Visualization of 5-HT Receptors Using Radioligand-Binding Autoradiography.

Described in this unit are techniques to visualize the majority of serotonin (5-hydroxytryptamine, 5-HT) receptor subtypes in sections of frozen brain tissue using receptor autoradiography. Protocols for brain extraction and sectioning, radioligand exposure, autoradiogram generation, and data quantification are provided, as are the optimal incubation conditions for the autoradiographic visualization of receptors using agonist and antagonist radioligands. © 2016 by John Wiley & Sons, Inc.

Serotonin receptors, novel targets of sulforaphane identified by proteomic analysis in Caco-2 cells.

Cancer chemopreventive activity of sulforaphane has been predominantly associated with its ability to induce phase II detoxification enzymes. In the present study, novel targets of sulforaphane were identified and characterized using a proteomics approach. Two-dimensional gel electrophoresis and mass spectrometry were used to produce protein profiles of human colon adenocarcinoma Caco-2 cells treated with 5 mumol/L sulforaphane for 48 h and control cells (0.05% DMSO). Gel comparisons showed the down-regulation to undetectable level of the serotonin receptor 5-HT(3) after sulforaphane treatment. In addition, Aldo-keto reductase and d-dopachrome decarboxylase were also differentially expressed in control and treated cell extracts. To elucidate two-dimensional gel findings, the neurotransmitter receptors 5-HT(3A), 5-HT(1A), 5-HT(2C), and the serotonin reuptake transporter were analyzed using Western blotting. Results showed a decrease of neurotransmitter receptors in a dose-dependent manner after sulforaphane treatment. Moreover, after exposure of Caco-2 cells to sulforaphane, nicotinic acetylcholine receptor protein level was increased. These findings suggested a potential effect of sulforaphane on serotonin release. Activation of neurotransmitter receptors followed by initiation of cyclic AMP signaling might be crucial events in colon carcinoma progression. Thus, the effect of sulforaphane may help to elucidate signaling pathways serotonin-mediated in colon cancer and lead to development of potential novel therapeutic agents.

Oligomerization of G-protein-coupled receptors shown by selective co-immunoprecipitation.

Recent studies have shown that G-protein-coupled receptors (GPCRs) can assemble as high molecular weight homo- and hetero-oligomeric complexes. This can result in altered receptor-ligand binding, signaling, or intracellular trafficking. We have co-transfected HEK-293 cells with differentially epitope-tagged GPCRs from different subfamilies and determined whether oligomeric complexes were formed by co-immunoprecipitation and immunoblot analysis. This gave the surprising result that the 5HT(1A) receptor was capable of forming hetero-oligomers with all GPCRs tested including the 5HT(1B), 5HT(1D), EDG(1), EDG(3), GPR(26), and GABA(B2) receptors. The testing of other GPCR combinations showed similar results with hetero-oligomer formation occurring for the 5HT(1D) with the 5HT(1B) and EDG(1) receptor. Control studies showed that these complexes were present in co-transfected cells before the time of lysis and that the hetero-oligomers were comprised of GPCRs at discrete stoichiometries. These findings suggest that GPCRs have a natural tendency to form oligomers when co-transfected into cells. Future studies should therefore investigate the presence and physiological role of GPCR hetero-oligomers in cells in which they are endogenously expressed.

Deletion of the serotonin 5-HT2C receptor PDZ recognition motif prevents receptor phosphorylation and delays resensitization of receptor responses.

Phosphorylation-deficient serotonin 5-HT(2C) receptors were generated to determine whether phosphorylation promotes desensitization of receptor responses. Phosphorylation of mutant 5-HT(2C) receptors that lack the carboxyl-terminal PDZ recognition motif (Ser(458)-Ser-Val-COOH; DeltaPDZ) was not detectable based on a band-shift phosphorylation assay and incorporation of (32)P. Treatment of cells stably expressing DeltaPDZ or wild-type 5-HT(2C) receptors with serotonin produced identical maximal responses and EC(50) values for eliciting [(3)H]inositol phosphate formation. In calcium imaging studies, treatment of cells expressing DeltaPDZ or wild-type 5-HT(2C) receptors with 100 nm serotonin elicited initial maximal responses and decay rates that were indistinguishable. However, a second application of serotonin 2.5 min after washout caused maximal responses that were approximately 5-fold lower with DeltaPDZ receptors relative to wild-type 5-HT(2C) receptors. After 10 min, responses of DeltaPDZ receptors recovered to wild-type 5-HT(2C) receptor levels. Receptors with single mutations at Ser(458) (S458A) or Ser(459) (S459A) decreased serotonin-mediated phosphorylation to 50% of wild-type receptor levels. Furthermore, subsequent calcium responses of S459A receptors were diminished relative to S458A and wild-type receptors. These results establish that desensitization occurs in the absence of 5-HT(2C) receptor phosphorylation and suggest that receptor phosphorylation at Ser(459) enhances resensitization of 5-HT(2C) receptor responses.

