Monoamine oxidase activity in embryos of pike (Esox lucius)

1. Mitochondrial MAO specific activity was measured in eggs and early embryos of the teleostean fish Esox lucius using tryptamine, 5-hydroxytryptamine (5-HT) and phenylethylamine (PEA) as substrates. 2. Tryptamine is the most readily deaminated substrate in mitochondria isolated from unfertilized eggs and embryos at the stages of cleavage, blastula and gastrula. 3. Monoamine oxidase activity gradually decreases during development and at the gastrula stage it is respectively 80% (tryptamine), 70% (5-HT) and 50% (PEA) of that found in the egg using the corresponding substrate. 4. The inhibition of egg MAO activity by clorgyline and deprenyl measured in E. lucius eggs using tryptamine as substrate, indicates the presence of a single form of MAO not corresponding to the MAO A and MAO B described in terrestrial vertebrates.     

Some characteristics of mitochondrial monoamine oxidase activity in eggs of carp (Cyprinus carpio) and rainbow trout (Salmo gairdneri)

1. Monoamine oxidase (MAO) activity towards tryptamine, 5-hydroxytryptamine (5-HT) and phenylethylamine (PEA) has been measured in mitochondria isolated from carp and trout eggs. 2. In carp eggs all the tested substrates are metabolized and the highest affinity is found with tryptamine. In trout eggs a consistent level of MAO activity is obtained using tryptamine. 3. The inhibition dose-response curves of clorgyline and deprenyl indicate that both in carp and trout eggs there is only one form of mitochondrial MAO, distinct from MAO A and B which have been described in vertebrate tissues. 4. Both in carp and trout egg mitochondria a semicarbazide-sensitive amine oxidase is not involved in the deamination of the used substrates. 5. MAO found in carp and trout eggs might be involved in metabolism of some neurotransmitter monoamines during early developmental stages.     

The possible site of action of 5-hydroxytryptamine, 6-hydroxytryptamine, tryptamine and dopamine on identified neurons in the central nervous system of the snail, Helix aspersa

Intracellular recordings were made from identified neurons in the right parietal ganglion of the snail, Helix aspersa. Cells F 4, 5 and 6 were excited by 5-hydroxytryptamine (5-HT) and inhibited by dopamine while cells in the F 30 area were inhibited by both compounds. Low doses of both tryptamine and 6-HT produced weak excitation of cells F 4, 5 and 6 while higher doses of both compounds inhibit the activity of these cells. In terms of the inhibitory responses, tryptamine and 6-HT are approximately equipotent but between 10 and 100 times less potent than dopamine. d-Tubocurarine reversibly antagonized the excitatory action of 5-HT on cells F 4, 5 and 6 and converted tryptamine and 6-HT excitation to inhibition. In the presence of the antagonist, ergometrine, the dopamine inhibitory response was almost completely abolished while the inhibitory responses to tryptamine and 6-HT were converted to weak excitation. All four agonists inhibited cells in the F 30 area with the following potency ratios: dopamine much greater than tryptamine/6-HT greater than 5-HT. Tubocurarine had no antagonist effects on these responses while ergometrine reduced or blocked all four, often irreversibly. In potassium-free Ringer the inhibitory responses to all four agonists were enhanced. It is concluded that on cells F 4, 5 and 6, low concentrations of tryptamine and 6-HT act on 5-HT receptors while higher concentrations of both agonists act on dopamine receptors. On cells in the F 30 area, 5-HT, 6-HT and tryptamine all act on a dopamine receptor.     

