Synthesis of (+)-(R)- and (−)-(S)-5-hydroxy-2-methyl-2-dipropylaminotetralin: Effects on rat hippocampal output of 5-HT, 5-HIAA,and DOPAC as determined by in vivo microdialysis

Racemic 5-methoxy-2-methyl-2-dipropylaminotetralin ( 3 ) has been prepared by a short synthetic route, in which the N,N-dipropyliminium perchlorate of 5-methoxy-2-tetralone ( 4 ) is a key intermediate. Racemic 3 was resolved by crystallization of the corresponding diastereomeric di-p-toluoyltartrates. The enantiomeric excess (%ee) of the phenolic derivatives of (+)-(R)- and (?)-(S)-3 [(+)-(R)- and (?)-(S)-2] was determined by ¹HNMR spectroscopic analysis of the corresponding diastereomeric (?)-(R)-1,1′-binaphthyl-2,2′-diylphosphoric acid salts utilizing ¹³C satellites. X-ray crystallography established the absolute configuration of (?)-(S)-2 · HCl. The enantiomers of 2 were tested for hippocampal output of 5-hydroxytryptamine, 5-hydroxyindoleacetic acid, and dihydroxyphenylacetic acid in rats by use of in vivo microdialysis. The (?)-(S)-enantiomer appeared to affect 5-HT-turnover, whereas (+)-(R)- 2 was inactive. Results obtained provide support for the previously reported hypothesis that the inactivity of (?)-(S)- 2 at central DA receptors is caused by the steric bulk of the C(2)-methyl group. This makes it possible to define a “DA D2 receptor essential volume.” © 1993 Wiley-Liss, Inc.     

Heterogeneity of Cortical and Hippocampal 5-HT1A Receptors: A Reappraisal of Homogenate Binding with 8-[3H]Hydroxydipropylaminotetralin

Abstract: The selective serotonin (5-HT) agonist 8-hydroxydipropylaminotetralin (8-OH-DPAT) has been extensively used to characterize the physiological, biochemical, and behavioral features of the 5-HT_1A receptor. A further characterization of this receptor subtype was conducted with membrane preparations from rat cerebral cortex and hippocampus. The saturation binding isotherms of [³H]8- OH-DPAT (free ligand from 200 pM to 160 nM) revealed high-affinity 5-HT_1A receptors (K_H= 0.7–0.8 nM) and lowaffinity (K_L= 22–36 nM) binding sites. The kinetics of [³H]8-OH-DPAT binding were examined at two ligand concentrations, i.e., 1 and 10 nM, and in each case revealed two dissociation rate constants supporting the existence of high- and low-affinity binding sites. When the high-affinity sites were labeled with a 1 nM concentration of [³H]8- OH-DPAT, the competition curves of agonist and antagonist drugs were best fit to a two-site model, indicating the presence of two different 5-HT_1A binding sites or, alternatively, two affinity states, tentatively designated as 5-HT_1AHIGH and 5-HT_1A^LOW. However, the low correlation between the affinities of various drugs for these sites indicates the existence of different and independent binding sites. To determine whether 5-HT_1A sites are modulated by 5′-guanylylimidodiphosphate, inhibition experiments with 5-HT were performed in the presence or in the absence of 100 μM 5′-guanylylimidodiphosphate. The binding of 1 nM [³H]8-OH-DPAT to the 5-HT_1A^HIGH site was dramatically (80%) reduced by 5′-guanylylimidodiphosphate; in contrast, the low-affinity site, or 5-HT_1A^LOW, was seemingly insensitive to the guanine nucleotide. The findings suggest that the high-affinity 5-HT_1A^HIGH site corresponds to the classic 5-HT_1A receptor, whereas the novel 5-HT_1A^LOW binding site, labeled by 1 nM [³H]8-OH-DPAT and having a micromolar affinity for 5-HT, may not belong to the G protein family of receptors. To further investigate the relationship of 5-HT_1A sites and the 5-HT innervation, rats were treated with p-chlorophenylalanine or with the neurotoxin p-chloroamphetamine. The inhibition of 5-HT synthesis by p-chlorophenylalanine did not alter either of the two 5-HT_1A sites, but deafferentation by p-chloroamphetamine caused a loss of the low-affinity [³H]8-OH- DPAT binding sites, indicating-that these novel binding sites may be located presynaptically on 5-HT fibers and/or nerve terminals.     

