Plasma serotonin levels and the platelet serotonin transporter

Serotonin (5HT) is a platelet-stored vasoconstrictor. Altered concentrations of circulating 5HT are implicated in several pathologic conditions, including hypertension. The actions of 5HT are mediated by different types of receptors and terminated by a single 5HT transporter (SERT). Therefore, SERT is a major mechanism that regulates plasma 5HT levels to prevent vasoconstriction and thereby secure a stable blood flow. In this study, the response of platelet SERT to the plasma 5HT levels was examined within two models: (i) in subjects with chronic hypertension or normotension; (ii) on platelets isolated from normotensive subjects and pretreated with 5HT at various concentrations. The platelet 5HT uptake rates were lower during hypertension due to a decrease in Vmax with a similar Km; also, the decrease in Vmax was primarily due to a decrease in the density of SERT on the platelet membrane, with no change in whole cell expression. Additionally, while the platelet 5HT content decreased 33%, the plasma 5HT content increased 33%. Furthermore, exogenous 5HT altered the 5HT uptake rates by changing the density of SERT molecules on the plasma membrane in a biphasic manner. Therefore, we hypothesize that in a hypertensive state, the elevated plasma 5HT levels induces a loss in 5HT uptake function in platelets via a decrease in the density of SERT molecules on the plasma membrane. Through the feedback effect of this proposed mechanism, plasma 5HT controls its own concentration levels by modulating the uptake properties of platelet SERT.     

Differences in serotonergic neurotransmission between rats displaying high or low anxiety/depression-like behaviour: effects of chronic paroxetine treatment

Disturbances in serotonergic neurotransmission have been suggested to be closely interlinked with hyperactivity of the hypothalamic-pituitary-adrenocortical (HPA) system, and are likely to be involved in the pathophysiology of anxiety disorders and major depression. We therefore investigated markers of serotonergic transmission and their modulation by chronic paroxetine in rats selectively bred for high (HAB) or low (LAB) anxiety-related behaviour, both under basal conditions and in response to emotional stress. Hippocampal serotonin 1 A (5-HT1A) receptor mRNA expression was reduced in HAB rats, whereas 5-HT concentrations in hippocampal microdialysates did not differ between HAB and LAB rats under basal conditions. In the hippocampus, overall expression of serotonin transporter binding sites was increased in HAB compared with LAB rats. Exposure to emotional stress failed to increase intrahippocampal 5-HT release in HAB rats whereas LAB rats displayed a physiological, albeit small rise. Chronic paroxetine treatment markedly increased the stress-induced rise in hippocampal 5-HT in HAB, but not LAB rats. This effect may be (at least in part) related to a greater down-regulation of hippocampal serotonin transporter binding sites by paroxetine in HABs compared with LABs, while 5-HT1A receptor expression remained unaffected in this brain area. The findings indicate reduced hippocampal serotonergic transmission in HAB rats as compared with LAB rats, which is evident both at the presynaptic (5-HT release) and the postsynaptic (5-HT1A receptor) level. Chronic paroxetine enhanced the presynaptic responsivity in HAB rats, but not LAB rats, pointing to a preferential efficacy of paroxetine in rats with enhanced anxiety/depression-related behaviour.     

Ethanol self‐administration in serotonin transporter knockout mice: unconstrained demand and elasticity

Low serotonin function is associated with alcoholism, leading to speculation that increasing serotonin function could decrease ethanol consumption. Mice with one or two deletions of the serotonin transporter (SERT) gene have increased extracellular serotonin. To examine the relationship between SERT genotype and motivation for alcohol, we compared ethanol self‐administration in mice with zero (knockout, KO), one (HET) or two copies (WT) of the SERT gene. All three genotypes learned to self‐administer ethanol. The SSRI, fluvoxamine, decreased responding for ethanol in the HET and WT, but not the KO mice. When tested under a progressive ratio schedule, KO mice had lower breakpoints than HET or WT. As work requirements were increased across sessions, behavioral economic analysis of ethanol self‐administration indicated that the decreased breakpoint in KO as compared to HET or WT mice was a result of lower levels of unconstrained demand, rather than differences in elasticity, i.e. the proportional decreases in ethanol earned with increasing work requirements were similar across genotypes. The difference in unconstrained demand was unlikely to result from motor or general motivational factors, as both WT and KO mice responded at high levels for a 50% condensed milk solution. As elasticity is hypothesized to measure essential value, these results indicate that KO value ethanol similarly to WT or HET mice despite having lower break points for ethanol .     

