Fenfluramine Releases Serotonin from Human Brain Nerve Endings by a Dual Mechanism

Abstract: Fenfluramine is the most widely used anorexigenic drug in humans. In animal experiments d -fenfluramine has been shown to act as a potent releaser of brain serotonin [5-hydroxytryptamine (5-HT)]. Here we have investigated the effects of d -fenfluramine on the release of [³H]5-HT from isolated nerve endings of human neocortex. The drug elicited release of unmetabolized [³H]5-HT, and this effect was concentration dependent. However, the mechanism of release seems to differ profoundly depending on the concentrations of d -fenfluramine used. At 5 µ M , the release of [³H]5-HT was blocked by the 5-HT transporter inhibitor fluoxetine and was Ca²⁺ independent and insensitive to the human autoreceptor 5-HT_1D agonist sumatriptan. The release of [³H]5-HT elicited by 0.5 µ M d -fenfluramine was similarly blocked by fluoxetine, but it was strongly Ca²⁺ dependent and sensitive to sumatriptan. It is suggested that, at relatively high concentrations, d -fenfluramine largely diffuses into serotonergic terminals and causes release of 5-HT through the 5-HT carrier working in the inside-outside direction; at relatively low concentrations d -fenfluramine enters the terminals through the 5-HT transporter but elicits release of 5-HT by an exocytotic-like mechanism.     

Dual Effects of Ascorbate on Serotonin and Spiperone Binding in Rat Cortical Membranes

Abstract: Ascorbate-induced lipid peroxidation, as measured by malonyldialdehyde (MDA) production, caused irreversible decreases in B_max of both [³H]5-HT and [³H]spiperone binding. Cacl₂ (4mM) inhibited ascorbateinduced MDA formation at ascorbate concentrations >0.57 mM, but not at ≤ 0.57 mM. Under the standard assay conditions (5.7 mM ascorbate and 4mM CaCl₂), Cacl₂ inhibited the MDA production casued by ascorbate by 88%, and the loss in [³H]5-HT binding by 57%. Ascorbate still decreased [³H]5-HT binding by 57%. Ascorbate still decreased [³H]5-HT binding when lipid peroxidation was completely inhibited by EDTA. This additional effect of ascorbate was reversible after washing the membranes. Other reducing agents (dithiothreitol, glutathione, and metabisulfite) also decreased the binding of [³H]serotonin. In contrast, [³H]spiperone binding was not affected by ascorbate in the absence of lipid peroxidation or by other reducing agents. These experiments demonstrate that ascorbate has a dual and differential effect on serotonin binding sites. First, ascorbate-induced lipid peroxiation irreversibly inactivates both [³H]5-HT and [³H]spiperone binding. Second, independent of lipid peroxidation, there is a direct, reversible effect of ascorbate on [³H]serotonin but not on [³H]spiperone binding, which is probably due to the difference in the biochemical nature of the two serotonin binding sites.     

Platelet-Activating Factor: Diminished Acetylcholine Release from Rat Brain Slices Is Mediated by a Gi Protein

Abstract: The effect of platelet-activating factor (PAF) on neurotransmitter release from rat brain slices prelabeled with [³H]acetylcholine ([³H]ACh), [³H]norepinephrine ([³H]NE), or [³H]serotonin ([³H]5-HT) was studied. PAF inhibited K⁺ depolarization-induced [³H]ACh release in slices of brain cortex and hippocampus by up to 59% at 10 n M but did not inhibit [³H]ACh release in striatal slices. PAF did not affect 5-HT or NE release from cortical brain slices. The inhibition of K⁺-evoked [³H]ACh release induced by PAF was prevented by pretreating tissues with several structurally different PAF receptor antagonists. The effect of PAF was reversible and was not affected by pretreating brain slices with tetrodotoxin. PAF-induced inhibition of [³H]ACh release was blocked 90 ± 3 and 86 ± 2% by pertussis toxin and by anti-Gαi_1/2 antiserum incorporated into cortical synaptosomes, respectively. The results suggest that PAF inhibits depolarization-induced ACh release in brain slices via a Gαi_1/2 protein-mediated action and that PAF may serve as a neuromodulator of brain cholinergic system.     

