Regional release of aromatic amines from tissues of the rat brain in vitro

Abstract— Radioactive hydroxylated phenylethylamines were released in vitro by electrical stimulation of minces of brain tissues from several anatomically discrete areas, while labelled urea and amphetamine were poorly released from all regions. Release of [³H]norepinephrine occurred in the order hypothalamus > caudate nucleus ≥ cerebral cortex, thus in parallel with the distribution of endogenous norepinephrine. In contrast, [³H]tyramine was poorly released from cortical tissues but readily released from minces of caudate nucleus or hypothalamus. [³H]Octopamine was released from all areas, but was most readily released from thecaudatenucleus. Results for cerebral cortex were similar to those for coronal slices or minces of whole brain; release occurred in the order: norepinephrine > octopamine > tyramine in all three preparations. We suggest that certain β-hydroxylated phenolic phenylethyl-amines may be released from norepinephrine- or dopamine-containing nerve endings in the brain, and that their non-β-hydroxylated congeners may be released from neurons in which endogenous amines are not β-hydroxylated.     

N-Methyl-d-Aspartic Acid/Glycine Interactions on the Control of 5-Hydroxytryptamine Release in Raphe Primary Cultures

Abstract: Glutamic acid and glycine were quantified in cells and medium of cultured rostral rhombencephalic neurons derived from fetal rats. In the presence of 1 mM Mg²⁺, NMDA (50 μM) significantly stimulated (by 69%) release of newly synthesized 5-[³H]hydroxytryptamine ([³H]5-HT). d -2-Amino-5-phosphonopentanoate (AP-5; 50 μM) blocked the stimulatory effect of NMDA. AP-5 by itself inhibited [³H]5-HT release (by 25%), suggesting a tonic control of 5-HT by glutamate. In the absence of Mg²⁺, basal [³H]5-HT release was 60% higher as compared with release with Mg²⁺. AP-5 blocked the increased [³H]5-HT release observed without Mg²⁺, suggesting that this effect was due to the stimulation of NMDA receptors by endogenous glutamate. Glycine (100 μM) inhibited [³H]5-HT release in the absence of Mg²⁺. Strychnine (50 μM) blocked the inhibitory effect of glycine, indicating an action through strychnine-sensitive inhibitory glycine receptors. The [³H]5-HT release stimulated by NMDA was unaffected by glycine. In contrast, when tested in the presence of strychnine, glycine increased NMDA-evoked [³H]5-HT release (by 22%), and this effect was prevented by a selective antagonist of the NMDA-associated glycine receptor, 7-chlorokynurenate (100 μM). 7-Chlorokynuren-ate by itself induced a drastic decrease in [³H]5-HT release, indicating that under basal conditions these sites were stimulated by endogenous glycine. These results indicate that NMDA stimulated [³H]5-HT release in both the presence or absence of Mg²⁺. Use of selective antagonists allowed differentiation of a strychnine-sensitive glycine response (inhibition of [³H]5-HT release) from a 7-chlorokynurenate-sensitive response (potentiation of NMDA-evoked [³H]5-HT release).     

IN VITRO EXPERIMENTS ON THE METABOLISM, ACCUMULATION AND RELEASE OF 5-HT IN THE NERVOUS SYSTEM OF THE SNAIL HELIX POMATIA