5-HT and 5-HT-SO4, but not tryptophan or 5-HIAA levels in single feeding neurons track animal hunger state

Serotonin (5-HT) is an intrinsic modulator of neural network excitation states in gastropod molluscs. 5-HT and related indole metabolites were measured in single, well-characterized serotonergic neurons of the feeding motor network of the predatory sea-slug Pleurobranchaea californica . Indole amounts were compared between paired hungry and satiated animals. Levels of 5-HT and its metabolite 5-HT-SO₄ in the metacerebral giant neurons were observed in amounts approximately four-fold and two-fold, respectively, below unfed partners 24 h after a satiating meal. Intracellular levels of 5-hydroxyindole acetic acid and of free tryptophan did not differ significantly with hunger state. These data demonstrate that neurotransmitter levels and their metabolites can vary in goal-directed neural networks in a manner that follows internal state.     

The brain 5-HT4 receptor binding is down-regulated in the Flinders Sensitive Line depression model and in response to paroxetine administration

The 5-hydroxytryptamine (5-HT₄) receptor may be implicated in depression and is a new potential target for antidepressant treatment. We have investigated the brain 5-HT₄ receptor [³H]SB207145 binding in the Flinders Sensitive Line rat depression model by quantitative receptor autoradiography, and related this to 5-HT transporter ( S )-[ N -methyl-³H]citalopram binding. We also determined the regulation of 5-HT₄ receptor binding by 1, 14, and 21 days of paroxetine administration and subchronic 5-HT depletion, and compared this with changes in 5-HT_2A receptor [³H]MDL100907 binding. In the Flinders Sensitive Line, the 5-HT₄ receptor and 5-HT transporter binding were decreased in the dorsal and ventral hippocampus, and the changes in binding were directly correlated within the dorsal hippocampus. Chronic but not acute paroxetine administration caused a 16–47% down-regulation of 5-HT₄ receptor binding in all regions evaluated including the basal ganglia and hippocampus, while 5-HT depletion increased the 5-HT₄ receptor binding in the dorsal hippocampus, hypothalamus, and lateral globus pallidus. In comparison, the 5-HT_2A receptor binding was decreased in the frontal and cingulate cortices after chronic paroxetine administration, and markedly reduced in several regions after 5-HT depletion. Thus, the 5-HT₄ receptor binding was decreased in the Flinders Sensitive Line depression model and in response to chronic paroxetine administration.     

Serotonin transporter modulation in blood lymphocytes from patients with major depression

1. Serotonin is a neurotransmitter in the central nervous system which has been implicated in the aetiology and pathogenesis of affective disorders. The serononergic system also plays several roles in the immune system through the expression of a number of its receptor subtypes in the immune cells.2. Following release serotonin is inactivated by reuptake into neurons and other cells by a specific serotonin sodium and chloride-dependent transporter molecule, whose structure has been elucidated.3. Measurement [³H]paroxetine binding showed that human lymphocytes contain a high-affinity serotonin transporter.4. To assess the serotonin function in major depression, we investigated serotonin transporter density in blood lymphocytes from patients with this disorder and selected according to the interview of the American Psychiatric Association.5. Patients were divided into two groups and treated with two different antidepressant drugs, one group receiving fluoxetine, a selective serotonin reuptake inhibitor, and another mirtazapine, an antagonist of ₂-adrenergic auto and heteroreceptors, for a period of 6 weeks.6. Blood samples were obtained before and after the treatment, lymphocytes were isolated by Ficoll/Hypaque gradient, subjected to differential adhesion to plastic, and cell membranes were prepared for binding assay of [³H]paroxetine.7. Lymphocytes serotonin transporter number was significantly reduced, while the affinity was unchanged, in patients with major depression disorder as compare to controls.8. In addition, there was a partial recovery in lymphocytes serotonin(5HT) transporter number in the period posterior to the antidepressants administration, accompanied with clinical and depression rating scales improvement. Serotonin was determined in platelet-poor plasma and in lymphocytes before and after drugs administration, showing a significant decrease in the patients treated compared to untreated and controls.9. These results are evidence of the potential interaction between the nervous and immune systems. The mechanisms underlying this interaction are under study, and might be related to modifications in the expression or function of the serotonin transporters in lymphocytes of depressed patients.     