Isolation of the serotoninergic 5-HT4(e) receptor from human heart and comparative analysis of its pharmacological profile in C6-glial and CHO cell lines.

RT - PCR technique was used to clone the human 5-HT(4(e)) receptor (h5-HT(4(e))) from heart atrium. We showed that this h5-HT(4(e)) receptor splice variant is restricted to brain and heart atrium. Recombinant h5-HT(4(e)) receptor was stably expressed in CHO and C6-glial cell lines at 347 and 88 fmol mg(-1) protein, respectively. Expression of h5-HT(4(e)) receptors at the cell membrane was confirmed by immunoblotting. The receptor binding profile, determined by competition with [(3)H]-GR113808 of a number of 5-HT(4) ligands, was consistent with that previously reported for other 5-HT(4) receptor isoforms. Surprisingly, we found that the rank order of potencies (EC(50)) of 5-HT(4) agonists obtained from adenylyl cyclase functional assays was inversely correlated to their rank order of affinities (K(i)) obtained from binding assays. Furthermore, EC(50) values for 5-HT, renzapride and cisapride were 2 fold lower in C6-glial cells than in CHO cells. ML10302 and renzapride behaved like partial agonists on the h5-HT(4(e)) receptor. These results are in agreement with the reported low efficacy of the these two compounds on L-type Ca(2+) currents and myocyte contractility in human atrium. A constitutive activity of the h5-HT(4(e)) receptor was observed in CHO cells in the absence of any 5-HT(4) ligand and two 5-HT(4) antagonists, GR113808 and ML10375, behaved as inverse agonists. These data show that the h5-HT(4(e)) receptor has a pharmacological profile which is close to the native h5-HT(4) receptor in human atrium with a functional potency which is dependent on the cellular context in which the receptor is expressed.

Heterologous gene expression in a membrane-protein-specific system.

We have constructed an expression system for heterologous proteins which uses the molecular machinery responsible for the high level production of bacteriorhodopsin in Halobacterium salinarum. Cloning vectors were assembled that fused sequences of the bacterio-opsin gene (bop) to coding sequences of heterologous genes and generated DNA fragments with cloning sites that permitted transfer of fused genes into H. salinarum expression vectors. Gene fusions include: (i) carboxyl-terminal-tagged bacterio-opsin; (ii) a carboxyl-terminal fusion with the catalytic subunit of the Escherichia coli aspartate transcarbamylase; (iii) the human muscarinic receptor, subtype M1; (iv) the human serotonin receptor, type 5HT2c; and (v) the yeast alpha mating factor receptor, Ste2. Characterization of the expression of these fusions revealed that the bop gene coding region contains previously undescribed molecular determinants which are critical for high level expression. For example, introduction of immunogenic and purification tag sequences into the C-terminal coding region significantly decreased bop gene mRNA and protein accumulation. The bacteriorhodopsin-aspartate transcarbamylase fusion protein was expressed at 7 mg per liter of culture, demonstrating that E. coli codon usage bias did not limit the system's potential for high level expression. The work presented describes initial efforts in the development of a novel heterologous protein expression system, which may have unique advantages for producing multiple milligram quantities of membrane-associated proteins.

Fluorescence techniques for fundamental and applied studies of membrane protein receptors: the 5-HT3 serotonin receptor.

