Solubilization and characterization of [3H]Imipramine and [3H]Paroxetine binding sites from calf striatum

The serotonin (5-HT) transporter from calf striatum cerebral membranes was solubilized with digitonin and characterized by gel exclusion chromatography. [³H]Imipramine and [³H]paroxetine were utilized as markers for labeling it.³H-imipramine labels a high- and a low-affinity site on striaturn membranes, whereas it binds to a single high-affinity site on the solubilized fraction. [³H]Paroxetine binds with the same affinity to a single site on both membranes and solubilized preparations. After gel exclusion chromatography of the solubilizate both [³H]imipramine and [³H]paroxetine bind on an identical fraction of 205 kDa molecular weight, with a similar maximum number of binding sites (Bmax). Our results suggest that both³H-imipramine and [³H]paroxetine bind to a common site on the 5-HT transporter.     

Epibatidine binds to four sites on the Torpedo nicotinic acetylcholine receptor

The nicotinic acetylcholine receptor (nAChR) from Torpedo electric organ is a pentamer of homologous subunits. This receptor is generally thought to carry two high affinity sites for agonists under equilibrium conditions. Here we demonstrate directly that each Torpedo nAChR carries at least four binding sites for the potent neuronal nAChR agonist, epibatidine, i.e., twice as many sites as for α-bungarotoxin. Using radiolabeled ligand binding techniques, we show that the binding of [³H]-(±)-epibatidine is heterogeneous and is characterized by two classes of binding sites with equilibrium dissociation constants of about 15 nM and 1 μM. These classes of sites exist in approximately equal numbers and all [³H]-(±)-epibatidine binding is competitively displaced by acetylcholine, suberyldicholine and d-tubocurarine. These results provide further evidence for the complexity of agonist binding to the nAChR and underscore the difficulties in determining simple relationships between site occupancy and functional responses.     

Effect of sodium on [3H]ethylketocyclazocine binding to opioid receptors in frog brain membranes

The specific binding of (³H)ethylketocyclazocine to frog brain membrane preparation was enhanced in the presence of sodium ions administered as NaCl, both at 0 °C and at room temperature. The optimal NaCl concentration was 25 mM at 0 °C and 50 mM at 24 °C. MgCl₂ inhibited the [³H]ethylketocyclazocine binding. Two binding sites (high and low affinity) were established with [³H]ethylketocyclazocine as ligand by equilibrium binding studies. Addition of NaCl increased the B_max of the low-affinity site more than that of the high-affinity site at both temperatures. Affinities were higher at 0 °C than at 24 °C. TheK _D values were not significantly influenced by sodium ions. The dissimilarities between the rat and frog brain opioid receptors in [³H]ethylketocyclazocine binding are attributed to the different lipid composition of the two membranes.Abbreviations used DAGO D-Ala²-(Me)Phe⁴-Gly-ol⁵-enkephalin - DALE d-Ala²-l-Leu⁵-enkephalin - DADLE d-Ala²-d-Leu⁵-enkephalin - EKC Ethylketocyclazocine - DHM Dihydromorphine - BIT 2-(p-ethoxybenzyl)1-diethylaminoethyl-5-isothiocyanobenzimidazole isothiocyanate - FIT Fentanyl isothiocyanate     

Effects of chronic antidepressant treatment on dopamine-related [3H]SCH 23390 and [3H]Spiperone binding in the rat striatum

1. The effects of chronic administration of antidepressants on dopamine-related [3H]SCH 23390 and [3H]spiperone binding to rat striatal membranes were assessed. 2. The monoamine oxidase inhibitors phenelzine (5 or 10 mg kg-1/day) and tranylcypromine (1 mg kg-1/day) and the tricyclic desipramine (10 mg kg-1/day) were administered for 28 days by constant subcutaneous infusion using Alzet (2ML4) osmotic minipumps. 3. These treatments did not alter Kd estimates for either [3H]SCH 23390 or [3H]spiperone binding sites. The monoamine oxidase inhibitors induced a decrease in the Bmax values for both [3H]SCH 23990 and [3H]spiperone binding sites. Desipramine induced a decrease in the Bmax value for [3H]SCH 23390 binding but had no effect on the Bmax value for [3H]spiperone binding.     

