Role of Serotonin via 5-HT2B Receptors in the Reinforcing Effects of MDMA in Mice

The amphetamine derivative 3,4-methylenedioxymethamphetamine (MDMA, ecstasy) reverses dopamine and serotonin transporters to produce efflux of dopamine and serotonin, respectively, in regions of the brain that have been implicated in reward. However, the role of serotonin/dopamine interactions in the behavioral effects of MDMA remains unclear. We previously showed that MDMA-induced locomotion, serotonin and dopamine release are 5-HT_2B receptor-dependent. The aim of the present study was to determine the contribution of serotonin and 5-HT_2B receptors to the reinforcing properties of MDMA.We show here that 5-HT_2B ^−/− mice do not exhibit behavioral sensitization or conditioned place preference following MDMA (10 mg/kg) injections. In addition, MDMA-induced reinstatement of conditioned place preference after extinction and locomotor sensitization development are each abolished by a 5-HT_2B receptor antagonist (RS127445) in wild type mice. Accordingly, MDMA-induced dopamine D1 receptor-dependent phosphorylation of extracellular regulated kinase in nucleus accumbens is abolished in mice lacking functional 5-HT_2B receptors. Nevertheless, high doses (30 mg/kg) of MDMA induce dopamine-dependent but serotonin and 5-HT_2B receptor-independent behavioral effects.These results underpin the importance of 5-HT_2B receptors in the reinforcing properties of MDMA and illustrate the importance of dose-dependent effects of MDMA on serotonin/dopamine interactions.     

The Leptin,Dopamine and Serotonin Receptors in Hypothalamic POMC-Neurons of Normal and Obese Rodents

The pro-opiomelanocortin (POMC)-expressing neurons of the hypothalamic arcuate nucleus (ARC) are involved in the control of food intake and metabolic processes. It is assumed that, in addition to leptin, the activity of these neurons is regulated by serotonin and dopamine, but only subtype 2C serotonin receptors (5-HT_2CR) was identified earlier on the POMC-neurons. The aim of this work was a comparative study of the localization and number of leptin receptors (LepR), types 1 and 2 dopamine receptors (D₁R, D₂R), 5-HT_1BR and 5-HT_2CR on the POMC-neurons and the expression of the genes encoding them in the ARC of the normal and diet-induced obese (DIO) rodents and the agouti mice (A ^y /a) with the melanocortin obesity. As shown by immunohistochemistry (IHC), all the studied receptors were located on the POMC-immunopositive neurons, and their IHC-content was in agreement with the expression of their genes. In DIO rats the number of D₁R and D₂R in the POMC-neurons and their expression in the ARC were reduced. In DIO mice the number of D₁R and D₂R did not change, while the number of LepR and 5-HT_2CR was increased, although to a small extent. In the POMC-neurons of agouti mice the number of LepR, D₂R, 5-HT_1BR and 5-HT_2CR was increased, and the D₁R number was reduced. Thus, our data demonstrates for the first time the localization of different types of the serotonin and dopamine receptors on the POMC-neurons and a specific pattern of the changes of their number and expression in the DIO and melanocortin obesity.     

Direct binding of 3H-lisuride to adrenergic and serotonergic receptors

The characteristics of the specific binding of ³H-lisuride hydrogen maleate (³H-LHM) to homogenates of rat striatum and bovine frontal cortex tissue were investigated. In rat striatum 50% of ³H-LHM binding was inhibited potently by spiperone and haloperidol indicating a component of ³H-LHM binding to D₂ dopamine receptors. Specific ³H-LHM binding was detected in rat striatum after selective blockade of the D₂ dopamine component indicating specific ³H-LHM binding to other striatal sites. In bovine frontal cortex clonidine and serotonin competition curves for specific ³H-LHM binding included high affinity phases indicating alpha₂ adrenergic and high affinity serotonergic components of binding. Blockade of the adrenergic component by 10^?7M clonidine resulted in the specific ³H-LHM binding exhibiting distinctly serotonergic characteristics. Conversely, blockade of the serotonergic component by 2 × 10^?7M serotonin resulted in the specific ³H-LHM binding exhibiting distinct alpha₂ receptor characteristics. These data demonstrate the specific binding of ³H-LHM to alpha₂ adrenergic receptors, to a high affinity serotonin site, and to D₂ dopamine receptors.     