Abstract— The accumulation, metabolism and stimulated-induced release of 5-HT in the nervous system of the snail was studied. When nervous tissue was incubated at 24°C in a medium containing [¹⁴C]5-HT or [³H]tryptophan, tissue: medium ratios of about 25:1 and 4:1 respectively were obtained after 45 min incubation. The process responsible for [¹⁴C]5-HT accumulation showed properties of an active transport system: it was temperature sensitive and was greatly inhibited by dinitrophenol and ouabain. Furthermore, the accumulation process was inhibited by imipramine and desipramine. Of a number of analogues of indole, N-acetyl-5-HT and 5-hydroxytryptophan were the most potent in the inhibition of the accumulation of [¹⁴C]5-HT. The presence of a large molar excess of amino acids had little effect. A small amount (less than 14 per cent) of the accumulated [¹⁴C]5-HT was metabolized to form 5-hydroxyindole acetic acid, even after long periods (2 h) of incubation. The accumulated [³H]tryptophan was metabolized to form 5-hydroxytryptophan and 5-HT; the content of formed [³H]5-HT increased with incubation time whilst the [³H]5-hydroxytryptophan remained more or less constant. The presence of p-chlorophenylalanine in the incubation medium did not interfere with the accumulation of [³H]tryptophan, though it inhibited the formation of [³H]5-hydroxytryptophan and to a greater extent [³H]5-HT. A rapid efflux of the accumulated [¹⁴C]5-HT from snail nervous tissue was observed on electrical stimulation. Slower release resulted when the Ca²⁺ ion content of the incubation medium was replaced by Mg²⁺ ions. There is also a slight efflux of radioactive substances following electrical stimulation in tissues previously incubated in [³H]tryptophan. Most of this radioactivity was attributed to the formed [³H]5-HT. The data support the idea that 5-HT is a transmitter-substance in the snail Helix pomatia, and that re-uptake of the substance is a method of inactivating the released amine.     

Chronic Nicotine Administration Differentially Affects Neurotransmitter Release from Rat Striatal Slices

Abstract: The objective of these experiments was to determine whether the chronic administration of nicotine, at a dose regimen that increases the density of nicotine binding sites, alters the nicotine-induced release of [³H]dopamine ([³H]DA), [³H]norepinephrine ([³H]NE), [³H]serotonin ([³H]5-HT), or [³H]acetylcholine ([³H]ACh) from rat striatal slices. For these experiments, rats received subcutaneous injections of either saline or nicotine bitartrate [1.76 mg (3.6 µmol)/kg, dissolved in saline] twice daily for 10 days, and neurotransmitter release was measured following preloading of the tissues with [³H]DA, [³H]NE, [³H]5-HT, or [³H]choline. Chronic nicotine administration did not affect the accumulation of tritium by striatal slices, the basal release of radioactivity, or the 25 mM KCl-evoked release of neurotransmitter. Superfusion of striatal slices with 1, 10, and 100 µM nicotine increased [³H]DA release in a concentration-dependent manner, and release from slices from nicotine-injected animals was significantly (p < 0.05) greater than release from saline-injected controls; release from the former increased to 132, 191, and 172% of release from the controls following superfusion with 1, 10, and 100 µM nicotine, respectively. Similarly, [³H]5-HT release increased in a concentration-related manner following superfusion with nicotine, and release from slices from nicotine-injected rats was significantly (p < 0.05) greater than that from controls. [³H]5-HT release from slices from nicotine-injected rats evoked by superfusion with 1 and 10 µM nicotine increased to 453 and 217%, respectively, of release from slices from saline-injected animals. The nicotine-induced release of [³H]NE from striatal slices was also concentration dependent but was unaffected by chronic nicotine administration. [³H]ACh release from striatal slices could not be detected when samples were superfused with nicotine but was measurable when tissues were incubated with nicotine. The release of [³H]ACh from slices from nicotine-injected rats was significantly (p < 0.05) less than release from controls and decreased to 36, 83, and 77% of control values following incubation with 1, 10, or 100 µM nicotine, respectively. This decreased [³H]ACh release could not be attributed to methodological differences because slices from nicotine-injected rats incubated with nicotine exhibited an increased [³H]DA release, similar to results from superfusion studies. In addition, it is unlikely that the decreased release of [³H]ACh from striatal slices from nicotine-injected rats was secondary to increased DA release because [³H]ACh release from slices from hippocampus, which is not tonically inhibited by DA, also decreased significantly (p < 0.05) in response to nicotine; hippocampal slices from nicotine-injected rats incubated with 1 and 10 µM nicotine decreased to 42 and 70%, respectively, of release from slices from saline-injected animals. Results indicate that the chronic administration of nicotine increases the ability of nicotine to induce the release of [³H]DA and [³H]5-HT and decreases the ability of nicotine to evoke the release of [³H]ACh but does not alter the nicotine-induced release of [³H]NE from brain slices.     