GABAB antagonists: Resolution,absolute stereochemistry,and pharmacology of (R)- and (S)-phaclofen

Phaclofen, which is the phosphonic acid analogue of the GABA_B agonist (RS)-3-(4-chlorophenyl)-4-aminobutyric acid (baclofen), is a GABA_B antagonist. As part of our studies on the structural requirements for activation and blockade of GABA_B receptors, we have resolved phaclofen using chiral chromatographic techniques. The absolute stereochemistry of (?)-(R)-phaclofen was established by X-ray crystallographic analysis. (?)-(R)-Phaclofen was shown to inhibit the binding of [³H]-(R)-baclofen to GABA_B receptor sites on rat cerebellar membranes (IC₅₀ = 76 ± 13 μM), whereas (+)-(S)-phaclofen was inactive in this binding assay (IC₅₀ > 1000 μM). (?)-(R)-Phaclofen (200 μM) was equipotent with (RS)-phaclofen (400 μM) in antagonizing the action of baclofen in rat cerebral cortical slices, while (+)-(S)-phaclofen (200 μM) was inactive. The structural similarity of the agonist (R)-baclofen and the antagonist (?)-(R)-phaclofen suggests that these ligands interact with the GABA_B receptor sites in a similar manner. Thus, it may be concluded that the different pharmacological effects of these compounds essentially result from the different spatial and proteolytic properties of their acid groups. © 1994 Wiley-Liss, Inc.     

GABAA agonists: Resolution and pharmacology of (+)- and (−)-isoguvacine oxide

(3SR,4RS)-3,4-Epoxypiperidine-4-carboxylic acid (isoguvacine oxide) is a potent and specific GABA_A receptor agonist. Isoguvacine oxide, originally designed as a potentially alkylating agonist, turned out to interact with the GABA_A receptor in a fully reversible manner. The protected form of isoguvacine oxide, benzyl (3SR,4RS)-1-(benzyloxycarbonyl)-3,4-epoxypiperidine-4-carboxylate ( 1 ) (Scheme 1), has now been resolved by chiral chromatography using cellulose triacetate as a chiral stationary phase. The enantiomers of 1 (ee ≥ 98.8%) were subsequently deprotected by hydrogenolysis. Whereas both enantiomers of isoguvacine oxide were inactive as inhibitors of the binding of [³H]GABA to GABA_B receptor sites (IC₅₀ > 100 μM), (+)-isoguvacine oxide (IC₅₀ = 0.20 ± 0.03 μM) and (?)-isoguvacine oxide (IC₅₀ = 0.32 ± 0.05 μM) showed comparable potencies as inhibitors of the binding of [³H]GABA to GABA_A receptor sites. Furthermore, (+)-isoguvacine oxide (EC₅₀ = 6 μM; 33% relative efficacy) and (?)-isoguvacine oxide (EC₅₀ = 5 μM; 38% efficacy relative to 10 μM muscimol) were approximately equipotent and equiefficacious as stimulators of the binding of [³H]diazepam to the GABA_A receptor-associated benzodiazepine site. This latter effect is an in vitro estimate of GABA_A agonist efficacy. These pharmacological data for isoguvacine oxide and its enantiomers do not seem to support our earlier conception of the topography of the GABA_A recognition site(s), derived from extensive structure—activity studies on GABA_A agonists. Thus, the model of the GABA_A recognition site(s) comprising a narrow cleft or pocket, in which the anionic moiety of the zwitterionic GABA_A agonists is assumed to be embedded during receptor activation, may have to be revised. © 1995 Wiley-Liss, Inc.     

Autoradiography of Serotonin 5-HT1A Receptor-Activated G Proteins in Guinea Pig Brain Sections by Agonist-Stimulated [35S]GTPγS Binding