EVIDENCE FOR THE SYNTHESIS AND STORAGE OF 5-HYDROXYTRYPTAMINE IN TWO SEPARATE POOLS IN THE BRAIN

Abstract— Evidence is presented to support the hypothesis that 5-hydroxytryptamine (5-HT) in the rat brain is synthesized by two separate pathways and stored in two or more compartments. Lysergic acid diethylamide in doses down to 50 μg/kg was shown to reduce the formation of 5-[³H]HT from [³H]tryptophan in the presence of a monoamine oxidase inhibitor, although the total rate of accumulation of 5-HT was unchanged. Conversely, adrenalectomy was found to increase the total synthesis of 5-HT measured in the same way, although the amount of 5-[³H]HT formed suggested that there was no increase in the synthesis of the amine. In a third experiment it was found that electrical stimulation of 5-HT-containing nerves following labelling of 5-HT stores with [³H]tryptophan led to a biphasic disappearance of 5-[³H]HT. It is suggested that the method of measuring 5-HT synthesis by measuring 5-[³H]HT formed from[³H]tryptophan in the presence of a monoamine oxidase inhibitor may be a way of selectively measuring the turnover of the functional pool of 5-HT.     

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.     

Characterization of [3H]CP-96,501 as a Selective Radioligand for the Serotonin 5-HT1B Receptor: Binding Studies in Rat Brain Membranes

Abstract: 3-(1,2,5,6-Tetrahydro-4-pyridyl)-5- n -propoxyindole (CP-96,501) was found to be a more selective ligand at the serotonin 5-HT_1B receptor than the commonly used 5-HT_1B agonist, 3-(1,2,5,6-tetrahydro-4-pyridyl)-5-methoxyindole (RU 24969). In rat brain membranes, the tritiated derivative, [³H]CP-96,501, was found to bind with a high affinity ( K _D, 0.21 n M ) to a single binding site ( n _H, 1.0). The receptor density of this site ( B _max, 72 fmol/mg of protein) matched that of the 5-HT_1B receptor determined with [³H]5-HT. Competition curves of 16 serotonergic compounds in [³H]CP-96,501 binding also indicated a single binding site. The rank order of their binding affinities with this new radioligand showed a high degree of correlation with their affinities at the 5-HT_1B receptor determined with [³H]5-HT or [¹²⁵I]iodocyanopindolol. Serotonergic compounds displayed competitive inhibition of [³H]CP-96,501 binding. In the presence of 5'-guanylylimidodiphosphate [Gpp(NH)p], [³H]CP-96,501 binding was reduced, while the potency of CP-96,501 to displace [¹²⁵I]iodocyanopindolol binding was also decreased. These findings are consistent with the agonist nature of CP-96,501. The results of this study suggest that [³H]CP-96,501 is a useful agonist radioligand for the 5-HT_1B receptor.     

THE EFFECT OF PHOSPHOLIPASE C, PHOSPHOLIPASE A2 AND NEURAMINIDASE ON THE UPTAKE OF [3H]NOREPINEPHRINE AND [3H]SEROTONIN

Abstract— The uptake of [³H]norepinephrine ([³H]NE) and [³H]serotonin ([³H]5-HT) by rat brain synaptosomes is reduced as a result of pretreatment of the synaptosomes with phospholipase C (EC 3.1.4.3) or phospholipase A₂ (EC 3.1.1.4). This effect is not due to inhibition of the Na⁺-K⁺-ATPase but rather is caused by hydrolysis of neuronal membrane phospholipids, mainly phosphatidylcholine, which seem to be important to the uptake.     