FEEDBACK REGULATION OF 5-HT SYNTHESIS IN RAT STRIATAL SLICES

The effects of changes in intraneuronal levels of 5-HT induced by monoamine oxidase inhibitors (MAOI) given in vivo or exogenous 5-HT added in vitro on 5-HT synthesis in striatal slices of the rat have been examined. The synthesis of 5-HT was estimated by the measurement of the total formation of [³H]5-HT and [³H]5-hydroxyindole acetic acid from [³H]tryptophan and by calculation of the conversion index (CI) of tryptophan into 5-HT. The small formation of [³H]tryptamine and [³H]indole acetic acid from [³H]tryptophan was taken into account in the estimation of 5-HT synthesis. Both MAOI pretreament (180 min) and 5-HT (2·8 μM) inhibited synthesis. The latter effect persisted in catecholamine depleted tissues and was related to intraneuronal changes in 5-HT levels, since it could be prevented by chlorimipramine. The inhibition of 5-HT synthesis was related to the decreased conversion of tryptophan into 5-hydroxytryptophan and could not be prevented by p-chloro-phenylalanine pretreatment which depleted 5-HT levels or by dibutyryl cyclic AMP which normally stimulated 5-HT synthesis. Tryptophan uptake in slices was not affected by exogenous 5-HT. The various mechanisms possibly involved in the end product regulation process of 5-HT synthesis are discussed.     

[3H]Acetylcholine and [3H]5-hydroxytryptamine release from rat midbrain slices and the effects of calcium and phenobarbital

The K-stimulated release of [³H]ACh from rat midbrain slices prelabeled by incubation with [³H]choline was dependent on extracellular Ca. Phenobarbital inhibited the K-stimulated [³H]ACh release and the IC₅₀ was equal to that found for K-stimulated endogenous ACh release. These results support the suggestion that barbiturates primarily inhibit the Ca-dependent stimulated release of ACh and affect ACh synthesis only indirectly. K-Stimulated release of [³H]5-HT was also inhibited by removing Ca from the medium or by adding phenobarbital which further supports the effects of barbiturates on the depolarization-induced release process. Fluoxetine, an inhibitor of 5-HT uptake, increased the amount of [³H]5-HT found in the medium but did not fully block the uptake of [³H]5-HT in this slice preparation.     

The stimulation of GABAB receptors increases serotonin release in the rat suprachiasmatic area

The action of γ-aminobutyric acid (GABA) and related compounds on the spontaneous release of newly synthesized [³H]5-hydroxytryptamine ([³H]5-HT) was studied in the suprachiasmatic area (SCA) using a superfusion system. GABA (10 μM) increased [³H]5-HT release from SCA by up to 190%. Bicuculline or picrotoxin (10 μM) failed to inhibit the stimulatory effect of GABA. Muscimol (10 μM), a GABA_A agonist, was ineffective, however β-p-chlorophenyl GABA, R(−)baclofen, enhanced over 200% the release of the indoleamine; this latter effect was stereospecific. RS baclofen was twice less potent than the R(−)isomer in increasing the [³H]5-HT release. S(+)baclofen failed to affect the release of the indoleamine, whereas it attenuated the effect of its enantiomer. The effect of R(−)baclofen was Ca²⁺ dependent and was abolished by tetrodotoxin (TTX).Taken together these results suggest that in the SCA, [³H]5-HT release is facilitated by the stimulation of GABA_B receptors. The possible localization of these receptors is discussed in the light of morphological data recently reported by Bosler et al. (1985) and results obtained after TTX application.     

Characterization of Multiple [3H]5–Hydroxytryptamine Binding Sites in Rat Spinal Cord Tissue