Iodoethylspiperone,a new potential agent for exploration of central dopamine D2 receptors: Synthesis and preliminary in vivo study

We synthesized a new spiperone derivative: iodoethylspiperone (IES) to perform dopamine D₂ receptor exploration by SPECT. IES was prepared from a precursor: tosylethylspiperone, and characterized by i.r. and ¹H-NMR analyses. [¹²⁵I]IES was obtained with 80% yield. In vivo biodistribution in rats showed a high and specific uptake in the striatum. The uptake ratio between the striatum and the cerebellum reached a maximum value 4 h after injection (10.05 ± 2.81). IES labeled with ¹²³I should be a promising new agent to investigate D₂ receptors in the living human brain.     

Synthesis and in vivo characterization of d-(+)-(N1-[11C]methyl)-2-Br-LSD: a radioligand for positron emission tomographic studies of serotonin 5-HT2 receptors

d-(+)-Nl-Methyl-2-Br-LSD (MBL), which displays high affinity and selectivity for serotonin receptors in vitro, has been labeled with carbon-11 for localization of cerebral serotonin 5-HT₂ receptors by positron emission tomography. [¹¹C]MBL was prepared from [¹¹C]iodomethane and d-(+)-2-Br-LSD within 20 min from end of bombardment. The average specific activity of [¹¹C]MBL was 2300 mCi/μ mol and the average radiochemical yield was 17%, both at end of synthesis. The in vivo regional distribution of radioactivity in brain after i.v. administration of [¹¹C]MBL to mice paralleled the known density of serotonin 5-HT₂ receptors. The maximum specific binding, defined by a frontal cortex to cerebellum radioactivity concentration ratio of 5.4 to 1, was reached 30 min postinjection. Administration of ketanserin, a potent serotonin 5-HT₂ receptor antagonist, markedly blocked radioligand binding in all brain regions examined except cerebellum.     

Biomines-stimulated phosphorylation and (Na+, K+-ATPase in the gills of the chinese crab,Eriocheir sinensis

• 1.1. Subcellular distribution of (NA⁺, K⁺-ATPase and ouabain-insensitive ATPase (Mg²⁺-ATPase) are compared in branchial tissues of the euryhaline crab, Eriocheir sinensis, acclimated to fresh water.
• 2.2. Both the anterior and posterior gills contain cAMP-dependent protein kinase and endogenous protein substrate for phosphorylation.
• 3.3. Phosphorylation occurs in both “particulate” and “soluble” subcellular fractions but its stimulation by cAMP is restricted to the “soluble” fraction.
• 4.4. serotonin (5-HT) and dopamine receptors are present only in the “light particulate” fraction isolated from the posterior gills.

• 1.(a) Serotonin and dopamine have no effect on the phosphorylation observed in a subcellular fraction alone.
• 2.(b) Activation of the phosphorylation by serotonin and dopamine is found when the soluble fraction (source of cAMP-dependent protein kinase) is added to the fraction P₃ from the posterior gills.
• 3.(c) No activation occurs with the fractions P₃ as well as P₁ or P₂ (not shown) from anterior gills of fresh water crab.
• 4.(d) Cyproheptadine, a serotonin receptor antagonist, inhibits the 5-HT dependent increase in phosphorylation.
• 5.(e) The dopamine receptor antagonist, chlorpromazine, inhibits dopamine-stimulated phosphorylation.
• 6.5. Ouabain mimics the effect of cyproheptadine on the serotonin-stimulated phosphorylation found in the posterior gills.

     

Selective labeling of alpha-noradrenergic receptors in rat brain with [3H]dihydroergokryptine.