Endogenous Noradrenaline Activates α2-Adrenoceptors on Serotonergic Nerve Endings in Human and Rat Neocortex

Abstract: Slices from human neocortex preincubated with [³H]serotonin ([³H]5-HT) were superfused and stimulated electrically to investigate whether the α₂-adrenoceptors on serotonergic terminals can be stimulated by endogenous noradrenaline (NA) released from neighboring noradrenergic fibers. The stimulation-evoked ³H overflow, representing action potential-induced, exocytotic release of 5-HT, was depressed by the NA uptake blocker (+)-oxaprotiline. Rauwolscine (a mixed α₂-adrenoceptor antagonist/5-HT autoreceptor agonist) or phentolamine [a combined α- adrenoceptor/5-HT autoreceptor antagonist; the latter drug in the presence of (+)-oxaprotiline] enhanced the release when the 5-HT autoreceptors had previously been blocked by metitepine. Under hypothermia the release of 5-HT was found to be decreased and that of NA to be increased; under these conditions idazoxan (an α₂-adrenoceptor antagonist) enhanced the release of 5-HT. In neocortex slices from rats (+)-oxaprotiline similarly depressed the release of 5-HT (measured with the same methods) as in human tissue. When rats were pretreated with 6-hydroxydopamine, the inhibitory effect of exogenous NA on 5-HT release was increased, and in slices from rats pretreated with desipramine, it was decreased. In conclusion, α₂-heteroreceptors can be activated by endogenous NA released from neighboring noradrenergic fibers. Because regulatory processes analogous to those in rats probably occur in humans as well, an up- or down-regulation of α₂- heteroreceptors in depressed patients with a (pathological) decrease or a (therapeutic) enhancement of the noradrenergic neurotransmission may also be assumed to occur.     

Comparison of (R)-[3H] Tomoxetine and (R/S)-[3H] Nisoxetine Binding in Rat Brain

Abstract: ( R )-[³H]Tomoxetine is a radioligand that binds to the norepinephrine (NE) uptake site with high affinity but also binds to a second, lower-affinity site. The goal of the present study was to identify the nature of this low-affinity site by comparing the binding properties of ( R )-[³H]tomoxetine with those of ( R/S )-[³H]nisoxetine, a highly selective ligand for the NE uptake site. In homogenate binding studies, both radioligands bound to the NE uptake site with high affinity, whereas ( R )-[³H]tomoxetine also bound to a second, lower-affinity site. The autoradiographic distribution of binding sites for both radioligands is consistent with the known distribution of NE-containing neurons. However, low levels of ( R )-[³H]-tomoxetine binding were seen in the caudate-putamen, globus pallidus, olfactory tubercle, and zona reticulata of the substantia nigra, where ( R/S )-[³H]nisoxetine binding was almost absent. In homogenates of the caudate-putamen, the NE uptake inhibitors desipramine and ( R )-nisoxetine and the serotonin (5-HT) uptake inhibitor citalopram produced biphasic displacement curves. Autoradiographic studies using 10 n M ( R )-nisoxetine to mask the binding of ( R )-[³H]tomoxetine to the NE uptake site produced autoradiograms that were similar to those produced by [³H]citalopram. Therefore, ( R )-[³H]tomoxetine binds to the NE uptake site with high affinity and the 5-HT uptake site with somewhat lower affinity.     

Characterization of Serotonin Transporter in Goldfish Retina by the Binding of [3H]Paroxetine and the Uptake of [3H]Serotonin: Modulation by Light

Abstract: The serotonin (5-HT) uptake system of goldfish retina was evaluated by the binding of [³H]paroxetine to membrane preparations and the uptake of [³H]5-HT into isolated cells from goldfish retina. The order of potency of inhibitors of [³H]paroxetine binding was imipramine > 5-methoxy- N,N -dimethyltryptamine > desipramine > fluoxetine > citalopram > 5-HT. The saturation experiments indicated a high-affinity binding site, and positive cooperativity with Hill coefficient higher than unity. The association reached equilibrium at about one hour of incubation and was efficiently displaced by imipramine. The equilibrium dissociation constants calculated by the antilog of the log concentration of ligand giving 50% of occupation, and by the ratio of dissociation/association constants, were similar: 5.84 and 2.34 n M , respectively. The binding was not significantly reduced by decreasing the temperature of incubation and was sodium dependent. The lesion with 5,7-dihydroxytryptamine reduced the binding to 60%. The uptake of [³H]5-HT into isolated cells also showed positive cooperativity. The order of potency of inhibitors was similar to the one obtained for the binding of [³H]paroxetine. Darkness increased the uptake of 5-HT. The allosteric regulation of the 5-HT transporter and the modulation by light could be related to the physiological role of the monoamine, as a neurotransmitter and as a precursor of melatonin synthesis in the retina.     