A fluorescently labelled ligand for the 5-HT3 serotonin receptor was synthesised and its sub-nanomolar affinity for the purified, detergent solubilised receptor was measured. The change in the ligand's fluorescence upon receptor binding was used to directly measure its dissociation constant for receptor binding, to determine the pharmacology of the receptor, and finally to characterise the binding site of the receptor. A total internal reflection fluorescence (TIRF) assay for the 5-HT3 receptor was developed, which is suitable for high-through-put screening. Therefore, the receptor was immobilised via its C-terminal His-tag onto a nitrilotriacetic acid-modified quartz surface. The affinities of both the fluorescent ligand and several non-fluorescent compounds were rapidly determined by the TIRF assay, and were shown to agree well with both the solution and classical radioligand binding assays. This indicated that the functional integrity of the receptor was preserved at the sensor surface. Due to the extreme sensitivity of the TIRF assay allows to obtain a complete pharmacological affinity profile of a quantity of receptor provided by a small number of highly-expressing cells.

Desperately seeking subunits: are native 5-HT3 receptors really homomeric complexes?

The 5-HT3 receptor complex is a ligand-gated ion channel, and is therefore likely to comprise multiple subunits in common with other members of this superfamily. To date, however, only one 5-HT3 receptor subunit, plus an alternatively spliced variant, have been identified. In this article, Stephanie Fletcher and Nicholas Barnes review some of the extensive data in the literature that suggest the presence of other 5-HT3 receptor subunits. This is particularly relevant given the recent demonstration that the 5-HT3 receptor purified from pig brain contains a non-5-HT3A-like protein(s).

Characterization of a mouse serotonin 5-HT3 receptor purified from mammalian cells.

A serotonin 5-HT3 receptor was functionally expressed to high levels and on a large scale in mammalian cells with the Semliki Forest virus system. Conditions were optimized to maximize detergent solubilization of the receptor, while preserving ligand binding activity. An efficient one-step purification yielding approximately 50% of the histidine-tagged 5-HT3 receptor was achieved with immobilized metal ion chromatography. The expressed receptor, in both membranes and purified preparations, exhibited wild-type ligand binding properties, characterized by one class of binding sites. The purity of the receptor was shown by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, yielding a single band at 65 kDa, and was confirmed by the specific ligand binding activity of approximately 5 nmol/mg of protein. Deglycosylation of the receptor reduced the estimated relative molecular mass to 49 kDa. The apparent molecular mass of the functional receptor complex was determined by size exclusion chromatography to be 280 kDa, suggesting that the 5-HT3 receptor is a pentameric homooligomer. The secondary structure of the 5-HT3 receptor as determined by circular dichroism appeared to consist of mainly alpha-helices (50%) and beta-strands (24%), with minor contributions from nonregular structure (9%). The binding of either agonist or antagonist did not alter the secondary structure of the receptor.

Autoradiographic localization of neurotransmitter binding sites in the hypoglossal and motor trigeminal nuclei of the rat.

The hypoglossal and motor trigeminal nuclei contain somatic motoneurons innervating the tongue, jaw, and palate. These two cranial motor nuclei are myotopically organized and contain neurotransmitter binding sites for thyrotropin-releasing hormone, substance P, and serotonin. Quantitative autoradiography was used to localize thyrotropin-releasing hormone, substance P, and serotonin-1A and serotonin-1B binding sites in the hypoglossal and motor trigeminal nuclei and to relate the relative distributions of these binding sites to the myotopic organizations of the two nuclei. In the hypoglossal nucleus, high-to-moderate concentrations of all four binding sites were present in the dorsal and ventromedial subnuclei, whereas low concentrations were noted in the ventrolateral subnucleus. In the motor trigeminal nucleus, high concentrations of serotonin-1B, moderate densities of thyrotropin-releasing hormone, and low levels of substance P and serotonin-1A binding sites were present in both the ventromedial and dorsolateral subnuclei. These observations demonstrate that neurotransmitter binding sites in the hypoglossal and motor trigeminal nuclei are heterogeneously localized and that their distributions correspond to the previously described myotopic organizations of each nucleus.

Purification of 5-hydroxytryptamine3 receptors from porcine brain.

