Ethanol and the γ-Aminobutyric Acid-Benzodiazepine Receptor Complex

Abstract: Ethanol appears to enhance γ-aminobutyric acid (GABA)-mediated synaptic transmission. Using radioligand binding techniques, we investigated the possibility that the GABA-benzodiazepine receptor complex is the site responsible for this effect. Ethanol at concentrations up to 100 m M failed to alter binding of [³H]flunitrazepam (FNZ), [³H]Ro 15-1788, or [³H]methyl-γ-carboline-3-carboxylate (MBCC) to benzodiazepine receptors, or of [³H]muscimol to GABA receptors in rat brain membranes. Scatchard analyses of the binding of these radioligands at 4°C and 37°C revealed no significant effects of 100 m M ethanol on receptor affinity or number. A variety of drugs as well as chloride ion increased binding of [³H]FNZ and/or [³H]muscimol, but these influences were not modified by ethanol. These findings indicate that ethanol probably potentiates GABAergic neurotransmission at a signal transduction site beyond the GABA-benzodiazepine receptor complex.     

Sulfhydryl Groups in Receptor Binding of Thyrotropin-Releasing Hormone to Rat Amygdala

Abstract: Binding of [³H]-[3-Me-His²]thyrotropin-releasing hormone ([³H]MeTRH) to TRH receptors in rat amygdala was decreased by sulfhydryl reagents in a time-, temperature-, and concentration-dependent manner. A pronounced reduction in receptor density, with little or no change in binding affinity, was apparent following disulfide bond reduction by dithiothreitol (DTT), alkylation of thiol groups by N -ethylmaleimide (NEM), and their oxidation by 5,5'-dithiobis (2-nitrobenzoic acid). Heavy metals (Cd²⁺, Hg²⁺), which complex with reactive -SH residues, also potently inhibited binding. The pharmacological specificity of residual [³H]MeTRH binding in chemically modified amygdala membranes was the same as that in control preparations. Sequential exposure to thiol reagents, in the presence or absence of cations, revealed possible additive effects. Pretreatment of membranes with TRH (10^--⁸-^-10^--⁶ M ), and its continued presence during modification, afforded protection against DTT and NEM. These results indicate the possible importance of thiol groups in the maintenance of TRH receptor conformation.     

Influence of Sodium and Sulphydryl Groups on [3H]Sulpiride Binding Sites in Rat Striatal Membranes

Abstract: The effect of thiol reagents on the specific binding of the atypical neuroleptic, sulpiride, to rat striatal membranes was examined. Pretreatment of membranes with N -ethylmaleimide (NEM), but not with iodoacetamide or dithiothreitol (DTT), diminishes [³H]sulpiride binding. The effect is dependent on time, temperature, and the concentration of NEM. The reaction proceeds with pseudo-first-order rate kinetics, indicating the involvement of a single essential SH group in the binding of [³H]sulpiride to striatal membranes sites. Both sodium and sulpiride, but not nucleotides, protect the [³H]sulpiride sites from NEM inactivation in a dose-dependent fashion. As sodium is essential for [³H]sulpiride binding it is possible that in the presence of sodium and sulpiride a conformational change takes place that makes the essential SH group less accessible t o alkylation.     

Differential Profiles of Binding of a Radiolabeled Agonist and Antagonist at a Glycine Recognition Domain on the N- Methyl-D-Aspartate Receptor lonophore Complex in Rat Brain

Abstract: Addition of several polyamines, including spermidine and spermine, was effective in inhibiting binding of the antagonist ligand [³H] 5, 7-dichlorokynurenic acid ([³H]- DCKA) but not of the agonist ligand [³H] glycine ([³H] Gly) to a Gly recognition domain on the N -methyl-D-aspartic acid (NMDA) receptor ionophore complex in rat brain synaptic membranes. In contrast, [³H] DCKA binding was significantly potentiated by addition of proposed polyamine antagonists, such as ifenprodil and (±)-α-(4-chlorophenyl)-4- [(4-fluorophenyl)methyl]-1-piperidine ethanol, with [³H] Gly binding being unchanged. The inhibition by spermidine was significantly prevented by inclusion of ifenprodil. In addition, spermidine significantly attenuated the abilities of four different antagonists at the Gly domain to displace [³H] DCKA binding virtually without affecting those of four different agonists. Phospholipases A₂ and C and p -chloromercuribenzosulfonic acid were invariably effective in significantly inhibiting [³H] DCKA binding with [³H] Gly binding being unaltered. Moreover, the densities of [³H] DCKA binding were not significantly different from those of [³H]- Gly binding in the hippocampus and cerebral cortex, whereas the cerebellum had more than a fourfold higher density of [³H] Gly binding than of [³H] DCKA binding. These results suggest that the Gly domain may have at least two different forms based on the preference to agonists and antagonists in the rodent brain.     