Using concentrations of [³H] dihydroergokryptine between 0.1 and 5 nM, saturable binding can be demonstrated in rat cerebral cortical membranes with a dissociation constant (K_D) of about 0.8 nM. α-Noradrenergic agonists and antagonists compete for the sites labeled by these low concentrations of [³H] dihydroergokryptine with relative potencies characteristics of classical α-noradrenergic receptors. The very low potency of serotonin in competing for these binding sites indicates that, in contrast to findings with higher concentrations of [³H] DHE, low concentrations do not label serotonin receptors. Moreover, the low potency of dopamine in competing for [³H] dihydroergokryptine binding in both striatal and cortical membranes indicates that no detectable portion of binding is associated with postsynaptic dopamine receptors.     

In vitro evaluation of radioiodinated butyrophenones as radiotracer for dopamine receptor study

Radioiodinated butyrophenone compounds are attracting the interest of those working on dopamine receptor studies; structure-activity relationship study has revealed the ortho position of the p-fluorobutyrophenone moiety as a very plausible iodination site. Various synthesized butyrophenones iodinated at the ortho position of p-fluorobutyrophenone moiety, 2′- iodohaloperidol (2′-IHP), 2′-iodotrifluperidol (2′-ITP) and 2′-iodospiperone (2′-ISP) were tested for their abilities to inhibit ³H-spiperone (SP) binding for the dopamine (D-2) receptor, together with reference compounds (SP, haloperidol (HP) and 4-iodospiperone (4- ISP)). The order of binding affinity of the tested compounds was SP > 2′-ISP > HP > 4-ISP > 2′-IHP > 2′- ITP. Whereas, the serotonin (S-2) receptor binding affinity of SP and its iodinated analogues were in the order of SP > > 4-ISP > 2′-ISP. Furthermore, in the saturation binding study using the striatal membrane preparations, the 2′-ISP displayed a K_D of 0.25 nM with maximum number of binding site B_max of 210 fmol/mg protein. These data indicated the 2′-ISP as holding high affinity for dopamine receptors and a low affinity for serotonin receptors. Thus, the ¹²⁵I-2′-ISP was a very potent radioligand for in vitro dopamine (D-2) receptor studies, and ¹²³I-2′-ISP holds very promising characteristics as for in vivo dopamine receptor studies, as well.     

Biodistribution,dosimetry, metabolism and monkey PET studies of [18F]GBR 13119. Imaging the dopamine uptake system in vivo

The in vivo charactersitics of a new radiotracer, [¹⁸F]GBR 13119, have been examined. Full body biodistribution in rats has been determined and the expected human dosimetry calculated. Pharmacological specificity of in vivo regional brain distribution in rats was examined. Blockage of specific binding was accomplished by dopamine reuptake inhibitors but no effect was observed for pretreatment with serotonin or norepinephrine reuptake inhibitors. Preliminary examination of rat blood shows the presence of radiolabeled metabolites, which can be rapidly identified using bonded-phase (Sep-Pak) chromatography. Finally, the striatum of living primates has been imaged using PET and i.v. administration of [¹⁸F]GBR 13119. These results represent the intermediate steps in the development of [¹⁸F]GBR 13119 as a radiotracer for the study of the dopamine uptake system in man.     

Analysis of monoamine accumulations in the neuronal tissues of Mytilus edulis (bivalvia)—II: Pharmacological alteration of pedal ganglia monoamine uptake

1. Lineweaver-Burk plots revealed the presence of two uptake mechanisms for serotonin, dopamine and norepinephrine. The high affinity uptake processes were found to have K_m1 values of 0.281, 2.68 and 3.17 × 10⁻⁶ M and V_max1 values of 0.154, 1.048 and 0.165 nmol/g/min for serotonin, dopamine and norepinerphine, respectively.2. At low biogenic amine concentrations uptake₁ contributes more than uptake₂ to the total amount of amine accumulated, as determined by the Michaelis-Menten equation, whereas at higher concentrations the reverse is true.3. 3-Chlorimiprimine was the most potent and select agent found for inhibiting serotonin uptake (ID₅₀ value 0.5 × 10⁻⁶ M). The same is true of benztropine for inhibiting dopamine uptake (ID₅₀ value 0.2 × 10⁻⁶ M).4. DALA (D-ala₂-met-enkephalinamide) and morphine were found to be inhibitors of monoamine uptake within the concentration range 100–140 μM.5. The high affinity uptake mechanisms were found to be highly sensitive to Na⁺ omissions from the incubation medium.6. The monoamines were found to affect each other's uptake. These results suggest the existence of intraganglionic regulatory mechanisms involving neurotransmitter interrelationships.     