Allosteric Interactions Among Agonists and Antagonists at 5-Hydroxytryptamine3 Receptors

Abstract: Cooperation in the action of agonists suggests that there are multiple binding sites on 5-hydroxytryptamine₃ (5-HT₃) receptors. The purpose of this study was to characterize these binding sites and their interactions on both native and cloned 5-HT₃ receptors. The affinities of competitive 5-HT₃ receptor antagonists were similar regardless of whether the receptors were labeled with [³H]RS-42358, [³H]granisetron, or 1-( m -[³H]chlorophenyl)biguanide ([³H]mCPG). By contrast, the affinities of the agonists 5-HT, mCPG, and phenylbiguanide were approximately 10-fold higher when the receptors were labeled with [³H]mCPG. The dissociation of [³H]mCPG, [³H]RS-42358, and [³H]RS-25259, but not [³H]granisetron, from both cloned and native 5-HT₃ receptors was markedly slower in the presence of 5-HT or 2-methyl-5-HT than in the presence of antagonists such as RS-42358. This suggests that the binding of these agonists to unoccupied sites on the receptor can increase the receptor's affinity for prebound ligands and thereby slow their dissociation. These data support previous indications of positive cooperation among multiple binding sites on both native and cloned 5-HT₃ receptors, and they extend this idea by demonstrating that agonists can modify the interaction of some, but not all, antagonists with the receptor.     

[3H]Imipramine Binding of Protein Nature in Human Platelets: Inhibition by 5-Hydroxytryptamine and 5-Hydroxytryptamine Uptake Inhibitors

Abstract: The nature of [³H]imipramine binding to human platelets was investigated. Desipramine and 5-hydroxytryptamine (5-HT) displaced the same amount of binding and the binding was sensitive to protease treatment. The nature of pharmacological inhibition of [³H]imipramine binding was investigated in saturation experiments. Increases in K d without changes in B _max were noted with the addition of 5-HT, desipramine, norzimeldine, or 5-methoxytryptoline. Reductions in B _max without alterations in K _D were obtained when citalopram or clomipramine was added. It is concluded that the [³H]imipramine binding site in human platelets is of protein nature and that this binding site contains the substrate recognition site for 5-HT uptake. In addition, [³H]imipramine and other 5-HT uptake inhibitors have bonds to other parts of the 5-HT uptake carrier or to the surrounding lipid membrane. This additional binding outside the substrate recognition site is not one single site but most likely represents sites that are specific for the chemical structure of each uptake inhibitor, respectively.     

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.     

Serotonin Stimulation of 5-HT4 Receptors Indirectly Enhances In Vivo Dopamine Release in the Rat Striatum

Abstract: Serotonin (5-HT) applied at 1, 3, and 10 µ M into the striatum of halothane-anesthetized rats by in vivo microdialysis enhanced dopamine (DA) outflow up to 173, 283, and 584% of baseline values, respectively. The 5-HT effect was partially reduced by 1 or 10 µ M GR 125,487, a 5-HT₄ antagonist, and by 100 µ M DAU 6285, a 5-HT_3/4 antagonist, whereas the 5-HT_1/2/6 antagonist methiothepin (50 µ M ) was ineffective. In the presence of tetrodotoxin the effect of 1 µ M 5-HT was not affected by 5-HT₄ antagonists. In addition, tetrodotoxin abolished the increase in DA release induced by the 5-HT₄ agonist ( S )-zacopride (100 µ M ). In striatal synaptosomes, 1 and 10 µ M 5-HT increased the outflow of newly synthesized [³H]DA up to 163 and 635% of control values, respectively. The 5-HT₄ agonists BIMU 8 and ( S )-zacopride (1 and 10 µ M ) failed to modify [³H]DA outflow, whereas 5-methoxytryptamine (5-MeOT) at 10 µ M increased it (62%). In prelabeled [³H]DA synaptosomes, 1 µ M 5-HT, but not ( S )-zacopride (1 and 10 µ M ), increased [³H]DA outflow. DAU 6285 (10 µ M ) failed to modify the enhancement of newly synthesized [³H]DA outflow induced by 5-MeOT or 5-HT (1 µ M ), whereas the effect of 5-HT was reduced to the same extent by the DA reuptake inhibitor nomifensine (1 µ M ) alone or in the presence of DAU 6285. These results show that striatal 5-HT₄ receptors are involved in the 5-HT-induced enhancement of striatal DA release in vivo and that they are not located on striatal DA terminals.     