Abstract: High-affinity [³H]5-hydroxytryptamine ([³H]5-HT) binding in the rat spinal cord is similar to that demonstrated in the frontal cortex. [³H]5-HT binds with nearly the same affinity to sites in both tissues. Furthermore, similar patterns of displacement of [³H]5–HT were seen in both tissues, with either spiperone or LSD as the unlabeled ligand. This high-affinity binding appears to be to multiple sites, since displacement studies using 2 nM [³H]5–HT result in Hill coefficients less than unity for spiperone, LSD, and quipazine [Hill coefficients (n_H): 0.44, 0.39, 0.40, respectively]. These sites apparently have an equal affinity for [³H]5-HT, since unlabeled 5-HT did not discriminate between them. Thus, the high-affinity [³H]5-HT binding in the spinal cord may be analogous to that observed in the frontal cortex, where two populations of sites have previously been described (5-HT_IA, 5-HT_IB). In addition to the multiple high-affinity spinal cord binding sites, a low-affinity [³H]5-HT binding component was also identified. A curvilinear Scatchard plot results from saturation studies using [³H]5-HT (0.5–100 nM) in the spinal cord. The plot can be resolved into sites having apparent dissociation constants of 1.4 nM and 57.8 nM for the high-and low-affinity components, respectively. Additional support for a change in affinity characteristics at higher radioligand concentrations comes from the displacement of 30 nM [³H]5-HT by the unlabeled ligand. A nonparallel shift in the dissociation curve was seen, resulting in a Hill coefficient less than unity (0.32). None of the specifically bound [³H]5-HT in the spinal cord is associated with the 5-HT uptake carrier, since fluoxetine, an inhibitor of 5-HT uptake, does not alter binding characteristics. In addition, a 5-HT binding site analogous to the site designated 5-HT, was not apparent in the spinal cord. Ketanse-rin and cyproheptadine, drugs that are highly selective for 5-HT, sites, did not displace [³H]5-HT from spinal tissue, and [³H]spiperone, a radioligand that binds with high affinity to 5-HT₂ sites, did not exhibit saturable binding in the tissue. Thus, the 5-HT₂ binding site reported in other regions of the central nervous system, and the serotonin uptake carrier do not appear to contribute to the multiple binding sites demonstrated in the spinal cord.     

EFFECTS OF DOPAMINERGIC AGONISTS AND ELECTRICAL STIMULATION OF THE MIDBRAIN RAPHÉ ON THE RELEASE OF 5-HYDROXYTRYPTAMINE FROM THE CAT BRAIN IN VIVO

—The cerebroventricular system of spinal-sectioned cats was perfused with artificial cerebrospinal fluid after the intraventricular administration of [³H]tryptophan, and the perfusate was analyzed for [³H]5-HT. At the end of the experiment the relative contents of [³H]5-HT in regions lining the cerebroventricular system (caudate nucleus, septum, hypothalamus) were essentially the same as the endogenous 5-HT contents. Electrical stimulation of the midbrain raphé did not alter the efflux of total radioactivity but significantly increased the efflux of [³H]5-HT. The addition of potassium to the perfusing CSF also increased the efflux of [³H]5-HT, while additions of d-amphetamine, apomorphine or l -DOPA were without effect.     

Characterization of an Adenylate Cyclase-Linked Serotonin (5-HT1) Receptor in a Neuroblastoma × Brain Explant Hybrid Cell Line (NCB-20)

Clonal cell line NCB-20 (a hybrid of mouse neuroblastoma N18TG2 and Chinese hamster 18-day embryonic brain expiant) expressed both high- (K_D 180 nM) and low-affinity (>3000 nM) binding sites for [³H]serotonin (5-HT) which were absent from the parent neuroblastoma. The low-affinity binding site was eliminated by 1 μM spiperone. The order of drug potency for inhibition of high-affinity [³H]5-HT binding was consistent with a 5-HT₁ receptor (5,6 - dihydroxytryptamine = 5-HT = methysergide = 5-methoxytryptamine > cyproheptadine = clozapine = mianserin > spiperone > dopamine = morphine = ketanserin = norepinephrine). [³H]5-HT binding was inhibited by guanine nucleotides (e.g., GTP and Gpp(NH)p), whereas antagonist binding was not; as-corbate was also inhibitory. A 30-min exposure of cells to 1—2 μM 5-HT or other agonists produced a three- to fivefold stimulation of cyclic AMP levels. The order of potency for 5-HT agonist stimulation of basal cyclic AMP levels and 5-HT antagonist reversal of agonist-stimulated levels was the same as the order of drug potency for inhibition of high-affinity [³H]5-HT binding, suggesting linkage of the 5-HT₁ receptor to adenylate cyclase in NCB-20 cells.     