5-Methoxytryptoline, a Competitive Endocoid Acting at [3H]Imipramine Recognition Sites in Human Platelets

5-Methoxytryptoline potently inhibits [3H]imipramine binding to membranes from the cerebral cortex and platelets. Since 5-methoxytryptoline, which appears to occur endogenously with particularly high levels in the human pineal gland, also inhibits 5-hydroxytryptamine (5-HT, serotonin) uptake, it should be considered as a putative endogenous ligand modulating 5-HT transport. As the 5-HT transporter complex comprises the imipramine and the substrate recognition sites, which interact allosterically, it was essential to define the mechanism of inhibition of [3H]imipramine binding by 5-methoxytryptoline. Human platelets show an active and saturable uptake of 5-HT and tryptamine. The uptake of both substrates appears to be mediated by the same carrier and it is inhibited by 5-methoxytryptoline at submicromolar concentrations. 5-HT and tryptamine inhibit [3H]imipramine binding in human platelets with a Hill slope for inhibition close to unity and IC50 values of 3,265 and 3,475 nM, respectively. This inhibition is, however, not competitive because both 5-HT and tryptamine significantly decrease the rate of [3H]imipramine-receptor dissociation. Although 5-methoxytryptoline potently inhibits [3H]imipramine binding (IC50 = 44 nM) in human platelets with a Hill slope of unity, it does not affect the receptor-ligand dissociation rate of [3H]imipramine even at concentrations up to 100 microM. The present experiments show that 5-methoxytryptoline, in spite of its chemical similarity to the indoleamine transporter substrates, interacts with the imipramine receptor through a mechanism of competitive inhibition. This conclusion is supported by a selective effect of 5-methoxytryptoline on the Kd of [3H]imipramine binding.(ABSTRACT TRUNCATED AT 250 WORDS)     

Structural determinants of species-selective substrate recognition in human and Drosophila serotonin transporters revealed through computational docking studies

To identify potential determinants of substrate selectivity in serotonin (5-HT) transporters (SERT), models of human and Drosophila serotonin transporters (hSERT, dSERT) were built based on the leucine transporter (LeuT(Aa)) structure reported by Yamashita et al. (Nature 2005;437:215-223), PBDID 2A65. Although the overall amino acid identity between SERTs and the LeuT(Aa) is only 17%, it increases to above 50% in the first shell of the putative 5-HT binding site, allowing de novo computational docking of tryptamine derivatives in atomic detail. Comparison of hSERT and dSERT complexed with substrates pinpoints likely structural determinants for substrate binding. Forgoing the use of experimental transport and binding data of tryptamine derivatives for construction of these models enables us to critically assess and validate their predictive power: A single 5-HT binding mode was identified that retains the amine placement observed in the LeuT(Aa) structure, matches site-directed mutagenesis and substituted cysteine accessibility method (SCAM) data, complies with support vector machine derived relations activity relations, and predicts computational binding energies for 5-HT analogs with a significant correlation coefficient (R = 0.72). This binding mode places 5-HT deep in the binding pocket of the SERT with the 5-position near residue hSERT A169/dSERT D164 in transmembrane helix 3, the indole nitrogen next to residue Y176/Y171, and the ethylamine tail under residues F335/F327 and S336/S328 within 4 A of residue D98. Our studies identify a number of potential contacts whose contribution to substrate binding and transport was previously unsuspected.     

STRUCTURE ACTIVITY RELATIONS FOR THE INHIBITION OF 5-HT UPTAKE INTO RAT HYPOTHALAMIC HOMOGENATES BY SEROTONIN AND TRYPTAMINE ANALOGUES

Abstract— Various 5-HT and tryptamine analogues have been examined as inhibitors of [³H]5-HT uptake into rat hypothalamic homogenates. Acetylation of the terminal amino group or methylation of the hydroxyl group of 5-HT resulted in compounds having a reduced affinity for the serotonin uptake site. This also occurred when the hydroxyl group of 5-HT was substituted in other positions on the benzene ring. Substitution of the tryptamine side chain in the a-position by methyl or ethyl groups, but not by a carboxyl function, enhanced the affinity for the 5-HT uptake site. Increasing the tryptamine side chain by one carbon atom also resulted in a more potent compound. Several of the compounds tested are known to be either hallucinogens or antidepressants.     

The influx of tryptamine into snail (Helix pomatia) ganglia: comparison with 5-hydroxytryptamine.