An [3H]oxotremorine binding method reveals regulatory changes by guanine nucleotides in cholinergic muscarinic receptors of cerebral cortex

A rapid, reliable filtration method for [³H]oxotremorine binding to membranes of the cerebral cortex that allows the direct study of regulation by guanine nucleotides of muscarinic receptors was developed. [³H]Oxotremorine binds to cerebral cortex membranes with high affinity (K _D, 1.9 nM) and low capacity (B _max, 187 pmol/g protein). These sites, which represent only about 18% of those labeled with [³H]quinuclidinyl benzilate, constitute a population of GTP-sensitive binding sites. Association and dissociation binding experiments revealed a similar value ofK _D (2.3 nM). Displacement studies with 1–4000 nM oxotremorine showed the existence of a second binding site of low affinity (K _D, 1.2 M) and large capacity (B _max, 1904 pmol/g protein). Gpp(NH)p, added in vitro, produced a striking inhibition of [³H]oxotremorine binding with an IC 50 of 0.3 M. Saturation assays, in the presence of 0.5 M Gpp(NH)p, revealed a non-competitive inhibition of the binding with little change in affinity. These results are discussed from the viewpoint of conflicting reports in the literature about guanine nucleotide regulation of muscarinic receptors in reconstituted systems and membranes from different tissues.     

Chemical integrity of [3H]GABA used in binding studies

A method which is claimed to be able to determine the proportion of true GABA within radiolabeled GABA used in binding studies was tested using [³H]GABA. The method was found to be unsuitable for³H-labeled GABA and, furthermore, both theoretical considerations and the present experimental data indicated that it could also produce misleading results with [¹⁴C]GABA.     

Regional effects of neurotensin on the electrically stimulated release of [3H]dopamine and [14C]acetylcholine in the rat nucleus accumbens

This study has shown that neurotensin (NT) increases the electrically stimulated release of [³H]DA to a similar extent in all but the extreme caudolateral area of the rat nucleus accumbens and appears to modulate DA release equally in the medial and lateral zones of this brain area. The simultaneous release of ACh was not significantly affected by NT.     

Discovery and characterization of [H]8-OH-DPAT binding to HeLaS3 cells

Some G protein-coupled receptors (GPCRs) have functional links to cancer biology, yet the manifestation of GPCRs in tumor types is little studied to date. Using a battery of radioligand binding assays, we sought to characterize GPCR recognition binding sites on HeLaS3 tumor cells. High levels of binding of the selective serotonin 5-HT_1A receptor agonist [³H]8-OH-DPAT were observed in these cells. Saturation and homologous competition experiments indicated that [³H]8-OH-DPAT bound different populations of high- and low-affinity sites. In competition experiments, several serotonergic compounds displaced [³H]8-OH-DPAT binding with low potency from its high-affinity binding sites, suggesting that low-affinity binding is the predominant mode of binding. A variety of drugs targeting different classes of receptors did not affect [³H]8-OH-DPAT binding. These observations may help elucidate the pathophysiological and functional relevance of 5-HT receptors in tumor cells and link GPCRs and tumorigenic mechanisms to pharmacological and chemotherapeutic paradigms.     