Pharmacology and Regional Distribution of the Binding of 6-[3H]Nitro-7-Sulphamoylbenzo[f]-Quinoxaline-2,3-Dione to Rat Brain

Abstract: 6-Nitro-7-sulphamoylbenzo[ f ]quinoxaline-2,3-dione (NBQX) is a competitive antagonist selective for α-amino-3-hydroxy-5-methylisoxazole-4-propionate (AMPA) receptors. Here we report the pharmacological characteristics and anatomical distribution of [³H]NBQX binding to rat brain. The association rate of [³H]NBQX to rat cerebrocortical membranes was rapid, with peak binding occurring within 10 min at 0°C. The off-rate was also rapid, with near-complete dissociation of the radioligand within 5 min of addition of 1 m M unlabelled l -glutamate. [³H]NBQX bound to a single class of sites with K _D and B _max values of 47 n M and 2.6 pmol mg⁻¹ of protein, respectively. The rank order of inhibition of [³H]NBQX binding by AMPA receptor ligands was NBQX ≫ 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) ≥ ( S )-5-fluorowillardiine ≥ AMPA ≫ l -glutamate. The chaotrope KSCN had no effect on the IC₅₀ value of unlabelled NBQX displacement of [³H]NBQX binding. The kainate receptor-selective ligands NS102 and kainate were only very weak displacers. It is interesting that NBQX and CNQX displaced significantly more [³H]NBQX than any of the agonists tested. Autoradiographic analysis of the binding of [³H]NBQX to coronal sections showed a distribution compatible with that of [³H]AMPA binding. These data indicate that [³H]NBQX provides a useful novel tool to characterise the antagonist binding properties of AMPA receptors.     

Characterization of [3H]CP-96,501 as a Selective Radioligand for the Serotonin 5-HT1B Receptor: Binding Studies in Rat Brain Membranes

Abstract: 3-(1,2,5,6-Tetrahydro-4-pyridyl)-5- n -propoxyindole (CP-96,501) was found to be a more selective ligand at the serotonin 5-HT_1B receptor than the commonly used 5-HT_1B agonist, 3-(1,2,5,6-tetrahydro-4-pyridyl)-5-methoxyindole (RU 24969). In rat brain membranes, the tritiated derivative, [³H]CP-96,501, was found to bind with a high affinity ( K _D, 0.21 n M ) to a single binding site ( n _H, 1.0). The receptor density of this site ( B _max, 72 fmol/mg of protein) matched that of the 5-HT_1B receptor determined with [³H]5-HT. Competition curves of 16 serotonergic compounds in [³H]CP-96,501 binding also indicated a single binding site. The rank order of their binding affinities with this new radioligand showed a high degree of correlation with their affinities at the 5-HT_1B receptor determined with [³H]5-HT or [¹²⁵I]iodocyanopindolol. Serotonergic compounds displayed competitive inhibition of [³H]CP-96,501 binding. In the presence of 5'-guanylylimidodiphosphate [Gpp(NH)p], [³H]CP-96,501 binding was reduced, while the potency of CP-96,501 to displace [¹²⁵I]iodocyanopindolol binding was also decreased. These findings are consistent with the agonist nature of CP-96,501. The results of this study suggest that [³H]CP-96,501 is a useful agonist radioligand for the 5-HT_1B receptor.     