Abstract: G protein activation mediated by serotonin 5-HT_1A and 5-HT_1B/D receptors in guinea pig brain was investigated by using quantitative autoradiography of agonist-stimulated [³⁵S]GTPγS binding to brain sections. [³⁵S]GTPγS binding was stimulated by the mixed 5-HT_1A/5-HT_1B/D agonist L694247 in brain structures enriched in 5-HT_1A binding sites, i.e., hippocampus (+140 ± 14%), dorsal raphe (+70 ± 8%), lateral septum (+52 ± 12%), cingulate (+36 ± 8%), and entorhinal cortex (+34 ± 5%). L694247 caused little or no stimulation of [³⁵S]GTPγS binding in brain regions with high densities of 5-HT_1B/D binding sites (e.g., substantia nigra, striatum, central gray, and dorsal subiculum). The [³⁵S]GTPγS binding response was antagonized by WAY100635 (10 µM) and methiothepin (10 µM). In contrast, the 5-HT_1B inverse agonist SB224289 (10 µM) did not affect the L694247-mediated [³⁵S]GTPγS binding response, and the mixed 5-HT_1B/D antagonist GR127935 (10 µM) yielded a partial blockade. The distribution pattern of the [³⁵S]GTPγS binding response and the antagonist profile suggest the L694247-mediated response in guinea pig brain to be mediated by 5-HT_1A receptors. In addition to L694247, 8-hydroxy-2-(di-n-propylamino)tetralin, and flesinoxan also stimulated [³⁵S]GTPγS binding; their maximal responses varied between 46 and 52% compared with L694247, irrespective of the brain structure being considered. Sumatriptan, rizatriptan, and zolmitriptan (10 µM) stimulated [³⁵S]GTPγS binding in the hippocampus by 20–50%. Naratriptan, CP122638, and dihydroergotamine stimulated [³⁵S]GTPγS binding to a similar level as L694247 in hippocampus, lateral septum, and dorsal raphe. It appears that under the present experimental conditions, G protein activation through 5-HT_1A but not 5-HT_1B/D receptors can be measured in guinea pig brain sections.     

Characterisation of the Binding of [3H]WAY-100635, a Novel 5-Hydroxytryptamine1A Receptor Antagonist, to Rat Brain

Abstract: The specific binding of [³H]WAY-100635 {N-[2-[4-(2-[O-methyl-³H]methoxyphenyl)-1-piperazinyl]ethyl]-N-(2-pyridinyl)cyclohexane carboxamide trihydrochloride} to rat hippocampal membrane preparations was time, temperature, and tissue concentration dependent. The rates of [³H]WAY-100635 association (k₊₁ = 0.069 ± 0.015 nM^?1 min^?1) and dissociation (k_?1 = 0.023 ± 0.001 min^?1) followed monoexponential kinetics. Saturation binding isotherms of [³H]WAY-100635 exhibited a single class of recognition site with an affinity of 0.37 ± 0.051 nM and a maximal binding capacity (B_max) of 312 ± 12 fmol/mg of protein. The maximal number of binding sites labelled by [³H]WAY-100635 was ～36% higher compared with that of 8-hydroxy-2-(di-n-[³H]-propylamino)tetralin ([³H]8-OH-DPAT). The binding affinity of [³H]WAY-100635 was significantly lowered by the divalent cations CaCl₂ (2.5-fold; p < 0.02) and MnCl₂ (3.6-fold; p < 0.05), with no effect on B_max. Guanyl nucleotides failed to influence the K_D and B_max parameters of [³H]WAY-100635 binding to 5-HT_1A receptors. The pharmacological binding profile of [³H]WAY-100635 was closely correlated with that of [³H]8-OH-DPAT, which is consistent with the labelling of 5-hydroxytryptamine_1A (5-HT_1A) sites in rat hippocampus. [³H]WAY-100635 competition curves with 5-HT_1A agonists and partial agonists were best resolved into high- and low-affinity binding components, whereas antagonists were best described by a one-site binding model. In the presence of 50 µM guanosine 5′-O-(3-thiotriphosphate) (GTPγS), competition curves for the antagonists remained unaltered, whereas the agonist and partial agonist curves were shifted to the right, reflecting an influence of G protein coupling on agonist versus antagonist binding to the 5-HT_1A receptor. However, a residual (16 ± 2%) high-affinity agonist binding component was still apparent in the presence of GTPγS, indicating the existence of GTP-insensitive sites.     

Synthesis and binding studies of 2-O- and 11-O-substituted N-alkylnoraporphines

We synthesized several novel 2-O- or 11-O-substituted N-alkylnoraporphines and assessed their affinities at dopamine D₁ and D₂, and serotonin 5-HT_1A receptors in rat forebrain tissue. Tested compounds displayed moderate to high affinities to D₂ receptors but low affinities to D₁ and 5HT_1A receptors. The findings accord with previous evidence of a lipophilic cavity on the surface of the D₂ receptor to accommodate N-alkyl moieties of aporphines. The most D₂-potent (K_i = 97 nM) and selective novel agent (>100-fold vs. D₁ and 5-HT_1A sites) was R(−)-2-(2-hydroxyethoxy)-11-hydroxy-N-n-propylnoraporphine (compound 11).     