Trypanosoma evansi: Pharmacological evidence of a nicotinic acetylcholine receptor

The role of calcium and its relevance have been deeply revised with respect to trypanosomatids, as the mechanism by which calcium enters trypanosomes was, until now, not well understood. There is evidence supporting the presence of a nAChR in another member of the trypanosomatidae family, Trypanosoma cruzi, these receptors being one entry path to calcium ions. The aims of this work were to determine if there was a nicotinic acetylcholine receptor (nAChR) in Trypanosoma evansi, and to subsequently perform a partial pharmacological characterization of this receptor.After being loaded with FURA-2AM, individual cells of T. evansi, were exposed to cholinergic compounds, and the cells displayed a dose-dependent response to carbachol. This observation indicated that a cholinergic receptor may be present in T. evansi. Although a dose-dependent response to muscarine could not be demonstrated, nicotine could promote an incremental dose-dependent response. The relative potency of this specific agonist of nAChR is in agreement with previous reports. The estimated affinity values were a K_d1 value of 29.6 ± 5.72 nM and a K_d2 value of 315.9 ± 26.6 nM, which is similar to the K_d value reported for the α4 nicotinic receptor. The Hill coefficients were determined to be an n₁ of 1.2 ± 0.3 and an n₂ of 4.2 ± 1.3. Finally, our calculations indicated that there are about 1020 receptors in each T. evansi parasite, which is approximately 15-fold lower than the number reported in Torpedo californica electric cells. These results suggest the presence of a nAChR in T. evansi, which is able to bind nicotinic ligands and induce calcium signals.     

Identification of nuclear type II [(3)H]estradiol binding sites as histone H4

[3H]Luteolin binds covalently to uterine nuclear type II sites [B. Markaverich, K. Shoulars, M.A. Alejandro, T. Brown, Steroids 66 (2001) 707] and was used to identify this protein(s). SDS-PAGE analyses of [3H]luteolin-labeled type II site preparations revealed specific binding to 11- and 35-kDa proteins. The 11-kDa protein was identified as histone H4 by amino acid sequencing. Western blotting confirmed that the 11- and 35-kDa proteins were acetylated forms of histone H4. Anti-histone H4 antibodies (but not H2A, H2B, or H3 antibodies) quantitatively immunoadsorbed type II binding sites from nuclear extracts. Binding analyses by [3H]estradiol exchange, using luteolin as a competitor, detected specific type II binding activity to histone H4 (but not histones H2A, H2B, or H3) generated in a rabbit reticulocyte lysate translation system and confirmed that histone H4 is the type II site.     

Effects of bicuculline on [3H]SR 95531 binding in discrete regions of rat brains

Effects of bicuculline in vitro, and acute and chronic treatment of a subconvulsive dose of bicuculline on [³H]SR 95531 binding to discrete regions of rat brains were studied in Sprague-Dawley rats. Scatchard analysis of the binding isotherms exhibited two populations of binding sites for [³H]SR 95531 in frontal cortex, cerebellum, striatum and substantia nigra. The apparent K_D for high-affinity sites was significantly increased in the frontal cortex and cerebellum in the presence of bicuculline (1 M) with no change in B_max. In contrast, the apparent affinity for low-affinity sites was not altered in the presence of bicuculline in these regions, whereas the B_max was significantly decreased in the cerebellum. Following acute (2 mg/kg, i.p.) or chronic (2 mg/kg, i.p. for 10 days) bicuculline treatment, [³H]SR 95531 binding was also investigated in various regions of brains. The acute bicuculline treatment did not affect the [³H]SR 95531 binding in any of the regions studied. In contrast, apparent affinity for [³H]SR 95531 was significantly decreased in low-affinity sites of all regions studied in rats treated chronically with bicuculline. The B_max values of high and low-affinity sites were significantly increased in the cerebellum with no change in the frontal cortex, striatum and substantia nigra. The present study demonstrates that chronic bicuculline treatment decreases apparent affinity of [³H]SR 95531 binding whereas the treatment increases apparent affinity of [³H]SR 95531 and [³H]muscimol binding in the cerebellum may be due to true up-regulation of GABA binding sites, involving increased de novo synthesis of receptor protein. These results also suggest that properties of cerebellar GABA_A receptors are different from those in other regions.Abbreviations used GABA -aminobutyric acid - FC frontal cortex - CB cerebellum - ST striatum - SN substantia nigra     