Serotonin catabolism in the central and enteric nervous systems of rats upon induction of serotonin syndrome

Serotonin, a well-known neurotransmitter in mammals, has been linked to a number of neurological and gastrointestinal disorders. One of these disorders, serotonin syndrome, is a potentially deadly condition caused by increased levels of serotonin in the extracellular space. Information on the neurochemical effects of serotonin syndrome on serotonin catabolism is lacking, particularly in relation to the enteric system of the gastrointestinal tract. Here the catabolism of serotonin is monitored in rats with pharmacologically induced serotonin syndrome, with the catabolites characterized using a specialized capillary electrophoresis system with laser-induced native fluorescence detection. Animals induced with serotonin syndrome demonstrate striking increases in the levels of serotonin and its metabolites. In the brain, levels of serotonin increased 2- to 3-fold in animals induced with serotonin syndrome. A major serotonin metabolite, 5-hydroxyindole acetic acid, increased 10- to 100-fold in experimental animals. Similar results were observed in the gastrointestinal tissues; in the small intestines, serotonin levels increased 4- to 5-fold. Concentrations of 5-hydroxyindole acetic acid increased 32- to 100-fold in the intestinal tissues of experimental animals. Serotonin sulfate showed surprisingly large increases, marking what may be the first time the compound has been reported in rat intestinal tissues.     

Isolation of Highly Radioresistant Bacterium,Arthrobacter radiotolerans nov. sp.

A highly γ-ray resistant bacterium, which has not been described hitherto, has been isolated from water containing mud, fur and moss at a radioactive hot spring, Misasa, Tottori Prefecture, Japan, This bacterium was Gram-positive, non-sporulating, pink to red colored and pleomorphic rod at young stage and predominantly coccoid or small short rod at old. The radiosensitivity of this bacterium was lower than that of well-known bacterium Micrococcus radio- durans. When its exponentially growing cells were irradiated in buffer solution aerated sufficiently at room temperature, shoulder dose and D₀ were calculated to be 6 × 10⁵ and 1 × 10⁶ rads, respectively. The morphological, cultural and physiological characteristics of the bacterium have been studied. These attributes suggested that the organism was a new species, and the name Arthrobacter radiotolerans has been assigned with respect to its high radioresistance.     

五羟色胺转运体的研究进展

五羟色胺转运体是一种对五羟色胺（5-HT,serotonin）有高度亲和力的跨膜转运蛋白,能够重新摄取细胞间隙内的5-HT,从而调节神经信号的转导。该文简述了五羟色胺转运体的生物学特性、分布以及与人类疾病的关系,通过分析比较发现,五羟色胺转运体的多态性与肠易激综合征、抑郁症、强迫症都有着密切的关系。     

Pharmacological characterization of a serotonin receptor involved in an early embryonic behavior of Helisoma trivolvis