Identification of D3 and σ Receptors in the Rat Striatum and Nucleus Accumbens Using (±)-7-Hydroxy-N,N-Di-n-[3H]Propyl-2-Aminotetralin and Carbetapentane

Abstract: Cross-reactions between dopamine D₃ and σ receptor ligands were investigated using (±)-7-hydroxy-N,N-di-n-[³H]propyl-2-aminotetralin [(±)-7-OH-[³H]DPAT], a putative D₃-selective radioligand, in conjunction with the unlabeled σ ligands 1,3-di(2-tolyl)guanidine (DTG), carbetapentane, and R(?)-N-(3-phenyl-1-propyl)-1-phenyl-2-aminopropane [R(?)-PPAP]. In transfected CCL1.3 mouse fibroblasts expressing the human D₃ receptor, neither DTG nor carbetapentane (0.1 µM) displaced (±)-7-OH-[³H]DPAT binding. R(?)-PPAP (0.1 µM) displaced 39.6 ± 1.0% of total (±)-7-OH-[³H]DPAT binding. In striatal and nucleus accumbens homogenates, (±)-7-OH-[³H]DPAT labeled a single site (15–20 fmol/mg of protein) with high (1 nM) affinity. Competition analysis with carbetapentane defined both high- and low-affinity sites in striatal (35 and 65%, respectively) and nucleus accumbens (59 and 41%, respectively) tissue, yet R(?)-PPAP identified two sites in equal proportion. Carbetapentane and R(?)-PPAP (0.1 µM) displaced ～20–50% of total (±)-7-OH-[³H]DPAT binding in striatum, nucleus accumbens, and olfactory tubercle in autoradiographic studies, with the nucleus accumbens shell subregion exhibiting the greatest displacement. To determine directly (+)-7-OH-[³H]DPAT binding to σ receptors, saturation analysis was performed in the cerebellum while masking D₃ receptors with 1 µM dopamine. Under these conditions (+)-7-OH-[³H]DPAT labeled σ receptors with an affinity of 24 nM. These results suggest that (a) (±)-7-OH-[³H]DPAT binds D₃ receptors with high affinity in rat brain and (b) a significant proportion of (±)-7-OH-[³H]DPAT binding consists of σ₁ sites and the percentages of these sites differ among the subregions of the striatum and nucleus accumbens.     

The Serotonin 5-HT2C Receptor Is a Prominent Serotonin Receptor in Basal Ganglia: Evidence from Functional Studies on Serotonin-Mediated Phosphoinositide Hydrolysis

Abstract: Serotonin (5-hydroxytryptamine; 5-HT) 5-HT_2A and 5-HT_2C receptors belong to the class of phosphoinositide-specific phospholipase C (PLC)-linked receptors. Conditions were established for measuring 5-HT_2A-linked and 5-HT_2C-linked PLC activity in membranes prepared from previously frozen rat frontal cortex and caudate. In the presence of Ca²⁺ (300 nM) and GTPγS (1 µM), 5-HT increased PLC activity in caudate membranes. Pharmacological analysis using the selective 5-HT_2A antagonist, spiperone, and the nonselective 5-HT_2A/2C antagonist, mianserin, demonstrated that over half of the 5-HT-stimulated PLC activity was due to stimulation of 5-HT_2C receptors as opposed to 5-HT_2A receptors. Radioligand binding assays with [³H]RP 62203 and [³H]-mesulergine were used to quantify 5-HT_2A and 5-HT_2C sites, respectively, in caudate. From these data, the B_max for caudate 5-HT_2A sites and 5-HT_2C sites was 165.4 ± 9.7 fmol/mg of protein and 49.7 ± 3.3 fmol/mg of protein, respectively. In contrast to that in caudate, PLC activity in frontal cortex was stimulated by 5-HT in a manner that was inhibited by the 5-HT_2A-selective antagonists, spiperone and ketanserin. Taken together, the results indicate that 5-HT_2A- and 5-HT_2C-linked PLC activity can be discerned in brain regions possessing both receptor subtypes using membranes prepared from previously frozen tissue. More importantly, significant 5-HT_2C-mediated phosphoinositide hydrolysis was observed in caudate, despite the relatively low density of 5-HT_2C sites. The significance of these observations with respect to the physiological function of 5-HT_2C receptors is discussed.     

