Determination of dopamine, noradrenaline, and adrenaline in Krebs-Henseleit solution by liquid chromatography coupled with tandem mass spectrometry and measurement of their basal release from Chelonoidis carbonaria aortae in vitro.

This study presented for the first time the development and validation of a sensitive method for quantification of dopamine, noradrenaline, and adrenaline in Krebs-Henseleit solution by LC-tandem mass spectrometry. Aliquots of 2.0 mL calibrators, quality controls, and samples of Krebs-Henseleit solution incubated with tortoise's aortic ring for 30 min were extracted by solid-phase extraction. Catecholamine separation was achieved on a 100 × 4.6 mm LiChrospher RP-8 column and the quantification was performed by a mass spectrometer equipped with an electrospray interface operating in positive ion mode. The run time was 4 min and the calibration curve was linear over the range of 0.1-20.0 ng/mL. The method was applied to the measurement of basal release of dopamine, noradrenaline, and adrenaline from the tortoise Chelonoidis carbonaria aortae in vitro. One aortic ring (30 mm) per tortoise (n = 5) was incubated for 30 min in a 5 mL organ bath filled with Krebs-Henseleit solution. The method demonstrated sensitivity, precision, and accuracy enough for its application in the measurement of basal release of these catecholamines from C. carbonaria aortic rings in vitro. The mean (standard deviation) concentrations of dopamine, noradrenaline, and adrenaline were 3.48 (2.55) ng/mL, 1.40 (0.57) ng/mL, and 1.87 (1.09) ng/mL, respectively.

Psicofarmacología y trastornos afectivos / No disponible

La depresión mayor es uno de los trastornos afectivos con mayor prevalencia en clínica. A pesar de todos los procesos neurobiológicos implicados en esta patología, el tratamiento actual de la depresión se centra en los neurotransmisores NA y 5Ht a nivel de sistema nervioso central, y en menor medida, dopamina. el tratamiento con antidepresivos y su respuesta requiere una revaloración sistemática del paciente debido a que existe un 25 % de la población que no responde al tratamiento con estos fármacos, del 26-50 % responden solo parcialmente y tan solo un 50 % responde favorablemente, o al menos, disminuyen significativamente los síntomas más graves de la enfermedad. Las estrategias usadas en pacientes resistentes a la depresión, consiste en la administración de otros agentes en combinación con antidepresivos para aumentar su efecto. La depresión es característica no solo por ser un trastorno afectivo sino que posee una dimensión somática caracterizada por la pérdida de peso, fatiga, trastornos del sueño, dolores de cabeza y estómago y otros síntomas de dolor. La teoría que explica la prevalencia de estas enfermedades se basa en el hecho de que ambas patologías comparten sustratos neurobiológicos como, por ejemplo, ocurre en el caso de los neurotransmisores implica-dos en la depresión (5Ht y NA) que, a su vez, juegan un papel fundamental en la modulación del dolor. La hipótesis neurotrófica de la depresión es otra hipótesis más reciente (que postula una disminución en la producción de nuevas neuronas en el giro dentado del hipocampo) está relacionada con la etiopatogenia de la depresión. Varios estudios han demostrado que la mayoría de los antidepresivos estimulan la neurogénesis en el giro dentado del hipocampo

Major depression is one of the affective disorders with higher prevalence in clinical. Although major depression comprises many neurobiological pro cesses, the current treatment is focusing in the increase of NA and 5Ht neurotransmitters in the cNS, and even less dopamine. Both treatment and response of patients to antidepressants require high monitoring due to the fact that 25 % of population result resistant to the treatment, 25-50 % respond partially and only the 50 % improve the symptom of depression. Another pharmacological strategies used in patients resistant to depression, involves the administration of other agents in combination with antidepressants to enhance their effect. Depression is widely known by its affective component characterized by moods, feelings of worthless-ness, diminished interest in pleasurable stimuli, and impaired decision-making abilities, although it can also have a somatic dimension characterized by weight change, fatigue, sleep disturbances, and pain. the prevalence of pain in major depression is a common situation in clinical. According to the earlier theories, the presence of pain symptoms in depression is due to the fact that both pathologies share neuroanatomical substrates such as the neurotransmitter involved in depression (NA and 5Ht) which play an important role in the modulation of pain. Major depression have been explained for many theories, one of the most important at the present is called «the neurotropic hypothesis of depression» which postulates that the production of new neurons in the dentate gyrus of the hippocampus is related to the pathogenesis of depression and accordingly to this theory, many studies have demonstrated an increase of neurogenesis in the hippocampus after antidepressant treatment