Synthesis,crystal structure and biological activity of novel analogues of tricyclic drugs

A series of fourteen novel, eight-membered lactam- and dilactam-based analogues of tricyclic drugs were obtained in a simple one-pot procedure. Crystal structures of two compounds were determined by single-crystal X-ray diffraction analysis and their selected structural features were discussed and compared with those of imipramine and dibenzepine. Affinity of developed molecules for histamine receptor H₁, serotonin receptors 5-HT_1A, 5-HT_2A, 5-HT₆, 5-HT₇, serotonin transporter (SERT) and dopamine receptor D₂ was determined. The commercial drug dibenzepine was also checked on these molecular targets, as its mechanism of action is largely unknown. Two derivatives of 11,12-dihydrodibenzo[b,f]azocin-6(5H)-one (7,8) and two of dibenzo[b,f]azocin-6(5H)-one (9,10) were found to be active toward the H₁ receptor in sub-micromolar concentrations.     

Accumulation of inositol phosphates and cyclic AMP in guinea-pig cerebral cortical preparations: Effects of norepinephrine,histamine, carbamylcholine and 2-chloroadenosine

Norepinephrine and serotonin augment by about 2-fold the accumulation of cyclic [3H]AMP elicited by 2-chloroadenosine in [³H]adenine-labeled guinea-pig cerebral cortical slices. Histamine causes a 3-fold augmentation. The first two agents have no effect on cyclic AMP alone, while histamine has only a small effect alone. The augmentation of the 2-chloroadenosine response appears to be mediated by α₁-adrenergic, 5HT₂-serotonergic and H₂-histaminergic receptors. VIP-elicited accumulations of cyclic AMP are also augmented through stimulation of α₁-adrenergic, 5HT₂-serotonergic and H₁-histaminergic receptors. Activation of these amine receptors also increases the turnover of phosphatidylinositols in [³H]inositol-labeled guinea pig cerebral cortical slices. Norepinephrine causes a 5-fold, serotonin a 1.2-fold, and histamine a 2.5-fold increase in accumulations of [³H]inositol phosphates. 2-Chloroadenosine, vasoactive intestinal peptide, baclofen, and somatostatin have no effect on phosphatidylinositol turnover, nor do the last two agents augment accumulations of cyclic AMP elicited by 2-chloroadenosine. The data suggest a possible relationship between turnover of phosphatidylinositol and the augmentations of the cyclic AMP accumulations elicited by biogenic amines in brain slices.     

The effect of prolonged intranasal administration of serotonin on the activity of hypothalamic signaling systems in male rats with neonatal diabetes

The functioning of the serotonergic system of the brain is impaired in type II diabetes (T2D), and this leads to metabolic and hormonal dysfunction. The elevation of serotonin level in the CNS is one of the approaches for correcting of the serotonergic system of the brain. The aim of the present work was to investigate the effect of intranasal serotonin (InS) administration for 5 weeks at a daily dose of 20 μg on the metabolic parameters and functional activity of adenylate cyclase signaling system (ACSS) sensitive to peptide hormones and biogenic amines in the hypothalamus of male rats with neonatal T2D. Neonatal model of T2D was induced by injecting streptozotocin (70 mg/kg) into 5-day-old rat pups. Four-month-old animals with apparent T2D manifestations were divided into two groups: an untreated group (D0, n = 6) and a group that received InS treatment (DIS, n = 6). InS administration to diabetic rats restored ACSS regulation by the agonists of type 2 dopamine receptors (DA₂R) and type 4 melanocortin receptors (MC₄R) and enhanced the inhibitory effect of serotonin on adenylate cyclase activity. Elevated expression of genes encoding DA₂R, MC₄R, and serotonin receptor of the 1B subtype (5-HT_1BR) was among the main causes of this change. The relative activity of signaling cascades involving various types of serotonin (G_s-coupled 5-HT_4,6,7R/G_i-coupled 5-HT₁R), dopamine (DA₁R/ DA₂R), and melanocortin (MC₃R/MC₄R) receptors involved in ACSS regulation was also altered in the animals of the DIS group. InS administration restored hormonal regulation in the hypothalamus, improved glucose tolerance, and increased the sensitivity of tissues to insulin. The data obtained show that the elevation of serotonin level in the CNS is a promising approach for the recovery of hypothalamic signaling pathways in T2D and correction of the metabolic disturbances dependent on these pathways.     