Effects of Arachidonic Acid on Dopamine Synthesis, Spontaneous Release, and Uptake in Striatal Synaptosomes from the Rat

Abstract: Arachidonic acid (AA) markedly stimulated, in a dose-dependent manner, the spontaneous release of [³H]dopamine ([³H]DA) continuously synthesized from [³H]tyrosine in purified synaptosomes from the rat striatum. As estimated by simultaneous measurement of the rate of [³H]H₂O formation (an index of [³H]tyrosine conversion into [³H]DOPA), the AA response was associated with a progressive and dose-dependent reduction of [³H]DA synthesis. In contrast to AA, arachidic acid, oleic acid, and the methyl ester of AA (all at 10⁻⁴ M ) did not modify [³H]DA release. The AA (3 × 10⁻⁵ M )-evoked release of [³H]DA was not affected by inhibiting AA metabolism, with either 5,8,11,14-eicosatetraynoic acid or metyrapone, suggesting that AA acts directly and not through one of its metabolites. AA also inhibited in a dose-dependent manner [³H]DA uptake into synaptosomes, with a complete blockade observed at 10⁻⁴ M . However, AA (10⁻⁴ M ) still stimulated [³H]DA spontaneous release in the presence of either nomifensine or other DA uptake inhibitors, indicating that AA both inhibits DA reuptake and facilitates its release process. Finally, the AA (10⁻⁴ M )-evoked release of [³H]DA was not affected by protein kinase A inhibitors (H-89 or Rp -8-Br-cAMPS) but was markedly reduced in the presence of protein kinase C inhibitors (Ro 31-7549 or chelerythrine).     

Characterisation of the zebrafish serotonin transporter functionally links TM10 to the ligand binding site

The selective serotonin reuptake inhibitors and tricyclic antidepressants act by inhibiting pre-synaptic reuptake of serotonin (5-HT) leading to elevated synaptic 5-HT concentrations. However, despite extensive efforts little is known about the protein-ligand interactions of serotonin transporter (SERT) and inhibitors. To identify domains and individual amino acids important for ligand binding, we cloned the serotonin transporter from zebrafish, Danio rerio , (drSERT) and compared its pharmacological profile to that of the human serotonin transporter (hSERT) with respect to inhibition of [³H]5-HT uptake and [³H]-escitalopram binding in transiently transfected human embryonic kidney cells; HEK293-MSR. Residues responsible for altered affinities inhibitors were pinpointed by generating cross-species chimeras and subsequent point mutations by site directed mutagenesis. drSERT has a higher affinity towards compounds of the imipramine class, desipramine in particular, exhibiting a 35-fold increased affinity compared to hSERT. drSERT has a 15–30-fold lower affinity towards cocaine and cocaine analogues. The differences in ligand recognition are shown to be primarily caused by interspecies differences in TM10 and were tracked down to three residues (Ala⁵⁰⁵, Leu⁵⁰⁶ and Ile⁵⁰⁷).     