Chronic exposure of cells expressing recombinant GABAA receptors to benzodiazepine antagonist flumazenil enhances the maximum number of benzodiazepine binding sites

The aim of this study was to better understand the mechanisms that underlie adaptive changes in GABAA receptors following their prolonged exposure to drugs. Exposure (48 h) of human embryonic kidney (HEK) 293 cells stably expressing recombinant alpha1beta2gamma2S GABAA receptors to flumazenil (1 or 5 microM) in the presence of GABA (1 microM) enhanced the maximum number (Bmax) of [3H]flunitrazepam binding sites without affecting their affinity (Kd). The flumazenil-induced enhancement in Bmax was not counteracted by diazepam (1 microM). GABA (1 nM-1 mM) enhanced [3H]flunitrazepam binding to membranes obtained from control and flumazenil-pretreated cells in a concentration-dependent manner. No significant differences were observed in either the potency (EC50) or efficacy (Emax) of GABA to potentiate [3H]flunitrazepam binding. However, in flumazenil pretreated cells the basal [3H]flunitrazepam and [3H]TBOB binding were markedly enhanced. GABA produced almost complete inhibition of [3H]TBOB binding to membranes obtained from control and flumazenil treated cells. The potencies of GABA to inhibit this binding, as shown by a lack of significant changes in the IC50 values, were not different between vehicle and drug treated cells. The results suggest that chronic exposure of HEK 293 cells stably expressing recombinant alpha1beta2gamma2S GABAA receptors to flumazenil (in the presence of GABA) up-regulates benzodiazepine and convulsant binding sites, but it does not affect the allosteric interactions between these sites and the GABA binding site. Further studies are needed to elucidate these phenomena.     

Localization of agonist and competitive antagonist binding sites on nicotinic acetylcholine receptors

Identification of all residues involved in the recognition and binding of cholinergic ligands (e.g. agonists, competitive antagonists, and noncompetitive agonists) is a primary objective to understand which structural components are related to the physiological function of the nicotinic acetylcholine receptor (AChR). The picture for the localization of the agonist/competitive antagonist binding sites is now clearer in the light of newer and better experimental evidence. These sites are located mainly on both alpha subunits in a pocket approximately 30-35 A above the surface membrane. Since both alpha subunits are identical, the observed high and low affinity for different ligands on the receptor is conditioned by the interaction of the alpha subunit with other non-alpha subunits. This molecular interaction takes place at the interface formed by the different subunits. For example, the high-affinity acetylcholine (ACh) binding site of the muscle-type AChR is located on the alphadelta subunit interface, whereas the low-affinity ACh binding site is located on the alphagamma subunit interface. Regarding homomeric AChRs (e.g. alpha7, alpha8, and alpha9), up to five binding sites may be located on the alphaalpha subunit interfaces. From the point of view of subunit arrangement, the gamma subunit is in between both alpha subunits and the delta subunit follows the alpha aligned in a clockwise manner from the gamma. Although some competitive antagonists such as lophotoxin and alpha-bungarotoxin bind to the same high- and low-affinity sites as ACh, other cholinergic drugs may bind with opposite specificity. For instance, the location of the high- and the low-affinity binding site for curare-related drugs as well as for agonists such as the alkaloid nicotine and the potent analgesic epibatidine (only when the AChR is in the desensitized state) is determined by the alphagamma and the alphadelta subunit interface, respectively. The case of alpha-conotoxins (alpha-CoTxs) is unique since each alpha-CoTx from different species is recognized by a specific AChR type. In addition, the specificity of alpha-CoTxs for each subunit interface is species-dependent.In general terms we may state that both alpha subunits carry the principal component for the agonist/competitive antagonist binding sites, whereas the non-alpha subunits bear the complementary component. Concerning homomeric AChRs, both the principal and the complementary component exist on the alpha subunit. The principal component on the muscle-type AChR involves three loops-forming binding domains (loops A-C). Loop A (from mouse sequence) is mainly formed by residue Y(93), loop B is molded by amino acids W(149), Y(152), and probably G(153), while loop C is shaped by residues Y(190), C(192), C(193), and Y(198). The complementary component corresponding to each non-alpha subunit probably contributes with at least four loops. More specifically, the loops at the gamma subunit are: loop D which is formed by residue K(34), loop E that is designed by W(55) and E(57), loop F which is built by a stretch of amino acids comprising L(109), S(111), C(115), I(116), and Y(117), and finally loop G that is shaped by F(172) and by the negatively-charged amino acids D(174) and E(183). The complementary component on the delta subunit, which corresponds to the high-affinity ACh binding site, is formed by homologous loops. Regarding alpha-neurotoxins, several snake and alpha-CoTxs bear specific residues that are energetically coupled with their corresponding pairs on the AChR binding site. The principal component for snake alpha-neurotoxins is located on the residue sequence alpha1W(184)-D(200), which includes loop C. In addition, amino acid sequence 55-74 from the alpha1 subunit (which includes loop E), and residues gammaL(119) (close to loop F) and gammaE(176) (close to loop G) at the low-affinity binding site, or deltaL(121) (close to the homologous region of loop G) at the high-affinity binding site, are i     