Synthesis and biological evaluation of positron emission tomography radiotracers targeting serotonin 4 receptors in brain: [18F]MNI-698 and [18F]MNI-699

Two new benzodioxane derivatives were synthesized as candidates to image the serotonin 4 receptors by positron emission tomography (PET) and radiolabeled with fluorine-18 via a two-step procedure. Competition binding assays demonstrated that MNI-698 and MNI-699 had sub-nanomolar binding affinities against rat striatal 5-HT₄ receptors (K_i of 0.20 and 0.07 nM, respectively). PET imaging in rhesus monkey showed that the regional brain distribution of [¹⁸F]MNI-698 and [¹⁸F]MNI-699 were consistent with the known densities of 5-HT₄ in brain. [¹⁸F]MNI-698 and [¹⁸F]MNI-699 are among the first fluorine-18 radiotracers developed for imaging the 5-HT₄ receptors in vivo and are currently under preclinical investigation in primates for future human use.     

Characterization of binding of [3H]PD 128907, A selective Dopamine D3 receptor agonist ligand,to CHO-K1 cells

PD 128907 [4a R, 10 b R-(+)-trans- 3, 4, 4a, 10 b - tetrahydro - 4- n-propy12 H,5H-[1] benzopyrano[4,3-b]1,4-oxazin-9-ol.], a selective dopamine (DA) D3 receptor agonist ligand exhibits about a 1000-fold selectivity for human D3 receptors (K_i, 1 nM) versus human D₂ receptors (K_i, 1183 nM) and a 10000-fold selectivity versus human D₄ receptors (K_i, 7000 nM) using [³H]spiperone as the radioligand in CHO-K1-cells. Studies with [³H]PD 128907, showed saturable, high affinity binding to human D₃ receptors expressed in CHO-K1 cells (CHO-K1-D₃) with an equilibrium dissociation constant (K_d) of 0.99 nM and a binding density (B_max) of 475 fmol/mg protein. Under the same conditions, there was no significant specific binding in CHO-K1-cells expressing human D₂ receptors (CHO-K1-D₂). The rank order of potency for inhibition of [³H]PD 128907 binding with reference DA agents was consistent with reported values for D₃ receptors. These results indicate that [³H]PD 128907 is a new, highly selective D₃ receptor ligand with high specific activity, high specific binding and low non-specific binding and therefore should be useful for further characterizing the DA D₃ receptors.     

Mutual modulating effects of serotonin and dopamine on neurons of rat spinal ganglia

It was established in experiments on isolated rat spinal ganglia that the introduction of dopoamine (0.01–1.0 µM) into a superfusate potentiates the depolarizing responses of the neurons evoked by the action of serotonin, which is delivered from a micropipette under pressure, while the addition of serotonin in the same concentrations potentiates the depolarizing responses of the neurons evoked by the action of dopamine. The mutual potentiation of the effects of dopamine and serotonin depends on the concentration of the monoamines and is eliminated by blockers of the D₁- (but not D₂-dopamine) and type 2 serotonin (but not IA) receptors. The mutual potentiation of the effects of monoamines is of a postsynaptic nature and is associated with a change in the intracellular concentration of second messengers (Ca²⁺ and cAMP).A. M. Gor'kii Donetsk Medical Institute, Ministry of Health of the Ukrainian SSR. Translated from Neirofiziologiya, Vol. 23, No. 2, pp. 168–173, March–April, 1991.     