Comparison of [3H]WIN 35,428 Binding, a Marker for Dopamine Transporter, in Embryonic Mesencephalic Neuronal Cultures with Striatal Membranes of Adult Rats

Abstract: In contrast to striatal membranes of adult rats, where high- ( K _D1= 34 n M ) and low- ( K _D2= 48,400 n M ) affinity binding sites for [³H]WIN 35,428 are present, in primary cultures of ventral mesencephalon neurons (CVMNs) only low-affinity binding sites were found ( K _D= 336,000 n M ). The binding of [³H]WIN 35,428 in CVMNs prepared from rat embryos was reversible, saturable, and located in cytosol. Although dopamine (DA) uptake blockers inhibited [³H]DA uptake at nanomolar concentrations in CVMNs, the displacement of [³H]WIN 35,428 binding in CVMNs by DA uptake inhibitors required 100-8,000 times higher concentrations than were needed to displace [³H]WIN 35,428 binding in striatal membranes. Piperazine derivatives, e.g., GBR-12909, GBR-12935, and rimcazole, inhibited [³H]WIN 35,428 binding in CVMNs more effectively than did cocaine, WIN 35,428, mazindol, nomifensine, or benztropin. A positive correlation ( r = 0.779; p < 0.001) was found between drug affinities for the striatal membrane sites labeled by [³H]WIN 35,428 and their abilities to inhibit DA uptake in CVMNs, whereas no correlation existed between the IC₅₀ values of drugs that inhibited [³H]WIN 35,428 binding and [³H]DA uptake in CVMNs. The cytosolic [³H]WIN 35,428 binding sites may be a piperazine acceptor and may not be involved in the regulation of the DA transporter.     

High-Affinity Binding of [3H]Desipramine to Rat Brain: A Presynaptic Marker for Noradrenergic Uptake Sites

Abstract: High-affinity binding sites (apparent K _D= 1.5 nM) for [³H]desipramine have been demonstrated and characterized in membranes prepared from rat brain. The binding of [3H]desipramine was found to be saturable, reversible, heat-sensitive, sodium-dependent, and regionally distributed among various regions of the brain. High concentrations of [³H]desipramine binding sites were found in the septum, cerebral cortex, and hypothalamus, whereas lower concentrations were found in the medulla, cerebellum, and corpus striatum. A very good correlation ( r = 0.81, P < 0.001) was observed between the potencies of a series of drugs in inhibiting high-affinity [³H]desipramine binding and their capacity to block norepinephrine uptake into synaptosomes. In 6-hydroxydopamine-lesioned rats there was a marked decrease in [³H]norepinephrine uptake and [3H]desipramine binding with no significant alterations in either [³H]serotonin uptake or [³H]imipramine binding. These results suggest that the high-affinity binding of [³HJdesipramine to rat brain membranes is pharmacologically and biochemically distinct from the high-affinity binding of [3H]imipramine, and that there is a close relationship between the high-affinity binding site for [³H]desipramine and the uptake site for norepinephrine.     

Comparison of the Kinetics of [3H]Diazepam and [3H]Flunitrazepam Binding to Cortical Synaptosomal Membranes

Abstract: [³H]Diazepam and [³H]flunitrazepam ([³H]FNP) binding to washed and frozen synaptosomal membranes from rat cerebral cortex were compared. In Tris-citrate buffer, γ -aminobutyric acid (GABA) and NaCl both increased [³H]diazepam binding more than [³H]FNP binding. GABA and pentobarbital both enhanced this effect of NaCl. Because of the extremely rapid dissociation of [³H]diazepam in the absence of NaCl and GABA, the B_max (maximal binding capacity) was smaller by the filtration assay than by the centrifugation assay. [³H]FNP, which dissociates more slowly, had the same B_max in both assays. [³H]Diazepam association had two components, and was faster than [³H]FNP association. [³H]Diazepam dissociation, which also had two components, was faster than that of [³H]FNP, and also had a greater fraction of rapidly dissociating species. [³H]FNP dissociation was similar when initiated by diazepam, flunitrazepam, clonazepam, or Ro15-1788, which is a benzodiazepine antagonist. [³H]Diazepam dissociation with Ro15-1788, flunitrazepam, or clonazepam was slower than with diazepam. GABA and NaCl, but not pentobarbital, increased the percentage of slowly dissociating species. This effect of NaCl was potentiated by GABA and pentobarbital. The results support the cyclic model of benzodiazepine receptors existing in two interconvertible conformations, and suggest that, distinct from their binding affinity, some ligands (like flunitrazepam) are better than others (like diazepam) in inducing the conversion of the receptor to the higher-affinity state.     