The alteration of serotonin binding sites in aged human brain

The $\text{in}$$\text{vitro}$ binding of [³H]serotonin ([³H]5-HT) to cerebral cortex from young and old adult humans was studied. With cortex from human males 23–29 years old, the binding of [³H]5-HT was a saturable process, and bound [³H]5-HT could be displaced by unlabeled 5-HT or by lysergic acid diethylamide (LSD). Two separate binding sites were discernible by Scatchard analysis. The dissociation constants were 7 nM (Kd₁) and 52 nM (Kd₂), and the total number of binding sites were 0.65 (n₁) and 2.06 (n₂) pmoles/mg protein, respectively. In cerebral cortex from aged humans (61–70 years old), the dissociation constant for [³H]5-HT binding was 198 nM, and the total number of binding sites were 4.78 pmoles/mg protein. The alteration of serotonin binding sites may be related to cerebral malfunction in old people, particularly to mental depression and sleep disturbances that commonly occur.     

Effects of 5-hydroxytryptophan on serotonin in nerve endings

—Preparations of synaptosomes (P₂) from the telencephalon and from the diencephalon plus optic lobes of the pigeon and from the telencephalon of the rat were used to study the effects of 5-hydroxytryptophan (5-HTP) on (a) the levels of serotonin (5-HT) in nerve endings and (b) the release of 5-HT from nerve endings. The levels of 5-HT were significantly higher (3.21 × 0.35 nmol/g original tissue weight) in the P₂ fraction isolated from the telencephalon of pigeons given intramuscular injections of 50mg/kg of d ,l -5-HTP in comparison to control values (1.42 ± 0.07). A similar twofold increase was observed with the P₂ fraction isolated from the diencephalon plus optic lobes. In addition, the levels of 5-HTP and 5-hydroxyindoleacetic acid also increased significantly in these P₂ fractions isolated from pigeons given d ,l -5-HTP injections in comparison to values obtained for pigeons given saline injections. In vitro studies using preparations of synaptosomes (from both pigeon and rat) labelled with [³H]5-HT indicated that 0.10 mil l -5-HTP increased the release of [³H]5-HT twofold over control values. A concentration as low as 0.001 mm l -5-HTP was tested on the P₂ fraction from the telencephalon of the pigeon and was found to significantly increase the release of [³H]5-HT over control values. This effect by l -5-HTP was blocked if a decarboxylase inhibitor was added to the medium. l -5-HTP at a concentration of 1.5 mm had no apparent effect on the release of [³H]norepinephrine or [³H]dopamine from synaptosomes prepared from the telencephalon of the rat or pigeon. The results are discussed in terms of the role of serotonin in producing certain types of behavioral depressions exhibited by pigeons and rats given injections of 5-HTP.     

Increased GABA Release in the Human Brain Cortex as a Potential Pathogenetic Basis of Hyperosmolar Diabetic Coma

Human cerebral cortical slices preincubated with [³H]GABA, [³H]noradrenaline, or 5-[³H]hydroxytryptamine and superfused with Krebs solution or Mg²⁺-free Krebs solution were used to investigate the influence of increased D-glucose concentrations on the release of these [³H]-neurotransmitters evoked by high K⁺ content or NMDA receptor activation, respectively. An increase in level of D-glucose (normal content, 11.1 mM) by 32, 60, and/or 100 mM (a range characteristic for hyperosmolar diabetic coma) increased the [³H]GABA release and inhibited the [³H]noradrenaline release evoked by both methods of stimulation. The K⁺-induced 5-[³H]hydroxytryptamine release was also inhibited by high D-glucose content. Blockade of GABA_B receptors by p-(3-aminopropyl)-p-diethoxymethylphosphinic acid (CGP 35348) attenuated the inhibitory effect of high D-glucose content on the K⁺-evoked release of [³H]noradrenaline and 5-[³H]hydroxy-tryptamine, suggesting that the effect on monoamine release is, at least to a major part, the result of the increased GABA release and, as a consequence, of an increased GABA concentration at inhibitory GABA_B receptors. The membrane-impermeable sorbitol mimicked the increasing effect of D-glucose on [³H]GABA release and its inhibitory effect on 5-[³H]hydroxytryptamine release. However, dimethyl sulfoxide, which is known to permeate rapidly through biological membranes, had no effect at concentrations equiosmolar to D-glucose. It is concluded that a reduction in brain cell volume caused by increased extracellular, compared with cytoplasmic, osmolarity is crucial for the changes in neuronal function observed at high D- glucose and sorbitol content, In view of the fact that GABA is the main inhibitory neurotransmitter in the brain, the increased GABA release may be assumed to contribute to the pathogenesis of hyperosmolar diabetic coma.     