Differential pharmacological in vitro properties of organic cation transporters and regional distribution in rat brain.

Organic cation transporters (OCTs) are polyspecific carriers implicated in low-affinity, corticosteroid-sensitive extraneuronal catecholamine uptake in peripheral tissues. The three main OCT subtypes, OCT1, OCT2 and OCT3, are also present in the brain, but their central role remains unclear. In the present study, we investigated by comparative in situ hybridization analysis the regional distribution of these transporters in rat brain and compared their functional properties in stably transfected HEK293 cells expressing human or rat OCTs. In rat brain, OCT2 and OCT3 mRNAs are expressed predominantly in regions located at the brain-cerebrospinal fluid border, with OCT3 mRNA expression extending to regions that belong to monoaminergic pathways such as raphe nuclei, striatum and thalamus. After normalization with MPP+ uptake, OCT2 and OCT3 subtypes share a similar monoamine preference profile, with higher transport efficacies for epinephrine and histamine than for the other monoamines. Interestingly, a significant level of epinephrine transport, previously only shown for rOCT2, is achieved by most OCTs subtypes. Finally, another novel finding was that OCTs are sensitive to 3,4-methylenedioxymetamphetamine (MDMA), phencyclidine (PCP), MK-801 and ketamine. Altogether, all our results suggest a functional specialization of OCT subtypes, based both on their intrinsic properties and their differential regional expression pattern in the brain.

Tyramine receptor (SER-2) isoforms are involved in the regulation of pharyngeal pumping and foraging behavior in Caenorhabditis elegans.

Octopamine regulates essential processes in nematodes; however, little is known about the physiological role of its precursor, tyramine. In the present study, we have characterized alternatively spliced Caenorhabditis elegans tyramine receptor isoforms (SER-2 and SER-2A) that differ by 23 amino acids within the mid-region of the third intracellular loop. Membranes prepared from cells expressing either SER-2 or SER-2A bind [3H]lysergic acid diethylamide (LSD) in the low nanomolar range and exhibit highest affinity for tyramine. Similarly, both isoforms exhibit nearly identical Ki values for a number of antagonists. In contrast, SER-2A exhibits a significantly lower affinity than SER-2 for other physiologically relevant biogenic amines, including octopamine. Pertussis toxin treatment reduces affinity for both tyramine and octopamine, especially for octopamine in membranes from cells expressing SER-2, suggesting that the conformation of the mid-region of the third intracellular loop is dictated by G-protein interactions and is responsible for the differential tyramine/octopamine affinities of the two isoforms. Tyramine reduces forskolin-stimulated cAMP levels in HEK293 cells expressing either isoform with nearly identical IC50 values. Tyramine, but not octopamine, also elevates Ca2+ levels in cells expressing SER-2 and to a lesser extent SER-2A. Most importantly, ser-2 null mutants (pk1357) fail to suppress head movements while reversing in response to nose-touch, suggesting a role for SER-2 in the regulation of foraging behavior, and fail to respond to tyramine in assays measuring serotonin-dependent pharyngeal pumping. These are the first reported functions for SER-2. These results suggest that C. elegans contains tyramine receptors, that individual SER-2 isoforms may differ significantly in their sensitivity to other physiologically relevant biogenic amines, such as octopamine (OA), and that tyraminergic signaling may be important in the regulation of key processes in nematodes.