Characterization and Localization of Adenosine A2 Receptors in Bovine Rod Outer Segments

Abstract: Previous work from this laboratory has shown that retinal adenosine A₂ binding sites are localized over outer and inner segments of photoreceptors in rabbit and mouse retinal sections. In the present study, adenosine receptor binding has been characterized and localized in membranes from bovine rod outer segments (ROS). Saturation studies with varying concentrations (10–150 nM) of 5′-(N-[2,8-³H]ethylcarboxamido)adenosine ([³H]NECA) and 100 μg of ROS membrane protein show a single site with a K_D of 103 nM and a B_max of 1.3 pM/mg of protein. Cold Scatchards, which used nonradiolabeled NECA (concentrations ranging from 10 nM to 250 nM) in competition with a fixed amount of [³H]NECA (30 nM), demonstrated the presence of a low-affinity site (K_D, 50 μM) in addition to the high-affinity site. To confirm the presence of A_2abinding sites, saturation analyses with 2-p-(2-[³H]-carboxyethyl)phenylamino-5′-N-ethylcarboxamido adenosine (0–80 nM) also revealed a single population of high-affinity A_2a receptors (K_D, 9.4 nM). The binding sites labeled by [³H]NECA appear to be A₂ receptor sites because binding was displaced by increasing concentrations of 5′-(N-methylcarboxamido)adenosine and 2-chloroadenosine. ROS were fractionated into plasma and disk membranes for localization studies. Receptor binding assays, used to determine specific binding, showed that the greatest concentration of A₂ receptors was on the plasma membranes. Therefore, adenosine A₂ receptors are in a position to respond to changes in the concentration of extracellular adenosine, which may exhibit a circadian rhythm.     

Characterization of (2S,2'R,3'R)-2-(2',3'-[3H]-Dicarboxycyclopropyl)glycine Binding in Rat Brain

Abstract: [(2S,2′R,3′R)-2-(2′,3′-[³H]Dicarboxycyclopropyl)glycine ([³H]DCG IV) binding was characterized in vitro in rat brain cortex homogenates and rat brain sections. In cortex homogenates, the binding was saturable and the saturation isotherm indicated the presence of a single binding site with a K_D value of 180 ± 33 nM and a B_max of 780 ± 70 fmol/mg of protein. The nonspecific binding, measured using 100 µM LY354740, was <30%. NMDA, AMPA, kainate, l (?)-threo-3-hydroxyaspartic acid, and (S)-3,5-dihydroxyphenylglycine were all inactive in [³H]DCG IV binding up to 1 mM. However, several compounds inhibited [³H]DCG IV binding in a concentration-dependent manner with the following rank order of potency: LY341495 = LY354740 > DCG IV = (2S,1′S,2′S)-2-(2-carboxycyclopropyl)glycine > (1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid > (2S,1′S,2′S)-2-methyl-2-(2-carboxycyclopropyl)glycine > l -glutamate = ibotenate > quisqualate > (RS)-α-methyl-4-phosphonophenylglycine = l (+)-2-amino-3-phosphonopropionic acid > (S)-α-methyl-4-carboxyphenylglycine > (2S)-α-ethylglutamic acid > l (+)-2-amino-4-phosphonobutyric acid. N-Acetyl-l -aspartyl-l -glutamic acid inhibited the binding in a biphasic manner with an IC₅₀ of 0.2 µM for the high-affinity component. The binding was also affected by GTPγS, reducing agents, and CdCl₂. In parasagittal sections of rat brain, a high density of specific binding was observed in the accessory olfactory bulb, cortical regions (layers 1, 3, and 4 > 2, 5, and 6), caudate putamen, molecular layers of the hippocampus and dentate gyrus, subiculum, presubiculum, retrosplenial cortex, anteroventral thalamic nuclei, and cerebellar granular layer, reflecting its preferential (perhaps not exclusive) affinity for pre- and postsynaptic metabotropic glutamate mGlu2 receptors. Thus, the pharmacology, tissue distribution, and sensitivity to GTPγS show that [³H]DCG IV binding is probably to group II metabotropic glutamate receptors in rat brain.     