The activation of phosphatidylinositol turnover is not directly involved in the modulation of neurotransmitter release mediated by presynaptic muscarinic receptors

In the rat cerebral cortex, the comparative effects of various muscarinic agonists on the release of [³H]dopamine ([³H]DA), [³H]acetylcholine ([³H]ACh), and [³H]5-hydroxytryptamine ([³H]5-HT) from superfused nerve endings and on phosphatidylinositol (PI) turnover were studied. Acetylcholine (ACh) was found to be the most potent among the agonists tested on all three release systems examined, and also on the activation of PI turnover. Oxotremorine and bethanechol were very weak agonists when tested as stimulators of PI turnover. However, oxotremorine was very effective as a release modulator, while bethanechol was completely ineffective. Our data suggest that the activation of PI turnover is not directly involved in the modulation of neurotransmitter release mediated by presynaptic muscarinic receptors.     

RELEASE OF NOREPINEPHRINE FROM NEURONS IN DISSOCIATED CELL CULTURES OF CHICK SYMPATHETIC GANGLIA VIA STIMULATION OF NICOTINIC AND MUSCARINIC ACETYLCHOLINE RECEPTORS

Abstract— Dissociated cell cultures of chick embryo sympathetic ganglia were incubated with [³H]nor-epinephrine ([³H]NE) which was taken up and stored in reserpine-sensitive sites. Exposure of the cultures to cholinergic agonists for 5 min intervals resulted in the releaseof a significant proportion (2–20%) of the intracellular stores of [³H]NE. Studies with specific cholinergic agonists and antagonists indicated that release of [³H]NE could be evoked by stimulation of either nicotinic or muscarinic receptors. Release evoked by both nicotinic and muscarinic agonists was totally blocked in the presence of 3 μM-tetrodotoxin. thus indicating that release was mediated via active electrical responses. Release by both types of agonists was also blocked in the presence of elevated Mg²⁺ or when free Ca²⁺ was removed from the extracellular medium. These findings are consistent with the presence of a stimulus-secretion coupling mechanism. Release evoked by nicotine was optimal in the presence of 1.2 mM-Ca²⁺, whereas release evoked by the muscarinic agonist methacholine increased by about 2-fold when the Ca²⁺ concentration was decreased from 1.2 to 0.3 mM. The latter observation may be due to a lowered threshold for evocation of active responses at low concentrations of Ca²⁺. Finally, no evidence was observed for interaction between the two types of receptors. These findings (a)indicate that cultured chick sympathetic neurons possess functional nicotinic and muscarinic cholinergic receptors as well as the ability to release NE via a stimulus-secretion coupling mechanism; (b) suggest that such cultures may be particularly useful for studying the molecular events which link stimulation of cholinergic receptors to neurotransmitter release; and (c) provide further evidence that muscarinic receptors may play aphysiological role in ganglionic transmission.     

