the release of [³H]ACh evoked by 30 m M KCI, with a maximal stimulation of 26 ± 5% (IC₅₀ of ∼10⁻¹¹ M ). This effect was blocked by CP 66,713 but not by DPCPX. The A₁ agonist R -PIA inhibited [³H]ACh release, an effect blocked by DPCPX. It is concluded that adenosine A_2a receptors are present on both GABAergic and cholinergic striatal nerve terminals where they inhibit and stimulate transmitter release, respectively. Key Words : GABA—Acetylcholine—Adenosine receptors—Striatum.     

Nitric Oxide-Induced [3H]GABA Release from Cerebral Cortical Neurons Is Mediated by Peroxynitrite

Abstract: The functional significance of peroxynitrite in the release of [³H]GABA induced by nitric oxide (NO) liberated from NO generators was investigated using cerebral cortical neurons in primary culture. NO generators such as sodium nitroprusside (SNP) and S -nitroso- N -acetylpenicillamine (SNAP) increased [³H]GABA release in a dose-dependent manner. These increases in [³H]GABA release were significantly inhibited by hemoglobin, indicating that those NO generators evoke the release of [³H]GABA by the formation of NO. Two types of superoxide scavengers, Cu²⁺/Zn²⁺ superoxide dismutase and ceruloplasmin, significantly reduced the increase in [³H]GABA release induced by both SNP and SNAP, which assumes that NO requires superoxide to induce [³H]GABA release from the neurons. In addition, synthesized peroxynitrite induced a dose-dependent increase in [³H]GABA release from the neurons. These results indicate that NO-induced [³H]GABA release is mediated by peroxynitrite formed by the reaction of NO with superoxide.     

Binding of [3H]Serotonin to Skeletal Muscle Actin

We previously observed that the neurotransmitter 5-hydroxytryptamine (5-HT, serotonin) binds with high- and low-affinity interactions to an actin-like protein prepared from rat brain synaptosomes. In this study, we examined its binding to highly purified actin obtained from rabbit skeletal muscle. Monomeric G-actin bound serotonin with high and low affinities, exhibiting equilibrium dissociation constants (KD values) of 5 X 10(-5) M and 4 X 10(-3) M, respectively. The serotonin binding site on actin was distinct from those sites previously characterized for divalent cations, nucleotides, and cytochalasin alkaloids. The binding of serotonin (1 microM) to G-actin was increased as much as 26-fold by divalent cations. Potassium iodine (KI) increased the affinity of G-actin for serotonin, KD values for this binding being 3 X 10(-7) M and X 10(-5) M. Serotonin bound with even higher affinity to polymerized F-actin, with KD values of 2 X 10(-8) M and 2 X 10(-5) M. However, the total number of binding sites on F-actin was only about 4% of the number of G-actin. The binding of serotonin (0.1 microM) to G-actin could be inhibited by phenothiazines (1 microM) or reserpine (10 microM), but not by classical antagonists of serotonin receptors or by drugs that release serotonin or inhibit its uptake. The binding of serotonin to actin in vivo may participate in a contractile process related to neurotransmitter release.     

Interleukin-2 Modulates Evoked Release of [3H]Dopamine in Rat Cultured Mesencephalic Cells

Abstract: Mesencephalic cell cultures were used as a model to investigate the effects of interleukin-2 (IL-2) on evoked release of [³H]dopamine ([³H]DA) and γ-[³H]-aminobutyric acid ([³H]GABA). At low concentrations (10^?13-10^?12M), IL-2 potentiated [³H]DA release evoked by the excitatory amino acids N-methyl-D-aspartate (NMDA) and kainate, whereas higher IL-2 concentrations (10^?9-10^?8M) had no effect. IL-2 (10^?14-10^?8M) modulated K⁺-evoked [³H]DA release in a biphasic manner, with low concentrations (10^?12-10^?11M) of IL-2 potentiating and higher concentrations (10^?9-10^?8M) inhibiting K⁺-induced [³H]DA release. IL-2 (10^?14-10^?8M) by itself failed to alter spontaneous [³H]DA release. The inhibition by IL-2 of K⁺-evoked [³H]DA release was reversible and not due to neurotoxicity, as preexposure to IL-2 (10^?8M) had no significant effect on the subsequent ability of dopaminergic cells to take up and to release [³H]DA. Under our experimental conditions, IL-2 (10^?8 M) did not alter Ca²⁺-independent [³H]GABA release evoked by either K⁺ or NMDA. The results of this study indicate that IL-2 is able to potentiate [³H]DA release evoked by a number of different stimuli, including K⁺ depolarization and activation of both NMDA and non-NMDA receptor subtypes in mesencephalic cell cultures. IL-2 is active at very low concentrations, a finding that indicates a potent effect of IL-2 on dopaminergic neurons and implicates a physiological role for this cytokine in the modulation of DA release.     