1. We demonstrate, for the first time, the purification of the 5-hydroxytryptamine3 (5-HT3) receptor from a native tissue source, pig cerebral cortex. 2. From a range of detergents, the non-ionic detergent Triton X-100 was demonstrated to exhibit the least inhibition of [3H]-(S)-zacopride binding to membrane bound 5-HT3 receptors from pig cerebral cortex at concentrations above its critical micellular concentration (CMC). This detergent was therefore selected to solubilize 5-HT3 binding sites from homogenates of pig cerebral cortex. Maximum yield (43.8 +/- 3.7%, mean +/- s.e.mean, n = 13) was obtained with Triton X-100 at 0.4% (22.1 x CMC). Radioligand binding studies with [3H]-(S)-zacopride indicated that the solubilized 5-HT3 receptor displayed near identical pharmacology to the membrane bound receptor (the correlation coefficient (r) between the pKi values of structurally unrelated compounds competing for [3H]-(S)-zacopride binding in the membrane bound and solubilized 5-HT3 receptor preparations was 0.99, Bmax = 20.7 +/- 4.2 fmol mg(-1) protein, Kd = 1.57 +/- 0.53 nM, mean +/- s.e.mean, n = 6). 3. Solubilized (0.4% Triton X-100) 5-HT3 receptors were affinity purified using Affi-Gel 15 coupled to the high affinity 5-HT3 receptor ligand GR119566X. Radioligand binding studies indicated that the pharmacological profile of the affinity purified 5-HT3 receptor, assessed using ligands with a range of affinities spanning 3 orders of magnitude, was similar to that in both crude homogenates (r = 0.85) and solubilized 5-HT3 receptor sites (r = 0.85) from pig brain. The specific activity for the purified 5-HT3 receptor overlapped the theoretical specific activity of the receptor (Bmax = 3.27 +/- 1.41 and 5.35 +/- 2.33 nmol mg(-1) protein, assessed by saturation and competition studies respectively, mean +/- s.e.mean, n = 3-4), which indicated a 60000-100000 fold purification of the membrane bound receptor. 4. Under non-reducing conditions, samples of the affinity purified protein failed to enter a 10% separating gel in SDS-PAGE analysis, indicating a molecular mass for the receptor complex of > 200 kDa. Further investigation of the non-reduced purified protein with a 7.5% separating gel gave a mass for the complex of approximately 279 kDa. Under reducing conditions, SDS-PAGE analysis of the affinity purified 5-HT3 receptor resulted in 3-6 silver stained bands at apparent molecular masses of 37, 44-50, 52, 57-61, 63 and 65-71 kDa (n = 12). Unlike protein bands at 45, 50, 60 and 66 kDa, the bands corresponding to proteins of 52, 57, 63 and 71 kDa consistently gave no reaction with an antiserum specific for the cloned A subunit of the 5-HT3 receptor in both a modified dot blot procedure and a Western blot procedure (n = 2-5). 5. We conclude that we have purified the 5-HT3 receptor from pig brain to homogeneity and suggest this may contain non-5-HT3-A receptor subunit(s).

Dependence of critical micelle concentration of a zwitterionic detergent on ionic strength: implications in receptor solubilization.

The zwitterionic detergent, 3-[(3-cholamidopropyl)-dimethylammonio]-1-propanesulfonate (CHAPS), is mild, non-denaturing, and extensively used for solubilizing membrane proteins and receptors. We report here that the critical micelle concentration (CMC) of CHAPS is dependent on the concentration of NaCl in the solution. Thus, the CMC of CHAPS decreases from 6.41 mM in absence of any salt to 4.10 mM in presence of 1.5 M NaCl. The logarithm of the CMC values appear to have a linear relationship with the salt concentration. Such changes in CMC with ionic strength have important implications in solubilization of membrane-bound neuronal receptors. This is shown by optimal solubilization of the serotonin receptor type 1A (5-HT1A) from bovine brain hippocampal crude (native) membrane by CHAPS at premicellar concentration under high salt conditions.

Sequential onset of three 5-HT receptors during the 5-hydroxytryptaminergic differentiation of the murine 1C11 cell line.