Release of serotonin from nerve endings byl-5-hydroxytryptophan,α-methyl-m-tyramine,and elevated potassium ions

The release of [³H]5-hydroxytryptamine ([³H]5-HT) byl-5-hydroxytryptophan (L-5-HTP),-methyl-m-tyramine (-MMTA), and elevated levels of K⁺ was studied using crude synaptosomal preparations (P₂) isolated from the telencephalon of the rat and pigeon. Studies were conducted in vitro in the presence of either 2×10^–5 M tranylcypromine, which inhibited the MAO activity of both the extrasynaptosomal mitochondria and the mitochondria contained within the nerve endings (intrasynaptosomal mitochondria), or 2×10^–5 M nialamide, which inhibited the MAO activity of the extrasynaptosomal mitochondria under the experimental conditions used. In the P₂ fraction isolated from the rat, either 55 mM K⁺, 0.10 mMl-5-HTP, or 0.03 mM-MMTA significantly increased the release of [³H]5-HT above control levels, regardless of which MAO inhibitor was present in the medium. In the presence of tranylcypromine, this increased release by 55 mM K⁺ or 0.10 mMl-5-HTP was partially suppressed if Ca²⁺ was omitted from the medium. In the presence of nialamide, the release by 55 mM K⁺ was completely prevented if Ca²⁺ was omitted; the release byl-5-HTP was only partially affected. The release of [³H]5-HT by-MMTA did not appear to be markedly affected by removal of Ca²⁺, regardless of which MAO inhibitor was present. Very similar data were obtained in the presence of nialamide using the P₂ fraction isolated from the telencephalon of the pigeon, with the exception that 0.10 mMl-5-HTP caused an increase in the release of [³H]5-HIAA (which was not calcium-dependent) instead of [³H]5-HT. The data are discussed in     

On the uptake and storage of 5-hydroxytryptamine, 5-hydroxytryptophan and catecholamines by adrenal chromaffin cells and nerve endings

Summary Light-microscopic autoradiographs of the adrenal medulla at various intervals after the intravenous injection of [³H] 5-HTP, [³H] 5-HT, [³H] noradrenaline and [³H] adrenaline have been studied. The distribution of silver grains following [³H] 5-HTP uptake was found to be uniform over each of the two main cell populations, adrenaline-storing (A) cells and noradrenaline-storing (NA) cells in the adrenal medulla, but A cells were twice as active as NA cells in incorporating the isotope, a situation very similar to that found after [³H] dopa uptake. 5-HT administration resulted in a pattern resembling the distribution of [³H] noradrenaline uptake, with A cells being 4 or 5 times more active than NA cells and a gradient of activity from the periphery of the medulla inwards. However, the time-course for the loss of radioactivity was not the same for both amines: levels of 5-HT activity were not significantly reduced after one week whereas the degree of [³H] noradrenaline labelling after one week was less than 10% of that at one hour. Thus 5-HT may be bound to sites in the adrenal medulla normally occupied by noradrenaline but it would appear that the release mechanism is different. There was no evidence of 5-HT uptake by adrenal nerve endings.     

Neurotransmitter-induced changes in arachidonate incorporation into rat brain phospholipids: pharmacological manipulations of receptors,presynaptic uptake,mao activity and deacylation-reacylation processes

The incorporation of [³H]arachidonic acid ([³H]AA) into phospholipids (PL) of rat brain, was studied in cerebral cortex slices in the presence and absence of norepinephrine (NE), serotonin (5-HT) and carbamylcholine (CCH). Both NE and 5-HT produced a concentration-dependent effect of stimulating [³H]AA incorporation into phosphatidylinositol (PI) while attenuating incorporation into other PL. Addition of CCH had no apparent effect. The β-adrenergic agonist, isoproterenol, had an effect similar to that seen with equimolar concentrations of NE, whereas the α₁ agonist, phenylephrine, or the α₂ agonist, clonidine, did not produce significant changes. However, application of the NE-receptor blockers, propranolol or prazosin, in the presence of NE, did not modify the NE-induced effects. Similarly, the 5-HT-receptor blockers, methysergide or ketanserine, failed to modify the 5-HT-induced effects, indicating that the neurotransmitter-produced changes may not be receptor mediated. Manipulations of the NE or 5-HT reuptake systems by imipramine (IMI) or desipramine (DMI) had a small additive effect on the neurotransmitter-produced changes in [³H]AA incorporation, suggesting that a functional presynaptic reuptake system is not required for the NE or 5-HT-produced effects. The possibility that the NE or 5-HT effects involve the oxidative metabolism of the monoamines by MAO was also investigated. The MAO inhibitors tranylcypromine and pargyline had no appreciable effect on the neurotransmitter-induced changes in [³H]AA incorporation whereas clorgyline clearly reduced the increase in [³H]AA incorporation into PI seen in the presence of NE or 5-HT, but this clorgyline effect may not be related to its activity as MAO inhibitor. The phospholipase A₂ inhibitor mepacrine had no significant effect on the NE-produced increase in [³H]AA incorporation into PI, but it antagonized the NE-produced decrease in [³H]AA incorporation into PC. Delta-9-Tetrahydrocannabinol, which acts as acyltransferase inhibitor, antagonized the NE-produced increase in [³H]AA incorporation into PI without appreciably influencing the NE-produced decrease in [³H]AA incorporation into PC. These findings suggest that the neurotransmitter-produced increase in [³H]AA incorporation into PI is mediated by stimulation of a specific lyso-PI arachidonyl transferase. The neurotransmitter effects on arachidonate incorporation may have physiological significance in view of the importance of processes of deacylation and reacylation of membrane PL in regulating the function of neuronal membranes.     