NAD-299 ANTAGONISES 5-HT-STIMULATED AND SPIPERONE-INHIBITED [35S]GTPγS BINDING IN CLONED 5-HT1A RECEPTORS

ABSTRACT

In Chinese Hamster Ovary (CHO) cells expressing cloned human 5-hydroxy-tryptamine_1A (5-HT_1A) receptors, (R)-3-N,N-dicyclobutylamino-8-fluoro-[6-³H]-3,4-dihydro-2H-1-benzopyran-5-carboxamide ([³H]NAD-299) exhibited high affinity (K_d = 0.16?nM) and labeled 34% more receptors than 8-hydroxy-2-([2,3-³H]di-n-propylamino)tetralin ([³H]8-OH-DPAT). NAD-299 behaved as a silent antagonist in [³⁵S]GTPγS binding similar to N-tert-butyl-3-(4-(2-methoxyphenyl)-piperazin-1-yl)-2-phenylpropanamide (WAY-100635) and (S)-5-fluoro-8-hydroxy-2-(di-n-propylamino)tetralin ((S)UH-301). 5-HT and 5-carboxamidotryptamine (5-CT) stimulated [³⁵S]GTPγS binding 2.5-fold while spiperone and methiothepin inhibited [³⁵S]GTPγS binding 1.4-fold. Furthermore, NAD-299 antagonised both the 5-HT stimulated and the spiperone inhibited [³⁵S]GTPγS binding to basal levels. The K_iL/K_iH ratios for spiperone (0.66), methiothepin (0.39), WAY-100635 (0.32), (S)UH-301 (0.94), NAD-299 (1.29), NAN-190 (1.23), (S)pindolol (5.85), ipsapirone (13.1), buspirone (24.6), (±)8-OH-DPAT (47.3), flesinoxan (55.8), 5-HT (200) and 5-CT (389) correlated highly significantly with the intrinsic activity obtained with [³⁵S] GTPγS (r = 0.97).     

Synthesis and activity of di- or trisubstituted N-(phenoxyalkyl)- or N-{2-[2-(phenoxy)ethoxy]ethyl}piperazine derivatives on the central nervous system

Aim of the study was evaluation of anxiolytic, antidepressant, anticonvulsant and analgesic activity in a series of a consistent group of compounds. A series of eleven new N-(phenoxyalkyl)- or N-{2-[2-(phenoxy)ethoxy]ethyl}piperazine derivatives has been obtained. Their affinity towards 5-HT_1A, 5-HT_2A, 5-HT₆, 5-HT₇, D₂ and α₁ receptors has been assessed, and then functional assays were performed. The compounds were evaluated in mice, i.p. for their antidepressant-like (forced swim test), locomotor, anxiolytic-like (four-plate test) activities as well as – at higher doses – for anticonvulsant potential (MES) and neurotoxicity (rotarod). Two compounds (3, 6) were also evaluated for their analgesic activity in neuropathic pain models (streptozocin test, oxaliplatin test) and they were found active against allodynia in diabetic neuropathic pain at 30?mg/kg. Among the compounds, anxiolytic-like, anticonvulsant or analgesic activity was observed but antidepressant-like activity was not. One of the two most interesting compounds is 1-{2-[2-(2,4,6-trimethylphenoxy)ethoxy]ethyl}-4-(2-methoxyphenyl)piperazine dihydrochloride (9), exhibiting anxiolytic and anticonvulsant activity in mice, i.p. 30 min after administration (at 2.5?mg/kg and ED₅₀?=?26.33?mg/kg, respectively), which can be justified by the receptor profile: 5-HT_1A K_i?=?5?nM (antagonist), 5-HT₇ K_i?=?70?nM, α₁ K_i?=?15?nM, D₂ K_i?=?189?nM (antagonist). Another interesting compound is 1-[3-(2,4,6-trimethylphenoxy)propyl]-4-(4-methoxyphenyl)piperazine dihydrochloride (3), exhibiting anxiolytic, anticonvulsant and antiallodynic activity in mice, i.p., 30?min after administration (at 10?mg/kg, ED₅₀?=?23.50?mg/kg, at 30?mg/kg, respectively), which can be related with 5-HT_1A weak antagonism (K_i?=?146?nM), or other possible mechanism of action, not evaluated within presented study. Additionally, for the most active compound in the four-plate test (7), molecular modeling was performed (docking to receptors 5-HT_1A, 5-HT_2A, 5-HT₇, D₂ and α_1A).     

Pharmacological Characterization of 5-Hydroxytryptamine3Receptors in Murine Brain and Ileum Using the Novel Radioligand [3H]RS-42358–197: Evidence for Receptor Heterogeneity