Radiosynthesis and evaluation of N-(3-[18F]fluoropropyl)paroxetine as a radiotracer for in vivo labeling of serotonin uptake sites by PET

To visualize serotonin uptake sites by positron emission tomography (PET), N-(3-[¹⁸F]fluoropropyl)-paroxetine ([¹⁸F]FPP) (Fig. 1), a derivative of the selective serotonin uptake blocker paroxetine, was synthesized from 3-[¹⁸F]fluoropropyltosylate and paroxetine via a one-pot procedure. The rate of formation of [¹⁸F]FPP was a function of the ratio of the initial amount of paroxetine to that of 1,3-propanediol bistosylate with which [¹⁸F]fluoropropyltosylate was synthesized. When the reaction mixture contained an excess amount of paroxetine over that of the propyl-bistosylate, the radiosynthesis followed by HPLC purification, which took approx. 90 min, gave [¹⁸F]FPP in a radiochemical yield of approx. 8%, and in high radiochemical and chemical purity. The specific activity was 2640 ± 360 mCi/μmol.The brain biodistribution of [¹⁸F]FPP showed no distinguishable localization in regions with high density of serotonin uptake sites such as hypothalamus or olfactory tubercles. In vitro binding assays revealed that N-fluoropropylation of paroxetine reduced the affinity for the serotonin uptake site by three orders of magnitude.     

Alterations In Serotonin Receptors in the Neostriatum of Weaver Mutant Mice

Mice that carry the autosomal recessive gene weaver show a distinctive loss of nigrostriatal dopamine innervation, with the greatest deficits in the dorsal caudate-putamen and almost complete sparing in the nucleus accumbens and ventral caudate. In addition to loss of dopamine in this model, it has recently been shown that markers of serotonin (5-hydroxytryptamine, 5-HT) innervation including 5-HT content, synaptosomal uptake of [³H]5-HT and [³H]citalopram binding were elevated in the dorsal neostriatum of the weaver mutant mouse. Using quantitative autoradiography of specific ligands for dopamine and 5-HT uptake sites as well as serotonin 5-HT₁ and 5-HT_2A receptors, we found an increased density of 5-HT uptake sites and 5-HT₁ receptors restricted to the dorsal portion of the neostriatum of the weaver mouse. In contrast, 5-HT_2A receptors were increased in both the dorsal and ventral portions of the rostral neostriatum as well as the nucleus accumbens. The behavioural and functional relevance of these receptor changes is unclear, although, adaptations in 5-HT may play a role in certain aspects of spontaneous behaviour in the weaver mutant mouse.     

[125I]LSD binding to serotonin and dopamine receptors in bovine caudate membranes

[¹²⁵I]LSD (labeled at the 2 position) has been introduced as the first ¹²⁵I-labeled ligand for serotonin 5-HT₂ (S2) receptors. In the present study we examined the binding of [¹²⁵I]LSD and its non-radioactive homologue, 2I-LSD, to bovine caudate homogenates. The binding of [¹²⁵I]LSD is saturable, reversible, stereospecific and is destroyed by boiling the membranes. The specific to total binding ratio in this tissue is 75–80% and Scatchard plots of the binding data reveal K_d = 1.1 nM, B_max = 9.6 fmol/mg wet weight tissue. The association and dissociation rate constants are highly temperature dependent. At 0°C the net dissociation is less than 5% after 1 h and the association rate is proportionately slow. IC₅₀ values for a variety of compounds show a clear 5-HT₂ (S2) serotonergic pattern at this [¹²⁵I]LSD site. Blockage of this primary 5-HT₂ (S2) caudate binding site by 0.3 μM mianserin reveals the presence of a weaker [¹²⁵I]LSD binding site with a K_d = 9.1 nM, B_max = 7.6 fmol/mg tissue. This secondary site is a D3 dopaminergic receptor site, as shown by the relative abilities of various displacers to inhibit this binding. Binding studies with nonradioactive 2I-LSD reveal a clear preference for D2 over D3 dopamine receptor sites. [¹²⁵I]LSD is a sensitive and selective label for 5-HT₂ (S2) serotonin receptor sites in both rat frontal cortex and bovine caudate membranes. Blockage of the primary bovine caudate [¹²⁵I]LSD binding site with mianserin allows the high sensitivity of [¹²⁵I]LSD to be applied to D2 dopamine receptor studies as well.