Modulation of [3H]Acetylcholine Release from Cultured Amacrine-Like Neurons by Adenosine A1 Receptors

Abstract: We have investigated the effect of endogenous adenosine on the release of [³H]acetylcholine ([³H]ACh) in cultured chick amacrine-like neurons. The release of [³H]ACh evoked by 50 m M KCl was mostly Ca²⁺ dependent, and it was increased in the presence of adenosine deaminase and in the presence of 1,3-dipropyl-8-cyclopentylxanthine (DPCPX), an adenosine A₁ receptor antagonist. The effect of adenosine on [³H]ACh release was sensitive to pertussis toxin (PTX) and was due to a selective inhibition of N-type Ca²⁺ channels. Ligand binding studies using [³H]DPCPX confirmed the presence of adenosine A₁ receptors in the preparation. Using specific inhibitors of the plasma membrane adenosine carriers and of the ectonucleotidases, we found that the extracellular accumulation of adenosine in response to KCl depolarization was due to the release of endogenous adenosine per se and to the extracellular conversion of released nucleotides into adenosine. Activation of adenosine A₁ receptors was without effect on the intracellular levels of cyclic AMP under depolarizing conditions, but it inhibited the accumulation of inositol phosphates. Our results indicate that in cultured amacrine-like neurons, the Ca²⁺-dependent release of [³H]ACh evoked by KCl is under tonic inhibition by adenosine, which activates A₁ receptors. The effect of adenosine on the [³H]ACh release may be due to a direct inhibition of N-type Ca²⁺ channels and/or secondary to the inhibition of phospholipase C and involves the activation of PTX-sensitive G proteins.     

Heterogeneity of [3H]Dipyridamole Binding to CNS Membranes: Correlation with [3H]Nitrobenzylthioinosine Binding and [3H]Uridine Influx Studies

The relationship between the nucleoside transport system and the nitrobenzylthioinosine-sensitive and -resistant [3H]dipyridamole binding sites was examined by comparing the characteristics of [3H]dipyridamole binding with those of [3H]nitrobenzylthioinosine binding and [3H]-uridine influx in rabbit and guinea pig cerebral cortical synaptosomes. Two distinct high-affinity synaptosomal membrane-associated [3H]dipyridamole binding sites, with different sensitivities to inhibition by nitrobenzylthioinosine, were characterized in the presence of 3-[(3-cholamidopropyl) dimethylammonio]-1-propanesulfonate (CHAPS, 0.01%) to prevent [3H]dipyridamole binding to glass tubes and filters. The nitrobenzylthioinosine-resistant [3H]-dipyridamole binding sites represented a greater proportion of the total membrane sites in guinea pig than in rabbit (40 vs. 10% based on inhibition studies). In rabbit, nitrobenzylthioinosine-sensitive [3H]dipyridamole binding (KD = 1.4 +/- 0.2 nM) and [3H]nitrobenzylthioinosine binding (KD = 0.30 +/- 0.01 nM) appeared to involve the same membrane site associated with the nitrobenzylthioinosine-sensitive nucleoside transporter. By mass law analysis, [3H]-dipyridamole binding in guinea pig could be resolved into two components based on sensitivity to inhibition by 1 microM nitrobenzylthioinosine. The nitrobenzylthioinosine-resistant [3H]dipyridamole binding sites were relatively insensitive to inhibition by all of the nucleoside transport substrates and inhibitors tested, with the exception of dipyridamole itself. In guinea pig synaptosomes, 100 microM dilazep blocked nitrobenzylthioinosine-resistant [3H]uridine transport completely but inhibited the nitrobenzylthioinosine-resistant [3H]dipyridamole binding component by only 20%. Furthermore, a greater percentage of the [3H]dipyridamole binding was nitrobenzylthioinosine resistant in guinea pig compared with rabbit, yet both species had a similar percentage of nitrobenzylthioinosine-resistant [3H]uridine transport.(ABSTRACT TRUNCATED AT 250 WORDS)     