Dual Effects of Ascorbate on Serotonin and Spiperone Binding in Rat Cortical Membranes

Abstract: Ascorbate-induced lipid peroxidation, as measured by malonyldialdehyde (MDA) production, caused irreversible decreases in B_max of both [³H]5-HT and [³H]spiperone binding. Cacl₂ (4mM) inhibited ascorbateinduced MDA formation at ascorbate concentrations >0.57 mM, but not at ≤ 0.57 mM. Under the standard assay conditions (5.7 mM ascorbate and 4mM CaCl₂), Cacl₂ inhibited the MDA production casued by ascorbate by 88%, and the loss in [³H]5-HT binding by 57%. Ascorbate still decreased [³H]5-HT binding by 57%. Ascorbate still decreased [³H]5-HT binding when lipid peroxidation was completely inhibited by EDTA. This additional effect of ascorbate was reversible after washing the membranes. Other reducing agents (dithiothreitol, glutathione, and metabisulfite) also decreased the binding of [³H]serotonin. In contrast, [³H]spiperone binding was not affected by ascorbate in the absence of lipid peroxidation or by other reducing agents. These experiments demonstrate that ascorbate has a dual and differential effect on serotonin binding sites. First, ascorbate-induced lipid peroxiation irreversibly inactivates both [³H]5-HT and [³H]spiperone binding. Second, independent of lipid peroxidation, there is a direct, reversible effect of ascorbate on [³H]serotonin but not on [³H]spiperone binding, which is probably due to the difference in the biochemical nature of the two serotonin binding sites.     

Taurine Interactions with Chick Retinal Membranes

Abstract: Binding of [³H]taurine to whole retinal membranes and to membranes obtained from retinal subcellular fractions was studied. [³H]Taurine bound to chick retinal membranes with high affinity and specificity. Two types of [³H]taurine binding associated to retinal membranes were observed, one with a K_D= 0.68 μM and the other one with a K_D,= 9.32 μM. Both types of binding were highly Na⁻-dependent. The Na⁺-dependent taurine binding was antagonized by strychnine. Bound [³H]taurine was effectively displaced by β-alanine but not by GABA or glycine. Taurine binding was preferentially localized in membranes obtained from the crude synaptosomal fraction, although it is also present in substantial amounts in all retinal membranes. A Na⁺-independent [³H]taurine binding exhibiting properties which might represent interaction with postsynaptic receptor sites could not be demonstrated in the chick retina.     

Differential Regulation by Guanine Nucleotides of Opiate Agonist and Antagonist Receptor Interactions

Abstract: Guanine nucleotides differentiate binding of tritium-labeled agonists and antagonists to rat brain membranes. In the absence of sodium, GTP (50 μM) decreased binding of [³H]-labeled agonists by 20–60% and [³H]-labeled antagonists by 0–20%. In the presence of 100 mM-NaCl, GTP had no effect on antagonist binding, but decreased agonist binding by 60–95%. GMP was less potent than either GTP or GDP in decreasing agonist binding. GTP (50 μM) reduced high-affinity [³H]dihydromorphine sites by 52% and low-affinity sites by 55%. Without sodium, GTP reduced high-affinity [³H]-naloxone sites by 36%; in the presence of 100 mM-NaCl, GTP had no effect on either high- or low-affinity [³H]naloxone sites. GTP increased the association rate of [³H]dihydromorphine twofold and the dissociation rate by fourfold, while having no effect on association or dissociation rates of the antagonist [³H]diprenorphine. The affinities of uniabeled antagonists in inhibiting [³H]-diprenorphine binding were not affected by GTP or sodium, but the affinities of agonists were reduced 40- 120-fold, with met- and leu-enkephalin affinities reduced by the greatest degree. GTP and sodium lowered [³H]dihydromorphine binding in an additive fashion, while divalent cations, especially manganese, reversed the effects of GTP on [³H]-labeled agonist binding by stimulating membrane-bound phosphatases that hydrolyze GTP to GMP and guanosine. These results suggest that by affecting binding of agonists, but not antagonists, GTP may regulate opiate receptor interactions with their physiological effectors.     