Neophobia and cortical and subcortical binding of the dopamine D2 receptor antagonist [3H]-raclopride

The potential role of dopamine system in response to novelty was analysed using the selective dopamine D2 receptor antagonist, raclopride, in behavioral and biochemical assays, in rats (the open field test, and specific binding of [3H]-raclopride, within different brain structures measured with autoradiography). It was found that raclopride at a low dose (50 microg/kg, IP) caused anxiolytic-like effect (increased the anti-thigmotactic index), whereas at a higher dose (500 microg/kg, IP) produced general inhibitory influence, and decreased the anti-thigmotactic index. Analysis of the behavioral and biochemical results of the experiment revealed a significant negative correlation between the ligand binding in the substantia nigra pars reticulata (SNR), and the number of entries into the central sector of the open field (r=-0.48, p<0.05), as well as the positive correlation between time spent in the central sector of the open field and [3H]-raclopride binding within nucleus accumbens septi (r=0.57, p<0.05). Factor analysis revealed a Factor 1 (eigenvalue=3.361) grouping parameters of central entries into the open field and [3H]-raclopride binding in the SNR (factor loadings are 0.814 and 0.703 respectively), indicating that both phenomena are under control of a similar central process. The above data are discussed in relation to the structure dependent dopamine D2 receptor mechanisms in a rat response to novelty.     

Purification of endogenous inhibitors of [3H]flunitrazepam binding from bovine brain

Endogenous substances which inhibited the binding of [³H]flunitrazepam ([³H]FNZ) to bovine synaptosomal membranes have been purified from the hot acetic acid extracts of the bovine brain. Three peaks of inhibitory activity were obtained by Sephadex G-10 gel chromatography. Two of the peaks (Peak 2, and Peak 3) which had lower molecular weights that that of peak 1 were identified as inosine and hypoxanthine by TLC methods. Another peak (Peak 1) was further purified to homogeneity using both cation and anion ion-exchange chromatography and the following two-step reversed-phase HPLC. The purified substance inhibited the [³H]FNZ binding dose-dependently and competitively but did not have an effect on the binding of the peripheral-type BZ ligand [³H]Ro 5-4864. It was also shown that the substance was heat-stable and resistant to proteolytic degradation (trypsin, -chymotrypsin, pronase). However, a significant loss of inhibitory activity to [³H]FNZ binding was observed after acid hydrolysis. Molecular weight estimates based on gel filtration methods were less than 500 dalton, and the maximal ultraviolet absorption peak was at 314 nm. These results suggest that this substance is a new endogenous ligand for the central BZ receptor and may play an important role in regulating the GABAergic tone in the central nervous system.     