1. The murine 1C11 clone, which derives from a multipotential embryonal carcinoma cell line, has the features of a neuroectodermal precursor. When cultured in the presence of dibutyryl cyclic AMP, the 1C11 cells extend bipolar extensions and express neurone-associated markers. After 4 days, the resulting cells have acquired the ability to synthesize, take up, store and catabolize 5-hydroxytryptamine (5-HT). We have thus investigated the presence of 5-HT receptors during the 5-hydroxytryptaminergic differentiation of this inducible 1C11 cell line. 2. As shown by the binding of [125I]-GTI and the CGS 12066-dependent inhibition of the forskolin-induced cyclic AMP production, functional 5-HT1B/1D receptors become expressed on day 2 of 1C11 cell differentiation. The density of these receptors remained unchanged until day 4. 3. The same holds true for the 5-HT2B receptor, also identified by its pharmacological profile and its positive coupling to the phosphoinositide cascade. 4. On day 4 of 1C11 cell differentiation, a third 5-HT receptor, pharmacologically and functionally similar to 5-HT2A, had become induced. 5. Strikingly, the amounts of each transcript encoding 5-HT1B, 5-HT2A and 5-HT2B receptor did not very significantly during the time course of the 1C11 5-hydroxytryptaminergic differentiation. 6. The clone 1C11 may thus provide a useful in vitro model for studying regulation(s) between multiple G-linked receptors as well as the possible role of 5-HT upon the expression of a complete 5-hydroxytryptamine phenotype.

Expression of recombinant homo-oligomeric 5-hydroxytryptamine3 receptors provides new insights into their maturation and structure.

A recombinant baculovirus containing a mouse 5-hydroxytryptamine3 (5-HT3) receptor subunit cDNA under the control of the polyhedrin promoter was shown to direct the production of large amounts of functional 5-HT3 receptor in insect cells, as assayed by Western blotting and ligand binding. After solubilization, the receptor was purified to homogeneity by affinity chromatography and characterized pharmacologically. The ligand binding characteristics of the recombinant receptor were essentially identical to those of the native receptor, both before and after purification. Only fully glycosylated receptors bound to the ligand affinity resin, although subsequent removal of the sugar did not affect ligand binding. Visualization of the purified receptor using electron microscopy showed that the receptor preparation contained a homogeneous population of pentameric doughnut-shaped particles. The general appearance of the recombinant homo-oligomeric channels was indistinguishable from that of native 5-HT3 receptors. Yields of purified receptors were of the order of 200 micrograms/3 liters of original culture. The amount and homogeneity of the purified receptor are sufficient to begin preliminary crystallization trials.

Isolation and characterization of the rat 5-hydroxytryptamine type 2 receptor promoter: constitutive and inducible activity in myometrial smooth muscle cells.

Previous studies from this laboratory have demonstrated that the 5-hydroxytryptamine (5-HT2) receptor subtype is transcriptionally regulated by 5-HT (serotonin) itself in rat myometrial smooth muscle cells. To better understand this transcriptional regulation, we have isolated and characterized the 5'-flanking region of the 5-HT2 receptor gene. Screening of a rat genomic library was accomplished using 5'-directed fragments of 5-HT2 cDNA, and a 5.2-kilobase fragment was isolated. Sequencing demonstrated that the fragment overlapped the 5'-end of the 5-HT2 cDNA by 226 base pairs. Primer extension and RNase protection analyses indicated that three transcriptional start sites, which are common to both rat brain and myometrium, appear to exist and that the 5'-untranslated region of the 5-HT2 receptor cDNA is 1120 base pairs long. Neither classical TATA boxes nor CCAAT sequences were found upstream of any of the start sites identified. Upstream of the dominant start site, however, an initiator consensus sequence, two GC boxes (SP-1 binding sites), and several AP-2 binding sites were identified. Based on this information, a 1.4-kilobase fragment beginning 64 base pairs downstream from the dominant start site was constructed by polymerase chain reaction and ligated into a pCAT vector. Transient transfection of this construct into rat myometrial smooth muscle cells displayed both constitutive and serotonin-induced promoter activity. Serotonin-inducible activity was abolished by a selective 5-HT2 receptor antagonist; however, antagonists selective for other 5-HT receptor subtypes were without effect. Conversely, a selective 5-HT2 receptor agonist completely substituted for serotonin as an inducer. Preliminary deletion experiments indicate that regulation of basal and serotonin-inducible activity likely depends upon different cis elements in the 5-HT2 receptor gene promoter.