Enantioselective behavioral effects of sibutramine metabolites.

The anti-obesity agent, racemic (RS)-sibutramine, has two active metabolites, desmethylsibutramine and didesmethylsibutramine. To the extent that sibutramine itself mediates some of its side effects, desmethylsibutramine and/or didesmethylsibutramine might be safer and just as therapeutically effective. Because both desmethylsibutramine and didesmethylsibutramine are also optically active, the present study assessed the anorexic effects (2.5-10 mg/kg, i.p., for all drugs), in rats, of the R(+)-and S(-)-enantiomers of both metabolites and compared them to the effects of racemic sibutramine. Locomotor activity (2.5-10 mg/kg, i. p., for all drugs), a dopamine dependent behavior, was also measured in view of some uncertainty regarding dopaminergic effects of sibutramine. In view of sibutramine's antidepressant profile in animal models, the same drugs were also tested in the Porsolt swim test (0.1-2.5 mg/kg, i.p., for all drugs). Lastly, the IC(50)s of all drugs to inhibit uptake in vitro of norepinephrine, serotonin and dopamine were determined. Both (R)-enantiomers had significantly greater anorexic effects than those of their respective (S)-enantiomers as well as of sibutramine. All of the agents increased locomotor activity and reduced immobilized time ("behavioral despair") in the swim test; again, the (R)-enantiomers were more potent than the (S)-enantiomers and sibutramine. However, the anorexic and locomotor effects could be dissociated from each other as well as from effects in the swim test. Both (R)-desmethylsibutramine and (R)-didesmethylsibutramine as well as sibutramine decreased food intake at a time (24-42 h post-treatment) when locomotor activity was unaffected. All of the drugs appeared to be more potent in the swim test than in the other tests and all of the drugs were more potent at inhibiting uptake of norepinephrine and dopamine than of serotonin. The results suggest that these enantioselective metabolites of sibutramine could be safe and effective treatments for obesity as well as possibly for depression.

Triadimefon and triadimenol: effects on monoamine uptake and release.

Acute administration of the agricultural fungicide triadimefon produced a neurotoxic syndrome in rats characterized by increased motor activity, stereotyped behaviors, and altered monoamine metabolism. Triadimenol, a metabolite of triadimefon in mammals, plants, and soil, also increased motor activity in rodents. To test the hypothesis that triadimefon and triadimenol are indirect-acting dopamine agonists, the present studies examined their abilities to inhibit monoamine uptake, bind to the dopamine transporter, and stimulate dopamine efflux in rat brain tissue, in vitro. Both triazoles inhibited the uptake of dopamine in striatal synaptosomal preparations. Triadimefon was 100-fold less potent than GBR12909, a prototypical inhibitor of dopamine uptake (IC50 = 4.7 microM vs. 37.2 nM, respectively), and triadimenol was about three-fold less potent than triadimefon. Triadimefon also weakly inhibited the uptake of norepinephrine in cortical synaptosomes (IC50 = 22.4 microM), but neither compound blocked the uptake of serotonin in cortical synaptosomes (IC50s > 100 microM). Triadimefon and triadimenol had similar affinity for [3H]mazindol binding sites on the dopamine transporter (IC50s approximately 1-1.5 microM, only two- to threefold greater than GBR12909). Neither triadimefon nor triadimenol (0.01-100 microM) increased basal efflux of [3H]DA that had been preloaded into striatal minces in vitro. An unexpected result was that GBR12909 (10 microM) increased basal efflux of [3H]DA by 71%, suggesting that this compound has DA releasing properties. These data suggest that increased synaptic concentrations of dopamine due to inhibition of dopamine uptake may play an important role in the neurobehavioral effects of triadimefon and triadimenol.

Biogenic amine flux mediated by cloned transporters stably expressed in cultured cell lines: amphetamine specificity for inhibition and efflux.