Activating Mutations of the Serotonin 5-HT2C Receptor

Abstract: Site-directed mutagenesis was performed to create a mutant serotonin 5-HT_2C receptor that would mimic the active conformation of the native receptor. Structural alteration of receptor conformation was achieved by changing amino acid no. 312 from serine to phenylalanine (S312F) or lysine (S312K). After expression in COS-7 cells, the binding affinity of 5-HT for [³H]-mesulergine-labeled 5-HT_2C receptors increased from 203 n M (native) to 76 n M for S312F and 6.6 n M for S312K mutant receptors. 5-HT potency for stimulation of phosphatidylinositol (PI) hydrolysis increased from 70 n M (native) to 28 n M for S312F and 2.7 n M for S312K mutant receptors. The mutant receptors were constitutively active, stimulating PI hydrolysis in the absence of agonist. S312F and S312K mutations resulted in twofold and five-fold increases, respectively, in basal levels of PI hydrolysis. Mianserin and mesulergine displayed inverse agonist activity by decreasing basal levels of PI hydrolysis stimulated by S312K mutant receptors. [³H]5-HT and [³H]-mesulergine labeled the same number of S312K mutant receptors and 5'-guanylylimidodiphosphate had no effect on [³H]5-HT binding. These results indicate that serine → lysine mutation at amino acid no. 312 produces an agonist high-affinity state of the 5-HT_2C receptor that spontaneously couples to G proteins and stimulates PI hydrolysis in the absence of agonist.     

The Effect of Colchicine and Cytochalasin B on the Release of Taurine from the Chick Retina

Abstract: The effect of colchicine (0.5 mM) and of cytochalasin B (10⁻⁴ M) on the release of [³⁵S]taurine from the isolated chick retina, upon stimulation by 68.5 mM-KCl, 10⁻⁵ M-veratridine and 10 mM-glutamate, was studied. Cytochalasin and colchicine effects on taurine release were compared with those on K⁺-stimulated release of [³H]dopamine and [³H]GABA. Colchicine caused a marked decrease of the [³⁵S]taurine release evoked by the three stimulatory agents; it also decreased [³H]dopamine release without affecting that of [³H]GABA. Cytochalasin B significantly decreased the efflux of [³⁵S]taurine stimulated by glutamate or veratridine without altering that evoked by 68.5 mM-KCl. Cytochalasin practically suppressed the [³H]dopamine-stimulated release and slightly decreased that of [³H]GABA. This drug produced a high increase in the spontaneous release of labeled GABA and taurine. These results suggest that the release of taurine and GABA from the chick retina probably occurs through different mechanisms. It is suggested that taurine release may be related to a process involving contractile proteins.     

Protein Kinase FA/Glycogen Synthase Kinase-3α After Heparin Potentiation Phosphorylates τ on Sites Abnormally Phosphorylated in Alzheimer''s Disease Brain

In this work, we tested the effect of ion channel blockers and of phorbol ester treatments on [³H]dopamine ([³H]DA) release and neurotensin (NT)-induced facilitation of [³H]DA release from cultures of rat fetal mesencephalic cells. The potassium channel blockers tetraethylammonium and 4-aminopyridine increased basal [³H]DA release and decreased K⁺-evoked [³H]DA release, whereas apamin was without effect. K⁺-evoked [³H]DA release was decreased by ω-conotoxin and nifedipine, totally suppressed by cadmium, and unaffected by amiloride. These results show the differential sensitivity of [³H]DA release to blockade of various ion channels and suggest the involvement of N-type, L-type, and non-L-non-N-type, but not T-type, voltage-sensitive calcium channels in K⁺-evoked release. Phorbol 12-myristate 13-acetate increased both spontaneous and K⁺-evoked [³H]DA release, suggesting a modulatory action of protein kinase C on DA release in this system. Unexpectedly, however, the effects of the phorbol ester were not counteracted by the protein kinase C inhibitors H7, staurosporine, or polymyxin B. NT-induced facilitation of K⁺-evoked [³H]DA release was insensitive to most of the ion channel blockers, except cadmium (64% decrease in NT effect), suggesting that the corresponding potassium' and calcium channels were not involved in the effect of NT on [³H]DA release in this system. The NT effect was totally suppressed by phorbol ester treatments, indicating a possible desensitization of the corresponding transduction mechanisms after protein kinase C activation.     

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.