The role of various calcium and potassium channels in the regulation of somatodendritic serotonin release

We prepared slices from midbrain containing the raphe nuclei and from hippocampus of rats. The brain slices were loaded with [³H]serotonin and superfused in order to measure the release of radioactivity at rest and in response to electrical stimulation. No difference was observed in the resting and stimulated fractional release of tritium in the somatodendritic and axon terminal parts of serotonergic neurons. The selective 5-HT_1A receptor agonist 8-OH-DPAT decreased the electrically induced tritium effux from raphe nuclei slices preloaded with [³H]serotonin, and this inhibition was reversed by 5-HT_1A receptor antagonist (+)WAY-100135. The 5-HT_1B receptor agonist CGS-12066B but not 8-OH-DPAT, inhibited the stimulation-evoked tritium efflux from hippocampal slices after labeling with [³H]serotonin. The electrical stimulation-evoked tritium efflux in raphe nuclei slices incubate with [³H]serotonin was completely external Ca²⁺-dependent, and omega-conotoxin GVIA and Cd²⁺, but not diltiazem, inhibited the tritium overflow. In raphe nuclei slices 4-aminopyridine enhanced the electrical stimulation-induced trititum release in a concentration-dependent manner. The inhibition of tritium efflux by 8-OH-DPAT was abolished with 4-aminopyridine. Glibenclamide or tolbutamide proved to be ineffective. These data indicate that (1) different 5-HT receptor subtypes (5-HT_1A and 5-HT_1B) regulate dendritic and axon terminal 5-HT release; (2) serotonin release from the dendrites may be regulated by the voltage-sensitive N-type Ca²⁺ channels; (3) the 5-HT_1A receptor-mediated inhibition of serotonin release may be due to opening of voltage-sensitive K⁺ channels.     

Identification of 5-hydroxytryptamine binding substances from rat brain stem

Abstract— Godwin & Sneddon (1975) reported the binding of 5-hydroxy-[³H]tryptamine (5-HT) on a Sephadex LH-20 column to‘proteolipid material’extracted with n-butanol from rat brain stem. An examination of this‘proteolipid material’with TLC showed the main constituents to be cerebroside sulfate (CS), monophosphoinositide (PI), and diphosphoinositide. The elution profiles of [³H]5-HT incubated with purified CS or with a mixture of CS and PI were similar to that of the brain extract on the same column. Because the elution profile of the mixture of CS and PI was more similar to that of the brain extract, it was concluded that what was suggested to be a possible proteolipid‘5-HT receptor’was mainly two acidic lipids. The elution profile of [³H]5-HT incubated with purified PI, however, was similar to [³H]5-HT eluted alone. This suggested that either PI did not bind to 5-HT or that the PI-5-HT complex possesses different Chromatographie behavior than PI. To test this latter possibility, [¹⁴C]5-HT and [³H]PI were incubated then eluted on a Sephadex LH-20 column with a continuous gradient of increasing polarity. The gradient first eluted PI, then an apparent PI-5-HT complex, and finally 5-HT. This demonstrated that PI will bind to 5-HT on a Sephadex LH-20 column and that the PI-5-HT complex is probably more polar than PI.