LLC-PK1 cells have been stably transfected with cDNAs encoding the human norepinephrine transporter (NET), rat dopamine transporter (DAT), and rat serotonin transporter. Using these cell lines, the specificity of each transporter toward agents that inhibit substrate influx and stimulate substrate efflux across the plasma membrane was examined. With 1-methyl-4-phenylpyridinium as a substrate for DAT and NET and serotonin as a substrate for the serotonin transporter, each transporter demonstrated a distinct pattern of inhibition by a panel of amphetamine derivatives and analogs, including amphetamine, methamphetamine (also known as "ecstasy"), p-chloroamphetamine, 3,4-methylenedioxymethamphetamine, methylphenidate (ritalin), and 5-methoxy-6-methyl-2-aminoindan. For each cell line expressing a single biogenic amine transporter, efflux of the accumulated substrate was stimulated by amphetamine derivatives, and this efflux was blocked by mazindol, an inhibitor of all three transporters. Of the amphetamine derivatives tested, some caused efflux at concentrations similar to those that inhibited transport. Other derivatives were much less effective at stimulating efflux than at inhibiting uptake. Methylphenidate caused little or no efflux, although it blocked uptake mediated by both NET and DAT. Other inhibitors of transport, such as cocaine, mazindol, citalopram, and nisoxetine, failed to stimulate efflux from these cells at concentrations that inhibited influx. The results suggest that potency toward individual plasma membrane biogenic amine transporters and the ability to release accumulated amine substrates are independent properties of each amphetamine derivative.

Effects of high-dose methamphetamine on monoamine uptake sites in rat brain measured by quantitative autoradiography.

The neurotoxicity of methamphetamine to monoaminergic neurons was examined. Neurotoxicity was assessed by quantitative autoradiography using radioligands specific for binding to norepinephrine, dopamine, and serotonin uptake sites. High-dose administration of methamphetamine led to decreases in binding to uptake sites for the three monoamines. Norepinephrine binding sites were decreased in certain amygdaloid nuclei and in the dorsomedial hypothalamic nucleus. Serotonin binding sites were reduced in widespread brain areas, while dopamine binding sites were reduced in the caudate putamen, olfactory tubercle, and nucleus accumbens. The decreases in binding site density for the three monoamines are limited to terminal field areas; cell body areas are not affected. Our results indicate that methamphetamine is neurotoxic to serotonin, dopamine, and norepinephrine neurons. The neurotoxicity to norepinephrine neurons is in selected brain areas.

Induction of the vesicular monoamine transporter by elevated potassium concentration in cultures of rat sympathetic neurons.

The expression of the vesicular monoamine transporter was studied in newborn rat sympathetic neurons and compared to that of the catecholamine biosynthesis enzymes tyrosine hydroxylase and dopamine-beta-hydroxylase. The vesicular monoamine transporter was assayed using the specific ligand [3H]dihydrotetrabenazine. In cultures grown for 10 days in the presence of 35 mM K+, tyrosine hydroxylase activity and the density of [3H]dihydrotetrabenazine binding sites were increased by a similar 2-3-fold factor, while dopamine-beta-hydroxylase activity and protein level were unchanged. Under these conditions, choline acetyltransferase activity was depressed by 90%. The induction of the vesicular monoamine transporter by high K+ was dependent upon Ca2+ entry through slow calcium channels since it was inhibited by the diphenylbutylpiperidine antagonist fluspirilene and by 20 mM Mg2+, and was enhanced by the dihydropyridine agonist, Bay K8644. The induction of the vesicular monoamine transporter by neuronal depolarization indicates the existence of a Ca2(+)-dependent mechanism of coregulation for this intrinsic component of monoaminergic synaptic vesicles and tyrosine hydroxylase. On the other hand, the apparent absence of dopamine-beta-hydroxylase induction is probably due to the continuous secretion of this intravesicular enzyme by the depolarized sympathetic neurons, an effect already observed in trans-synaptically stimulated adult sympathetic ganglion and adrenal medulla.