Isolated ganglia possess the ability to concentrate tryptamine from an external medium by a process which is temperature sensitive and independent of sodium and other cations. Kinetic analysis of the accumulation process showed the influx of tryptamine to be a single mechanism with Km and Vmax values of 1.4 X 10(-4)M and 5 X 10(-8) mole/g/min. The influx of tryptamine is an unspecific process and is insensitive to a number of metabolic inhibitors and various analogues. The process of tryptamine influx is thus similar in principle to the low affinity uptake mechanism for 5-HT (see Osborne et al., 1975). The present data, which include some experiments on the release of 5-HT and tryptamine, are discussed from the point of view of a functional role for 5-HT and tryptamine in the snail CNS.     

Comparison of the cardiovascular responses to intracerebroventricular administration of tryptamine, 5-hydroxytryptamine, tryptophan and 5-hydroxytryptophan in rats

General characteristics of the cardiovascular responses to intracerebroventricular (i.c.v.) injection of tryptamine, 5-hydroxytryptamine (5-HT), tryptophan and 5-hydroxytryptophan (5-HTP) were compared. Relatively small doses of tryptamine and 5-HT (0.005-0.1 microM) produced considerable, long-lasting and dose-dependent pressor effects, which sometimes were followed by prolonged depressor effects. Tryptophan (0.02-0.5 microM) and 5-HTP (0.02-0.2 microM) caused variable and usually slight, but long-lasting, vascular responses or no vascular response A large dose of tryptamine (0.5 microM) evoked variable vascular effects, while the same dose of 5-HT and 5-HTP evoked marked and prolonged depressor effects. The vascular responses to the drugs were accompanied by variable changes in heart rate. Tryptamine, 5-HT and 5-HTP, in the majority of rats, produced a bradycardia. The present study provides evidence that the cardiovascular response to i.c.v. administration of tryptamine is similar to that of 5-HT, supporting the idea that tryptamine, in addition to 5-HT, participates in the central physiological regulation of the rat cardiovascular system. The role of tryptophan and 5-HTP by themselves in this regulation, if any is of secondary importance.     

Relative selectivity of some conformationally constrained tryptamine analogs at 5-HT1, 5-HT1A and 5-HT2 recognition sites

In an attempt to define pharmacophoric differences between 5-HT1, 5-HT1A and 5-HT2 recognition sites, a number of rigid analogs were studied and compared to analogous free chain tryptamines. Racemic partial ergolines RU 27849 and RU 28306 showed reduced potency at all 5-HT1 sites, but were at least equipotent to analogous tryptamines at the 5-HT2 site. A nonergoline-like constrained analog of tryptamine was similar in potency to RU 27849 at all 5-HT1 sites, but showed a 4-fold enhancement in potency over RU 27849 and tryptamine at the 5-HT2 site. At all 3 sites, 3-(tetrahydropyridyl) indoles (unless substituted at the indole 2-position) were the most potent rigid analogs studied and represent the most promising class for the development of selective compounds.     

Binding of tryptamine analogs at h5-HT1E receptors: a structure-affinity investigation

Structure-affinity requirements for the binding of serotonin (5-HT) analogs at human 5-HT1E receptors were investigated by examining the affinities of >40 tryptamine-related compounds. No tryptamine analog was found to bind with substantially higher affinity than 5-HT. The results indicate that hydrogen bonding plays a key role in the 5-HT1E/receptor interaction. This finding was supported using quantitative structure-activity analysis (QSAR) techniques such as comparative molecular field analysis (CoMFA) and the program QsarIS.     

Rat brain aryl acylamidase: multiple forms and inhibition effects of LSD, serotonin and related compounds

At least two forms of aryl acylamidase (E.C.3.5.1.13, AAA) were separated from rat brain extracts by ammonium sulfate precipitation (33–60% saturation) and subsequent Bio-Gel column chromatography. Fraction AAA-1 showed pH optimum at 7.5 whereas AAA-2 showed a pH optimum at 5.5 AAA-1 activity was markedly inhibited at pH 7.5 by d-LSD and 2-Br-LSD, moderately inhibited by 5-HT and slightly inhibited by tryptamine but it was not affected by 1-LSD, at 0.1 mM concentration. AAA-2 was only moderately inhibited at pH 5.5 by d-LSD and 2-Br-LSD but not affected by 1-LSD, 5-HT or tryptamine at the same concentrations. Catecholamines and their structurally related drugs had no significant effects on either enzyme activity. Kinetic studies with AAA-1 indicated competitive inhibition by d-LSD with a K_i value of 4.90 ± 0.61 μM.     