α2-Adrenoceptor-Mediated Inhibition of Electrically Evoked [3H]Noradrenaline Release from Chick Sympathetic Neurons: Role of Cyclic AMP

Abstract: This study explores the role of cyclic AMP in electrically evoked [³H]noradrenaline release and in the α₂-adrenergic modulation of this release in chick sympathetic neurons. Along with an increase in stimulation-evoked tritium overflow, applications of forskolin enhanced the formation of intracellular cyclic AMP. Both effects of forskolin were potentiated by the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine. The forskolin-induced increase in overflow was abolished by the Rp-diastereomer of cyclic AMP-thioate, an antagonist at cyclic AMP-dependent protein kinases, and 1,9-dideoxy-forskolin, an inactive analogue at adenylyl cyclase, had no effect on the evoked overflow. A 24-h pretreatment with either cholera toxin or forskolin reduced the subsequent forskolin-induced accumulation of cyclic AMP and inhibited the stimulation-evoked release. Basal cyclic AMP production, however, remained unaltered after forskolin treatment and was enhanced after 24 h of cholera toxin exposure. The α₂-adrenergic agonist bromoxidine did not affect the formation of cyclic AMP stimulated by forskolin but reduced electrically evoked release. However, effects of bromoxidine on ³H overflow were attenuated by forskolin as well as by 8-bromo-cyclic AMP. Effects of bromoxidine on [³H]noradrenaline release were paralleled by an inhibition of voltage-activated Ca²⁺ currents, primarily through a delayed time course of current activation. This effect was abolished when either forskolin or 8-bromo-cyclic AMP was included in the pipette solution. Both substances, however, failed to affect Ca²⁺ currents in the absence of bromoxidine. These results suggest that the signaling cascade of the α₂-adrenergic inhibition of noradrenaline release involves voltage-activated Ca²⁺ channels but not cyclic AMP. Elevated levels of cyclic AMP, however, antagonize this α₂-adrenergic reduction, apparently through a disinhibition of Ca²⁺ channels.     

Effect of Potassium on the Release of [3H]Noradrenaline from Rabbit and Human Pulmonary Artery

The release of [3H]noradrenaline ( [3H]NA) from rabbit and human isolated pulmonary artery has been measured. Removal of external potassium ions enhanced both the resting and stimulated release of [3H]NA from the strips. On adding K+ to tissues which had been suspended in K+-free Krebs solution, the release of [3H]NA was reduced in both stimulated and unstimulated tissues. Selective inhibition of presynaptic alpha 2-adrenoceptors by yohimbine significantly potentiated the release of [3H]NA evoked by stimulation in K+-free solution. The presynaptic inhibitory effect of NA was much less pronounced when the release was enhanced by the removal of external K+. Since the activity of NA, K-ATPase may be affected by removing K+ or by adding it to tissue previously kept in K+-free solution, the results may indicate involvement of the sodium pump in NA release.     

Stress-Induced Enhancement of Suppression of [3H]GABA Release from Striatal Slices by Presynaptic Autoreceptor

The effect of cold and immobilization stress on presynaptic GABAergic autoreceptors was examined using the release of [3H]GABA (gamma-aminobutyric acid) from slices of rat striatum. It was found that in vitro addition of delta-aminolevulinic acid, as well as GABA agonists such as muscimol and imidazoleacetic acid, exhibited a significant suppression of the striatal release of [3H]GABA evoked by the addition of high potassium, whereas delta-aminovaleric acid had no significant effects on the evoked release. These suppressive actions were antagonized invariably by the GABA antagonists, bicuculline and picrotoxin, but not by the glycine antagonist, strychnine. Cholinergic agonists, such as pilocarpine and tetramethylammonium, also attenuated significantly the evoked release of [3H]GABA from striatal slices, while none of its antagonists, including atropine, hexamethonium and d-tubocurarine, affected the release. On the other hand, in vitro addition of dopamine receptor agents such as dopamine, apomorphine, and haloperidol, or the inhibitory amino acids, glycine, beta-alanine, and taurine failed to influence the evoked release of [3H]GABA from striatal slices. Application of a cold and immobilization stress for 3 h was found to induce a significant enhancement of the suppressive effects by muscimol and delta-aminolevulinic acid on the evoked release of [3H]GABA, without affecting that by pilocarpine and tetramethylammonium. These results suggest that the release of GABA from striatal GABA neurons may be regulated by presynaptic autoreceptors for this neuroactive amino acid, and may play a significant functional role in the exhibition of various symptoms induced by stress.