Monoamine-accumulating ganglion cell type of the cat's retina.

A monoamine-accumulating ganglion cell type has been identified in an in vitro preparation of the cat's retina by a catecholamine-like fluorescence that appears following intravitreal injections of dopamine and the indoleaminergic transmitter analog, 5,7-dihydroxytryptamine (5,7-DHT). A subpopulation of large, weakly fluorescing neurons were identified as composing a single, morphologically distinct ganglion cell type by intracellular injections of horseradish peroxidase (HRP). In a sample of 374 HRP-filled cells soma diameter ranged from 13-21 microns (mean +/- SD = 16.6 +/- 1.3). Dendritic field size increased with increasing retinal eccentricity from 150-200 microns diameter at 0.5 mm from the area centralis to 600-800 microns diameter in the far retinal periphery. Dendrites are thin (approximately 1 micron diameter), show a characteristic branching pattern, and are narrowly stratified at the outer border of the inner plexiform layer. The monoamine-accumulating ganglion cell and the outer (OFF-center) alpha cell occupy distinct strata within sublamina a of the inner plexiform layer separated by a gap of about 5 microns. The total number of monoamine-accumulating (MA) ganglion cells was estimated at 5,400, about 3.5% of the total ganglion cell population. Spatial density of the MA ganglion cells, calculated from cell counts made in vitro, ranges from 60 cells/mm2 near the area centralis to 5 cells/mm2 in the far retinal periphery. A coverage factor (density x dendritic field area) of 2.2 was maintained from central to peripheral retina. The nature of the dendritic overlap was observed directly by making HRP injections into several neighboring ganglion cells. Five to seven neighboring dendritic trees extensively overlapped a given cell's dendritic field. However the dendritic processes did not intersect randomly but tended to interdigitate such that a uniform interdendritic spacing and density of dendritic processes was constructed locally within the dendritic plexus. Rotation of individual dendritic trees from their normal orientation produced a dramatic 4-5-fold increase in the number of dendritic intersections, suggesting that an active, local mechanism operates in the precise placement of individual dendrites within the plexus. The monoamine-accumulating ganglion cell appears morphologically equivalent to the delta ganglion cell (Boycott and Wässle; J. Physiol. (Lond.) 240:397-419, '74; Kolb et al.; Vision Res. 21:1081-1114, '81) and to the recently recognized indoleamine-accumulating ganglion cell (Wässle et al: J. Neurosci. 7:1574-1585, '87).(ABSTRACT TRUNCATED AT 400 WORDS)

Synthesis of racemic (+) and (-) N-[methyl-11C]nomifensine, a ligand for evaluation of monoamine re-uptake sites by use of positron emission tomography.

The synthesis of racemic or enantiomeric N-[methyl-11C]nomifensine (1,2,3,4-tetrahydro-2-[11C]methyl-4-phenyl-8-isoquinolinamine), a potential ligand for the evaluation of monoamine re-uptake sites at the presynaptic dopaminergic terminals, using the appropriate N-desmethylcompounds and [11C]methyl iodide is described. The radiochemical conversion of [11C]methyl iodide to [11C]nomifensine was in the order of 85-95%. Radiochemical purity of the LC-purified radiopharmaceutical was in the order of 98-99%. In a typical run, starting with 120 mCi (4.4 GBq) of [11C]carbon dioxide, 380 MBq (8.6% not decay corrected) of a final solution was obtained within 55 min (roughly 20 min of that is related to transport time). The specific radioactivity corresponding to the [11C]methyl iodide was 30-100 mCi/mumol (typical: a total mass of 30 micrograms and 150 MBq was administered in the PET-studies). A procedure for resolving the racemate of N-desmethylnomifensine (1,2,3,4-tetrahydro-4-phenyl-8-isoquinoline) into its enantiomers using triacetylcellulose as the stationary phase and methanol/ethanol as solvents by use of LC is also described.