5-benzyloxytryptamine: a relatively selective 5-hydroxytryptamine 1D/1B agent.

The ability of nineteen tryptamine derivatives to interact with putative 5-hydroxytryptamine1D (5-HT1D) receptor binding sites in bovine caudate was analyzed. Sixteen of the nineteen agents competed, with variable potency, for these binding sites with Hill slopes of approximately unity. By contrast, 5-carboxyamidotryptamine (5-CT), sumatriptan and 5-benzyloxytryptamine (5-BT) competed with Hill slope values significantly less than unity. These three drugs share, in comparison to the sixteen other tryptamines, relatively large substitutions at the 5-position of the indole moiety. Additional radioligand binding studies with 5-BT indicate that the drug shows relative selectivity for 5-HT1D/1B binding sites. Functionally, 5-BT and sumatriptan inhibit 3H-5-HT release from guinea pig cortical synaptosomes with equal potency but 5-BT is significantly less efficacious than sumatriptan. These data indicate that 5-BT is a relatively selective partial agonist at 5-HT1D receptors.     

Effects of Methiothepin and Lysergic Acid Diethylamide on Serotonin Release In Vitro and Serotonin Synthesis In Vivo: Possible Relation to Serotonin Autoreceptor Function

Abstract: An in vitro system characterizing the presyn- aptic serotonin (5-HT) autoreceptor which controls the release of 5-HT from rat brain slices is described. Using this system, methiothepin (1–10 μ M) demonstrated 5-HT autoreceptor antagonist activity -by enhancing 5-HT release, while several recognized postsynaptic 5-HT receptor antagonists were inactive: mianserin, cinanserin, cyproheptadine, methysergide. The activity of methiothepin was highest in hypothalamic slices and lowest in striatal slices and was inhibited by the autoreceptor agonists lysergic acid diethylamide (LSD) and 5-methoxy- tryptamine (5-MT). The reversal of the methiothepin-enhanced 5-HT release from hypothalamic slices by LSD was not influenced by 0.3 μ M tetrodotoxin. The peripheral administration of LSD to rats has been shown to reduce 5-HT synthesis and release by a mechanism thought to involve, in part, an autoreceptor-mediated reduction in impulse flow of 5-HT neurons. In the present experiments, intraperitoneal injection of methiothepin antagonized the LSD-induced reduction in hypothalamic 5-HT synthesis (5-hydroxytryptophan accumulation) while exerting no influence by itself. Conversely, compounds which were not active as 5-HT autoreceptor antagonists in vitro (i.e., cyproheptadine, methysergide, cinanserin) did not influence the effect of LSD on 5-HT synthesis. Further, the reduction in 5-hydroxytryptophan (5-HTP) accumulation by LSD showed regional differences in inhibition by methiothepin (hypothalamus > cortex > striatum) which paralleled the autoreceptor antagonist activity of methiothepin in vitro. These data suggest that similar autoreceptor mechanisms control 5-HT release and synthesis in terminal 5-HT projection areas and that the reduction in 5-HT accumulation by LSD and the antagonism by methiothepin may represent a useful biochemical measure of 5-HT autoreceptor activity in vivo.     

Enhanced serotonin-stimulated adenylate cyclase activity in membranes from adult guinea pig hippocampus