In contrast to the abundance of information on the many physiological and developmental actions of serotonin in molluscan nervous systems, comparatively little is known about the serotonin receptors involved in these responses. Embryos of the pulmonate gastropod, Helisoma trivolvis, display a cilia-driven rotational behavior that is regulated by endogenous serotonin. In the present study, two functional assays were used to determine some of the pharmacological properties of the receptors that mediate the cilio-excitatory action of serotonin. Timelaspe video microscopy was used to measure whole embryo rotation rat and cilia beat frequency in isolated cells. In dose-response experiments, serotonin was approximately 10 times more potent in stimulating cilia beat frequency over embryo rotation. In rotation experiments, 5-carboxyamidotryptamine and methysergide had effective agonist activity in dose ranges similar to that of serotonin (1 to 100 μM). In contrast, 8-hydroxydiproylaminotetralin HBr (8-OH-DPAT) displayed agonist activity of lower potency and effectiveness. Several compounds displayed antagonist activity in the 1 to 100 μM dose range, including mianserin, spiperone, ritanserin, 1-(1-naphthyl) piperazine, and Propranolol. α-Methylserotonin had mixed agonist–antagonist activity, and metoclopramide, MDL-72222, and ketanserin were inactive. Experiments on isolated cells suggested that the extremely effective antagonism displayed by mianserin in the embryo rotation assay was due to its specific activity at ciliary serotonin receptors. These results implicate the presence of a novel serotonin receptor on embryonic ciliated cells that is pharmacologically distinct from those previously characterized in vertebrate or invertebrate systems. 1994 John Wiley & Sons, Inc.     

Serotonin and Central Mechanisms Underlying Motor Control

The review considers in a historical aspect the published data on the role of serotonin in brain activity, as well as on the structure and organization of neuronal projections of serotonergic nuclei. In addition, information on the facilitatory and inhibitory effects of serotonin on neurons of various brain regions under both in vivo and in vitro conditions is presented. General characteristics of the main types of central serotonin receptors are also given. It is emphasized that such receptors form a heterogeneous group, and this is the reason for the diversity of the effects when agonists and antagonists are applied. Regularities characteristic of changes in the activity of serotonergic system over the sleep-wakefulness cycle are also analyzed in this review; data on the involvement of serotonin in motor control are cited. Possible reasons for the complexity and multiplicity of the effects evoked by serotonin at different levels of the CNS and within various neuronal structures in the course of motor behavior are discussed.     

Exaggerated effect of fluvoxamine in heterozygote serotonin transporter knockout mice

Clearance rates for serotonin (5-HT) in heterozygote (+/-) and homozygote (-/-) serotonin transporter (5-HTT) knockout (KO) mice have not been determined in vivo. Moreover, the effect of selective serotonin reuptake inhibitors (SSRIs) on 5-HT clearance in these mice has not been examined. In this study, the rate of clearance of exogenously applied 5-HT was measured in the CA3 region of the hippocampus of anesthetized mice using high-speed chronoamperometry. Compared with wild-type mice, the maximal rate of 5-HT clearance from extracellular fluid (ECF) was decreased in heterozygotes and more markedly so in KO mice. Heterozygote mice were more sensitive to the 5-HT uptake inhibitor, fluvoxamine, resulting in longer clearance times for 5-HT than in wild-type mice; as expected, the KO mice were completely unresponsive to fluvoxamine. There were no associated changes in norepinephrine transporter density, nor was there an effect of the norepinephrine uptake inhibitor, desipramine, on 5-HT clearance in any genotype. Thus, adaptive changes in the norepinephrine transport system do not occur in the CA3 region of hippocampus as a consequence of 5-HTT KO. These data highlight the potential of the heterozygote 5-HTT mutant mice to model the dynamic in vivo consequences of the human 5-HTT polymorphism.     

Changes in the serotonergic system in the main olfactory bulb of rats unilaterally deprived from birth to adulthood