Allosteric modulation of the [3H]quinuclidinyl benzylate binding to M-cholinoreceptors in rat cerebral cortex by adrenotropic agents

The allosteric effects of adrenotropic drugs and the membranotropic agent cocaine on the kinetics of [³H]quinuclidinyl benzylate ([³H]QNB) binding to muscarine cholinoceptors of synaptosomal membranes of rat cerebral cortex were studied. In control, the best results were obtained for the model that assumes the existence of two receptor pools (with high and low affinity) with calculated parameters of the activity (K _d), amount (B _max), and mono- to dimer receptors ratio (n). For the high-affinity receptors these parameters were K _d1 = 0.18 ± 0.08 nM, B _m1 = 221.2 ± 56.7 fmol/mg protein, n ₁ = 2, and for low-affinity receptors, K _d2 = 1.33 ± 0.11 nM, B _m2 = 748.7 ± 53.3 fmol/mg protein, n ₂ = 2. Allosteric modulation of the activity of specific neurotransmitter receptors can be accomplished by changing the receptor affinity and amount as well as the proportion of mono- and dimer receptors. Under control conditions, muscarine receptors exist as dimers. In the presence of α-adrenoreceptor agonist noradrenaline and β-adrenoreceptor antagonist propranolol, only one pool of the dimer muscarine receptors remains. The number of binding sites for noradrenaline and propranolol decreases approximately by 40% and 20%, respectively. The agonist of α₂-adrenoreceptors clonidine, the antagonist of α₂-adrenoreceptors yohimbine, and a membranotropic agent cocaine change the ligand binding so that only one receptor pool remains but some of the dimer receptors become monomeric (1 < n < 2). The amount of binding sites reduces by 20%, 25%, and 45% for clonidine, yohimbine, and cocaine, respectively.     

Potent,extra-channel influence of several calcium-channel modulators on striatal binding of [3H]tyramine

A number of Ca²⁺-, K⁺-, and Na⁺-channel modulators has been tested with respect to their effects on [³H]tyramine (TY) binding, as a putative marker for the vesicular dopamine (DA) transporter in striatal membrane preparations containing vesicle ghosts. Among organic Ca²⁺-channel modulators, the diphenylalkylamines tested consistently inhibited TY binding: the order of potency was prenylamine>lidoflazine>flunarizine>cinnarizine, with K_i values of 0.1, 0.2, 0.5 and 1.2 M, respectively. Low (up to 100 nM) concentrations of prenylamine did competitively inhibit TY binding, and higher concentrations provoked a mixed-type inhibition. Furthermore, LIGAND-analysis of competition curves revealed a high- and a low-affinity binding site for prenylamine and flunarizine. The TY binding process was also sensitive to selected K⁺- and Na⁺-channel modulators. Since several Ca²⁺-antagonists are known to affect H⁺-ATPase and the bioenergetics of catecholamine storage vesicles in chromaffin granules, thus affecting monoamine storage, the energy requirements for the formation of the TY/carrier complex were here assessed, assuming similarity between chromaffin granules and synaptic vesicles. TY binding, though not reflecting endovesicle-sequestered TY, was indeed strongly sensitive (with K_i coefficients in the fM or low nM range) to the dissipation of the vesicular transmembrane proton concentration ( pH), electrical ( ), and proton electrochemical ( H⁺) gradients, provoked by a number of specifically targeted agents. It is concluded that Ca²⁺-channel agents of the diphenylalkylamine group may directly affect striatal TY binding due to an extrachannel-regulated competition with TY for the vesicular carrier of DA, as well indirectly, by disruption of the transmembrane energization of the reserpine-sensitive carrier.     