We have developed an assay for serotonin (5-HT) stimulation of adenylate cyclase activity in membranes from adult guinea pig hippocampus. The response to 5-HT is concentration-dependent, with an EC50 of 0.01 microM, a shallow slope, and mean maximal stimulation of 90% over basal activity. The response to 5-HT is GTP-dependent and additive to the maximal stimulation by histamine. Micromolar concentrations of the known 5-HT receptor agonists, tryptamine and 5-methoxytryptamine, also stimulate cAMP production in this system, and their effect is not additive to that elicited by a maximal concentration of 5-HT. These results are consistent with the hypothesis that the response to 5-HT is elicited through a distinct receptor coupled to adenylate cyclase; the magnitude and the reproducibility of the 5-HT response in this system should make it useful for receptor classification. To examine the effect of prior exposure to endogenous 5-HT on the responsiveness of the system, we assayed 5-HT stimulation of enzyme activity in membranes prepared from animals 25-27 hrs after treatment with a single injection of reserpine (5 mg/kg, i.p.). The mean maximal stimulation of adenylate cyclase by 5-HT was increased to 150% over basal activity with no effect on the EC50 or slope of the 5-HT concentration-response curve. Reserpine pretreatment did not affect basal activity or histamine-stimulated adenylate cyclase activity. These results are discussed in the context of a hypothesis that endogenous 5-HT normally exerts a desensitizing effect on its receptors in situ.     

Formation of Thiazolidine-4-Carboxylic Acid Represents a Main Metabolic Pathway of 5-Hydroxytryptamine in Rat Brain

Incubation of 5-hydroxytryptamine (5-HT) with rat brain homogenate resulted in the formation of (4R)-2-[3'-(5'-hydroxyindolyl)-methyl]-1,3-thiazolidine-4-carboxyl ic acid (5'-HITCA) as the major metabolite. The substance represents the condensation product of 5-hydroxyindole-3-acetaldehyde with L-cysteine. The chemical structure was confirmed by chromatographic and chemical methods as well as by fast atom bombardment mass spectrometry. Incubation of 5-HT in the presence of L-cysteine yielded the thiazolidine as the main metabolite up to 4 h. Under these conditions, the concentration of 5-hydroxyindole-3-acetic acid (5-HIAA) amounted to about 20% and 57% of 5'-HITCA (0.5 h and 4 h, respectively). In contrast to these findings, indole-3-acetic acid (IAA) was identified as the major metabolite when tryptamine was incubated under similar conditions. (4R)-2-(3'-Indolylmethyl)-1,3-thiazolidine-4-carboxylic acid (ITCA) was found to be the main conversion product of tryptamine only during the first 30 min. To investigate the fate of the thiazolidines, radiolabelled and unlabelled ITCA was incubated with rat brain homogenate. The compound was degraded enzymatically and rapidly. Subcellular fractionation revealed that the enzyme activity was present mainly in the cytosolic fraction whereas the preparation of mitochondria showed less activity. The responsible enzyme is presumably a carbon-sulfur lyase (EC 4.4.1.-). The major metabolite was isolated by HPLC and identified by mass spectrometry as well as by comparison with reference compounds to be IAA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Threshold and receptor reserve in the action of 5-hydroxytryptamine on the salivary glands of Calliphora erythrocephala

The interrelationships of 5-HT receptors and the increased fluid secretion by isolated salivary glands of Calliphora have been studied using pharmacological techniques. Removal of the 5-OH group (tryptamine) or displacement to position 6 (6-HT) results in a decrease in potency but no change in intrinsic activity of the hormone whereas altering the ethyl amine side chain (5-OH tryptophan) results in a decrease in both potency and intrinsic activity. Removal of the 5-OH group and alteration of the side chain (gramine and tryptophan) results in a total loss of activity. Gramine and tryptophan behave as competitive antagonists of 5-HT.Prostaglandin E₁ (PGE₁) was found to be a non-competitive inhibitor of 5-OH tryptophan and theophylline whereas the response to 5-HT and cyclic AMP was only slightly diminished indicating a ‘receptor reserve’ for 5-HT.Saturating concentrations of gramine and tryptophan potentiate theophylline revealing a ‘threshold’ for the mediation of the response. It is concluded that 5-HT derivatives are capable of producing graded effects on adenyl cyclase both above and below the range of enzyme activity which evokes graded changes in fluid secretion.     