The serotonergic system plays a key role in the modulation of olfactory processing. The present study examined the plastic response of this centrifugal system after unilateral naris occlusion, analysing both serotonergic afferents and receptors in the main olfactory bulb. After 60 days of sensory deprivation, the serotonergic system exhibited adaptive changes. Olfactory deprivation caused a general increase in the number of fibres immunopositive for serotonin but not of those immunopositive for the serotonin transporter. HPLC data revealed an increase in serotonin levels but not in those of its major metabolite, 5-hydroxyindole acetic acid, resulting in a decrease in the 5-hydroxyindole acetic acid/serotonin ratio. These changes were observed not only in the deprived but also in the contralateral olfactory bulb. Double serotonin-tyrosine hydroxylase immunolabelling revealed that the glomerular regions of the deprived olfactory bulb with a high serotonergic fibre density showed a strong reduction in tyrosine hydroxylase. Finally, the serotonin(2A) receptor distribution density and the number of juxtaglomerular cells immunopositive for serotonin(2A) receptor remained unaltered after olfactory deprivation. Environmental stimulation modulated the serotonergic afferents to the olfactory bulb. Our results indicate the presence of a bilateral accumulation of serotonin in the serotonergic axon network, with no changes in serotonin(2A) receptor density after unilateral olfactory deprivation.     

5—HT在调节大鼠泌乳中作用的研究

在大鼠分娩次日,用5,6-DHT选择性损毁中枢5-HT能神经元,使下丘脑5-HT含量显著降低,吮乳诱发的催乳素分泌受到抑制,乳汁分泌显著减少,仔鼠生长迟缓。在泌乳已正常进行四天后作同样处理,仍有相似结果。提示5-HT参与泌乳的发动及维持。对5-HT的作用与催乳素和催产素的关系进行了讨论。     

Preneural transmitters as regulators of embryogenesis. Current state of problem

Our knowledge about the preneural neurotransmitter systems and their functions were based on the old pharmacological and biochemical data that have recently been confirmed and substantially supplemented. Specific components of the preneural serotoninergic and endocannabinoid systems were identified in developing echinoderm embryos using immunocytochemistry, Western immunoelectroblotting, and HPLC-mass spectroscopy. These data were corroborated by the results of pharmacological experiments: it was found that some ligands of serotonin receptors, as well as the agonist of cannabinoid receptors anandamide induced the appearance of abnormal embryonic phenotypes, whose expression depended on the ligand-teratogen concentration. Their appearance was prevented, correspondingly, by serotonin and its lipophilic (or hydrophilic) analogs and antagonists of cannabinoid (CB₁CB₂)-receptors.     

Serotonin Regulation of Serotonin Uptake in RN46A Cells

1. Aim: The role of the serotonin transporter (SERT) is to remove serotonin (5-HT) from the synaptic space. In vitro studies have shown that 5-HT uptake via SERT is influenced by the availability of its substrate, 5-HT. We used RN46A cells, a line that expresses SERT, to investigate 5-HT regulation of 5-HT uptake and the intracellular signaling pathways involved. RN46A cells also express mRNAs for 5-HT receptors (5-HT_1A, 5-HT_1B, 5-HT_2A, and 5-HT_2C) and as cAMP and intracellular Ca²⁺ are modulated by different 5-HT receptors, we studied both pathways.2. Methods: 5-HT uptake was determined as imipramine-inhibitable uptake of [³H]5-HT, intracellular cAMP was measured by RIA and intracellular Ca²⁺ changes were determined using the ratiometric method of intracellular Ca²⁺ imaging.3. Results: For uptake experiments, cells were kept for 30 min either with or without 1 μM 5-HT in the medium before measuring uptake. Removal of 5-HT for 30 min significantly decreased [³H]5-HT uptake. The absence of 5-HT for 15 min failed to induce any changes in intracellular cAMP levels. Removal of 5-HT from the medium did not change intracellular Ca²⁺ levels either; however, adding 1 μM 5-HT after 5 min in 5-HT-free conditions rapidly increased intracellular Ca²⁺ levels in 50% of the cells. The remaining cells showed no changes in the intracellular Ca²⁺ levels.4. Conclusions: We have shown that in RN46A cells, that endogenously express SERT and mRNAs for several 5-HT receptors, changes in 5-HT levels influence 5-HT uptake rate as well as induce changes in intracellular Ca²⁺ levels. This suggests that 5-HT may utilize intracellular Ca²⁺ to regulate 5-HT uptake.     