Abstract: Previous studies have demonstrated species-specific differences in 5-hydroxytryptamine₃ (5-HT₃) receptors, but unequivocal evidence of 5-HT₃ receptor subtypes, within a species, has not yet been obtained. The purpose of the current study was to test for heterogeneity in 5-HT₃ receptors in murine tissues. 5-HT₃ receptors in membranes derived from brain cerebral cortex of CD-1, C57BI/6, and Swiss Webster mice and ileum of CD-1 mice were labeled with the 5-HT₃ receptor antagonist [³H]RS-42358–197. Structurally diverse competing ligands were then used to characterize the binding site. [³H]RS-42358-197 bound with similar affinity in each of the cortical tissues (mean K_D= 0.14 nM; range, 0.06–0.32 nM) but bound with lower affinity in ileal tissue (2.5 nM). The density of sites labeled with [³H]RS-42358–197 ranged from 10.4 fmol/mg of protein in Swiss Webster mouse cortex to 44.2 fmol/mg of protein in Sprague-Dawley rat cortex. Displacing ligands produced a pharmacologic profile of the [³H]RS-42358–197 binding site consistent with it being a 5-HT₃ receptor: (R)-YM060 > (S)-zacopride > (R)-zaco-pride > MDL 72222 > 2-methyl-5-HT. However, 10-fold differences in the affinity of certain ligands were found when comparing 5-HT₃ binding sites in membranes from cerebral cortex of the different strains of mice and when comparing 5-HT₃ binding sites in brain and ileal membranes prepared from the CD-1 mouse strain. Ligands demonstrating selectivity included RS-42358–197, (R)-za-copride, 1-(m-chlorophenyl) biguanide, (R)-YM060, and MDL 72222. These studies demonstrate tissue-and strain-dependent differences in murine 5-HT₃ binding sites. This suggests that 5-HT₃ receptors exist as multiple subtypes within species and that subtype-selective 5-HT₃ ligands may be identified.     

Structural manipulation of aporphines via C10 nitrogenation leads to the identification of new 5-HT7AR ligands

Aporphine alkaloids containing a C10 nitrogen motif were synthesized and evaluated for affinity at 5-HT_1AR, 5-HT_2AR, 5-HT₆R and 5-HT_7AR. Three series of racemic aporphines were investigated: 1,2,10-trisubstituted, C10 N-monosubstituted and compounds containing a C10 benzofused aminothiazole moiety. The 1,2,10-trisubstituted series of compounds as a group displayed modest selectivity for 5-HT_7AR and also had moderate 5-HT_7AR affinity. Compounds from the C10 N-monosubstituted series generally lacked affinity for 5-HT_2AR and 5-HT₆R and showed strong affinity for 5-HT_1A or 5-HT_7AR. Compounds in this series that contained an N6-methyl group were up to 27-fold selective for 5-HT_7AR over 5-HT_1AR, whereas compounds with an N6-propyl substituent showed a reversal in this selectivity. The C10 benzofused aminothiazole analogues showed a similar binding profile as the C10 N-monosubstituted series i.e. strong affinity for 5-HT_1AR or 5-HT_7AR, with selectivity between the two receptors being similarly influenced by N6-methyl or N6-propyl substituents. Compounds 29 and 34a exhibit high 5-HT_7AR affinity, excellent selectivity versus dopamine receptors and function as antagonists in 5-HT_7AR cAMP-based assays. Compounds 29 and 34a have been identified as new lead molecules for further tool and pharmaceutical optimization.     

Putative role of the adenosine A3 receptor in the antiproliferative action of N 6-(2-isopentenyl)adenosine

We tested a panel of naturally occurring nucleosides for their affinity towards adenosine receptors. Both N ⁶-(2-isopentenyl)adenosine (IPA) and racemic zeatin riboside were shown to be selective human adenosine A₃ receptor (hA₃R) ligands with affinities in the high nanomolar range (K _i values of 159 and 649 nM, respectively). These values were comparable to the observed K _i value of adenosine on hA₃R, which was 847 nM in the same radioligand binding assay. IPA also bound with micromolar affinity to the rat A₃R. In a functional assay in Chinese hamster ovary cells transfected with hA₃R, IPA and zeatin riboside inhibited forskolin-induced cAMP formation at micromolar potencies. The effect of IPA could be blocked by the A₃R antagonist VUF5574. Both IPA and reference A₃R agonist 2-chloro-N ⁶-(3-iodobenzyl)adenosine-5′-N-methylcarboxamide (Cl-IB-MECA) have known antitumor effects. We demonstrated strong and highly similar antiproliferative effects of IPA and Cl-IB-MECA on human and rat tumor cell lines LNCaP and N1S1. Importantly, the antiproliferative effect of low concentrations of IPA on LNCaP cells could be fully blocked by the selective A₃R antagonist MRS1523. At higher concentrations, IPA appeared to inhibit cell growth by an A₃R-independent mechanism, as was previously reported for other A₃R agonists. We used HPLC to investigate the presence of endogenous IPA in rat muscle tissue, but we could not detect the compound. In conclusion, the antiproliferative effects of the naturally occurring nucleoside IPA are at least in part mediated by the A₃R.     