Tryptamine as an endogenous modulator of neuronal sensitivity to serotonin

Research was performed on sensory ganglia isolated from adult rats using intracellular techniques for recording membrane potential and by measuring resistance at the membrane of individual units. It was found that tryptamine at high concentrations manifests serotoninlike activity, but, at concentrations not affecting potential and resistance at the neuronal membrane, either reinforces (at a concentration of 10^–7 M) or attenuates (at 10^–5 M) serotonin (5-HT) effects mediated by type 1A (but not type 2) 5-HT receptors. 5-HT-modulated effects were produced by tryptamine-induced changes in 5-HT sensitivity at the neuronal membrane and remained unchanged by maximum level of this transmitter. Harmane acts similarly to tryptamine, although harmane derivatives (C-412 and C-506 respectively) produce either potentiation or inhibition of 5-HT_1A over the entire concentration range used (of 10^–7 M-10^–5 M). The allosteric nature of 5-HT-modulation by tryptamine and harmane is discussed.M. Gor'kii Medical Institute, Donetsk, Ukrainian SSR. Translated from Neirofiziologiya, Vol. 21, No. 3, pp. 352–357, May–June, 1989.     

High-performance liquid chromatography of tetrahydro-beta-carbolines extracted from plasma and platelets

A fast method for extraction and concentration of tryptamine (TA), 5-hydroxy-TA, and 5-methoxy-TA was developed using reverse-phase C-18 sample preparation columns in combination with an ion-pairing reagent. Using this method, 1,2,3,4-tetrahydro-beta-carboline (THBC), 6-hydroxy-THBC, and 6-methoxy-THBC, the respective reaction products formed after reaction of formaldehyde with the primary amines mentioned above, and beta-carboline (BC, norharman) and 1-methyl-beta-carboline (1-Me-BC, harman) could also be extracted from human and rat platelets and platelet-poor plasma (PPP). A HPLC method combined with fluorometric detection was developed for the quantitative determination of these compounds in the picomole range. The formation of beta-carbolines during the extraction procedure was below the limit of detection of the assay procedure. 6-OH-THBC, THBC, 1-Me-BC, and 5-HT were identified as normal constituents of human platelets, whereas only 5-hydroxytryptamine (5-HT) and 6-OH-THBC could be identified in human PPP. In rat platelets and PPP 5-HT, but no THBCs, could be detected.     

The binding of 5-hydroxytryptamine to acidic lipids in isobutanol.

Abstract— In order to examine the possibility that acidic lipids can account for the binding of 5-hydroxy [³H]tryptamine (5-HT) to brain tissue, the binding to six acidic lipids was studied using an isobutanol-water partition method. With the exception of the polyphosphoinositides, all the acidic lipids examined bind saturably and with high affinity. The apparent dissociation constants of 5-HT to the acidic lipids were as follows: phosphatidylserine, 0.4 μM; phosphatidic acid, 0.6μM; diphosphoinositide, 0.8 μM; cerebroside sulfate, 1.4 μM; monophosphoinositide, 1.9 μM; and triphosphoinositide, 10 μM. The high affinity of these lipids to 5-HT raises the possibility of some role for them in serotonergic activity.     

Autoreceptor-mediated inhibition of 3H-5-hydroxytryptamine release from rat brain cortex slices by analogues of 5-hydroxytryptamine

Rat brain cortex slices preincubated with ³H-5-hydroxytryptamine (³H-5-HT) were superfused with physiological salt solution containing paroxetine, an inhibitor of 5-hydroxytryptamine (5-HT) uptake. The effects of various indolethylamines on the electrically evoked tritium overflow (containing 66.3% unmetabolized ³H-5-HT) were investigated (the percentage of unmetabolized ³H-5-HT was not altered by the indolethylamines or metitepin). 6,7-Dihydroxytryptamine (6,7-DHT) did not affect the stimulation-evoked tritium overflow, whereas the latter was inhibited by the other tryptamine derivatives investigated; when the compounds were compared to each other on the basis of their inhibitory potencies the following rank order was obtained: unlabelled 5-HT > 5-methoxytryptamine > 4-HT > 6-HT > 5,6-DHT > tryptamine > 7-HT > 5,7-DHT. The inhibitory effects of these compounds were antagonized by metitepin. It is concluded that the indolethylamines inhibit the stimulation-evoked ³H-5-HT release by activating the presynaptic 5-HT autoreceptors on the 5-HT neurones of the rat brain cortex. Similarities may exist between these receptors and the postsynaptic 5-HT_l binding sites of this brain area.