[3H]cocaine labels a binding site associated with the serotonin transporter in guinea pig brain: Allosteric modulation by paroxetine

We studied the characteristics of [³H]cocaine binding to membranes prepared from whole guinea pig brain. Cocaine binding was specific and saturable. A one-site binding model fit the data adequately: the Kd value of [³H]cocaine was 44 nM with a Bmax value of 280 fmol/mg protein. The rank order of potency for the [³H]cocaine binding site was paroxetine > clomipramine > (–)-cocaine > fluoxetine > mazindol > desipramine > GBR12909 > phencyclidine > benztropine > GBR12935 > (+)-cocaine. The IC50 values of these drugs for inhibition of [³H]cocaine binding were highly correlated with their IC50 values for inhibition of [³H]5-HT uptake into synaptosomes prepared from whole guinea pig brain. High affinity 5-HT uptake inhibitors produced dose-dependent wash-resistant (pseudoirreversible) inhibition of [³H]cocaine binding. The wash-resistant inhibition produced by paroxetine was due to an increase in the Kd of [³H]cocaine binding sites, and was accompanied by an increase in the dissociation rate, consistent with an allosteric mechanism. These studies suggest that, using membranes prepared from whole guinea pig brain, [³H]cocaine labels a binding site associated with serotonin transporter and that paroxetine and cocaine bind to different sites on the serotonin transporter.Abbreviations GBR12909 1-(2-{bis(4-fluorophenyl)methoxy}ethyl)-4-{3-phenylpropyl}piperazine - TCP 1-{1-(2-thienyl)cyclohexyl}piperidine - BTCP N-{1-(2-benzo(b)thiophenyl)cyclohexyl}piperidine - PCP 1-(1-phenylcyclohexyl)piperidine - GBR12935 (1-[2-(diphenylmethoxy)ethyl]-4-(3-phenylpropyl)piperazine) - CMI clomipramine     

The Role of Platelet Serotonin and Depression in the Acute Coronary Syndrome Population

Platelet serotonin has been associated with depression and coronary artery disease. Understanding the association between platelet serotonin and depressive symptoms during acute coronary syndrome (ACS) may explain some of the ACS events seen in depressed individuals. The objectives were to evaluate whether levels of platelet serotonin during an ACS event differ between individuals who screen positive or negative for depressive symptoms and to determine if a linear relationship exists. In this cross-sectional study, data were collected on 51 patients with ACS. Multiple linear regression models were examined. Platelet serotonin levels were not significantly different between the depressed and non-depressed groups (β = -4.093 and p = .293); a linear relationship was not found (β = -.254 and p = .250). In conclusion, a relationship between platelet serotonin and depressive symptoms was not found. It remains unclear if an association exists between platelet serotonin levels and depressive symptoms during hospitalization for ACS.     

Early development and neurogenesis of Temnopleurus reevesii

Sea urchins are model non‐chordate deuterostomes, and studying the nervous system of their embryos can aid in the understanding of the universal mechanisms of neurogenesis. However, despite the long history of sea urchin embryology research, the molecular mechanisms of their neurogenesis have not been well investigated, in part because neurons appear relatively late during embryogenesis. In this study, we used the species Temnopleurus reevesii as a new sea urchin model and investigated the detail of its development and neurogenesis during early embryogenesis. We found that the embryos of T. reevesii were tolerant of high temperatures and could be cultured successfully at 15–30°C during early embryogenesis. At 30°C, the embryos developed rapidly enough that the neurons appeared at just after 24 h. This is faster than the development of other model urchins, such as Hemicentrotus pulcherrimus or Strongylocentrotus purpuratus. In addition, the body of the embryo was highly transparent, allowing the details of the neural network to be easily captured by ordinary epifluorescent and confocal microscopy without any additional treatments. Because of its rapid development and high transparency during embryogenesis, T. reevesii may be a suitable sea urchin model for studying neurogenesis. Moreover, the males and females are easily distinguishable, and the style of early cleavages is intriguingly unusual, suggesting that this sea urchin might be a good candidate for addressing not only neurology but also cell and developmental biology.