Guanosine 5′-(γ-[35S]Thio)triphosphate Autoradiography Allows Selective Detection of Histamine H3 Receptor-Dependent G Protein Activation in Rat Brain Tissue Sections

Abstract: Histamine elicits its biological effects via three distinct G protein-coupled receptors, termed H₁, H₂, and H₃. We have used guanosine 5′-(γ-[³⁵S]thio)triphosphate (GTPγ[³⁵S]) autoradiography to localize histamine receptor-dependent G protein activation in rat brain tissue sections. Initial studies revealed that in basal conditions, adenosine was present in tissue sections in sufficient concentrations to generate an adenosine A₁ receptor-dependent GTPγ[³⁵S] signal in several brain regions. All further incubations therefore contained 8-cyclopentyl-1,3-dipropylxanthine (10 µM), a selective A₁ receptor antagonist. Histamine elicited dose-dependent increments in GTPγ[³⁵S] binding to discrete anatomical structures, most notably the caudate putamen, cerebral cortex, and substantia nigra. The overall anatomical pattern of the histamine-evoked binding response closely reflects the known distribution of H₃ binding sites and was faithfully mimicked by N^α-methylhistamine, (R)-α-methylhistamine, and immepip, three H₃-selective agonists. In all regions examined, the GTPγ[³⁵S] signal was reversed with thioperamide and clobenpropit, two potent H₃-selective antagonists, whereas mepyramine, a specific H₁ antagonist, and cimetidine, a prototypic H₂ antagonist, proved ineffective. These data indicate that in rat brain tissue sections, GTPγ[³⁵S] autoradiography selectively detects H₃ receptor-dependent signaling in response to histamine stimulation. As the existing evidence suggests that GTPγ[³⁵S] autoradiography preferentially reveals responses to G_i/o-coupled receptors, our data indicate that most, if not all, central H₃ binding sites represent functional receptors coupling to G_i/o, the inhibitory class of G proteins. Besides allowing more detailed studies on H₃ receptor signaling within anatomically restricted regions of the CNS, GTPγ[³⁵S] autoradiography offers a novel approach for functional in vitro screening of H₃ ligands.     

Synthesis and in vivo evaluation of [18F]2-(4-(4-(2-(2-fluoroethoxy)phenyl)piperazin-1-yl)butyl)-4-methyl-1,2,4-triazine-3,5(2H,4H)-dione ([18F]FECUMI-101) as an imaging probe for 5-HT1A receptor agonist in nonhuman primates

The 5-HT_1AR partial agonist PET radiotracer, [¹¹C]CUMI-101, has advantages over an antagonist radiotracer as it binds preferentially to the high affinity state of the receptor and thereby provides more functionally meaningful information. The major drawback of C-11 tracers is the lack of cyclotron facility in many health care centers thereby limiting widespread clinical or research use. We identified the fluoroethyl derivative, 2-(4-(4-(2-(2-fluoroethoxy)phenyl)piperazin-1-yl)butyl)-4-methyl-1,2,4-triazine-3,5(2H,4H)dione (FECUMI-101) (K_i = 0.1 nM; E_max = 77%; EC₅₀ = 0.65 nM) as a partial agonist 5-HT_1AR ligand of the parent ligand CUMI-101. FECUMI-101 is radiolabeled with F-18 by O-fluoroethylation of the corresponding desmethyl analogue (1) with [¹⁸F]fluoroethyltosylate in DMSO in the presence of 1.6 equiv of K₂CO₃ in 45 ± 5% yield (EOS). PET shows [¹⁸F]FECUMI-101 binds specifically to 5-HT_1AR enriched brain regions of baboon. The specificity of [¹⁸F]FECUMI-101 binding to 5-HT_1AR was confirmed by challenge studies with the known 5-HT_1AR ligand WAY100635. These findings indicate that [¹⁸F]FECUMI-101 can be a viable agonist ligand for the in vivo quantification of high affinity 5-HT_1AR with PET.     

Design,synthesis and preliminary screening of novel 3-(2-N,N-dimethylaminoethylthio) indole derivatives as potential 5-HT6 receptor ligands

The synthesis and potential 5-hydroxytryptamine₆ receptor (5-HT₆R) antagonist activity of a novel series of N-arylsulfonyl-3-(2-N,N-dimethylaminoethylthio) indoles has been reported. The molecular modeling, synthesis and in-vitro radioligand binding data of this series are discussed. The present article describes 37 derivatives of the title series. It was observed that the increased side-chain length with the insertion of a sulfur atom did not lead to the loss of binding affinity of these compounds, although the affinities were reduced. The compounds exhibited moderate affinity and selectivity to human 5-HT₆ receptors.