(−)-Reboxetine inhibits muscle nicotinic acetylcholine receptors by interacting with luminal and non-luminal sites

The interaction of (−)-reboxetine, a non-tricyclic norepinephrine selective reuptake inhibitor, with muscle-type nicotinic acetylcholine receptors (AChRs) in different conformational states was studied by functional and structural approaches. The results established that (−)-reboxetine: (a) inhibits (±)-epibatidine-induced Ca²⁺ influx in human (h) muscle embryonic (hα1β1γδ) and adult (hα1β1εδ) AChRs in a non-competitive manner and with potencies IC₅₀ = 3.86 ± 0.49 and 1.92 ± 0.48 μM, respectively, (b) binds to the [³H]TCP site with ∼13-fold higher affinity when the Torpedo AChR is in the desensitized state compared to the resting state, (c) enhances [³H]cytisine binding to the resting but activatableTorpedo AChR but not to the desensitized AChR, suggesting desensitizing properties, (d) overlaps the PCP luminal site located between rings 6′ and 13′ in the Torpedo but not human muscle AChRs. In silico mutation results indicate that ring 9′ is the minimum structural component for (−)-reboxetine binding, and (e) interacts to non-luminal sites located within the transmembrane segments from the Torpedo AChR γ subunit, and at the α1/ε transmembrane interface from the adult muscle AChR. In conclusion, (−)-reboxetine non-competitively inhibits muscle AChRs by binding to the TCP luminal site and by inducing receptor desensitization (maybe by interacting with non-luminal sites), a mechanism that is shared by tricyclic antidepressants.     

Synthesis and preliminary evaluation of [H]PSB-0413, a selective antagonist radioligand for platelet P2Y12 receptors

The selective antagonist radioligand [³H]2-propylthioadenosine-5′-adenylic acid (1,1-dichloro-1-phosphonomethyl-1-phosphonyl) anhydride ([³H]PSB-0413) was prepared by catalytic hydrogenation of its propargyl precursor with a high specific radioactivity of 74 Ci/mmol. In preliminary saturation binding studies, [³H]PSB-0413 showed high affinity for platelet P2Y₁₂ receptors with a K_D value of 4.57 nM. Human platelets had a high density of P2Y₁₂ receptors exhibiting a B_max value of 7.66 pmol/mg of protein.     

Comparison of [(3)H]-(2S,4R)-4-methylglutamate and [(3)H]D-aspartate as ligands for binding and autoradiographic analyses of glutamate transporters

While studies with [(3)H]D-aspartate ([(3)H]d-Asp) illustrate specific interactions with excitatory amino acid transporters (EAATs), new insights into the pharmacological characteristics and localization of specific EAAT subtypes depend upon the availability of novel ligands. One such ligand is [(3)H]-(2S,4R)-4-methylglutamate ([(3)H]4MG) which labels astrocytic EAATs in homogenate binding studies. This study examined the utility of [(3)H]4MG for binding and autoradiography in coronal sections of rat brain. Binding of [(3)H]4MG was optimal in 5mM HEPES buffer containing 96 mM NaCl, pH 7.5. Specific binding of [(3)H]4MG exhibited two components, but was to a single site when glutamate receptor (GluR) sites were masked with kainate (KA; 1 microM): t(1/2) approximately 5 min, K(d) 250 nM and B(max) 5.4 pmol/mg protein. Pharmacological studies revealed that [(3)H]4MG, unlike [(3)H]d-Asp, labeled both EAAT and ionotropic GluR sites. Further studies employed 6-cyano-7-nitroquinoxaline (30 microM) to block GluR sites, but selective EAAT ligands displayed lower potency than expected for binding to transporters relative to drugs possessing mixed transporter/receptor activities. Autoradiography in conjunction with densitometry with [(3)H]4MG and [(3)H]d-Asp revealed wide, but discrete distributions in forebrain; significant differences in binding levels were found in hippocampus, nucleus accumbens and cortical sub-areas. Although EAAT1 and EAAT2 components were detectable using 3-methylglutamate and serine-O-sulphate, respectively, the majority of [(3)H]4MG binding was to KA-related sites. Overall, in tissue sections [(3)H]4MG proved unsuitable for studying the autoradiographic localization of EAATs apparently due to its inability to selectively discriminate Na(+)-dependent binding to Glu transporters.