Density of NMDA-Coupled and Uncoupled 1-[1-(2-[3H]Thienyl)cyclohexyl]piperidine Recognition Sites in the Brain and Spinal Cord: Differential Effects of NMDA Agonists and Antagonists

Abstract: Binding of 1-[1-(2-[³H]thienyl)cyclohexyl]piperidine ([³H]TCP) to mouse brain and spinal cord membranes was studied using compounds selective for the NMDA-coupled 1-(1-phenylcyclohexyl)piperidine (PCP) and/or σ recognition sites. In both tissues, [³H]TCP labeled two populations of binding sites. Density of the low-affinity sites was approximately the same in both tissues, but the population of the high-affinity [³H]TCP sites was three times bigger in the brain than in the spinal cord. Self- and cross-displacement studies showed that the high-affinity [³H]TCP binding sites could be identical with NMDA receptor-coupled PCP sites, whereas the low-affinity [³H]TCP sites may be associated with σ binding sites in both tissues. The NMDA-coupled PCP sites labeled in the presence of 6.25 n M [³H]TCP constituted a much higher percentage of the total binding in the brain (75%) than in the spinal cord (44%). Consistent with this, reintroduction of glycine and glutamate significantly increased, but DA antagonists significantly inhibited [³H]TCP binding in the brain but not in the spinal cord. Together, these data suggest that a large component of [³H]TCP-labeled binding sites in the spinal cord may be associated with σ but not the NMDA receptor-coupled PCP sites.     

Enhancement of diazepam and gamma-aminobutyric acid binding by (+)etomidate and pentobarbital

Abstract: (+) Etomidate and pentobarbital enhance [³H]diazepam and [³H]γ-aminobutyric acid ([³H]GABA) binding to cerebral cortex membranes. Both (+)etomidate and pentobarbital increase the affinity of [³H]diazepam for its binding sites. In contrast, they increase the B _max of both the high- and low-affinity GABA receptor sites. The enhancement of [³H]diazepam and [³H]GABA by (+)etomidate and pentobarbital is blocked by GABA antagonists. These results indicate that hypnotic drugs such as (+)etomidate and pentobarbital, which are not structurally related, modulate diazepam and GABA binding sites via similar mechanisms.     

Lindane Administration to the Rat Induces Modifications in the Regional Cerebral Binding of [3H]Muscimol, [3H]-Flunitrazepam, and t-[35S]Butylbicyclophosphorothionate: An Autoradiographic Study

Abstract: The effect of lindane administration on the specific binding of ligands to different sites on the GABA_A receptor-ionophore complex was studied in the rat brain by receptor mapping autoradiography. [³H]Muscimol (Mus), [³H]flunitrazepam (Flu), and t -[³⁵S]butylbicyclophosphorothionate (TBPS) were used as specific ligands of GABA, benzodiazepine, and picrotoxinin binding sites, respectively. Rats received a single oral dose of 30 mg/kg lindane and they were classified into two groups according to the absence or presence of convulsions. Vehicle-treated groups acted as controls. The effect of the xenobiotic on ligand binding was measured in different brain areas and nuclei 12 min or 5 h after its administration. Lindane induced a generalized decrease in [³⁵S]TBPS binding, which was present shortly after dosing. In addition, [³H]Flu binding was increased in lindane-treated animals, this modification also appearing shortly after administration but diminishing during the studied time. Finally, lindane induced a decrease in [³H]Mus binding, which became more evident over time. These modifications were observed both in the presence and in the absence of convulsions. However, an increase in [³H]-Mus binding was detected shortly after lindane-induced convulsions. The observed decrease in [³⁵S]TBPS binding is in agreement with the postulated action of lindane at the picrotoxinin binding site of the GABA_A receptor chloride channel. The effects observed on the binding of [³H]Flu and [³H]Mus may be secondary to the action of lindane as an allosteric antagonist of the GABA_A receptor.     

NEUROCHEMICAL PARAMETERS IN THE HYPERRESPONSIVE PHASE AFTER A SINGLE DOSE OF NEUROLEPTICS TO MICE

Abstract— Four days after a single dose of teflutixol (5 mg/kg i.p.), at which time mice are superresponsive to dopamine agonists, e.g. apomorphine, the specific binding of [³H]haloperidol, [³H]cis (Z)-flupenthixol, [³H]apomorphine, [³H]dopamine, [³H]propylbenzilylcholine mustard and [³H]GABA to striatal membranes in vitro is equal to that of saline-treated mice. Specific binding of [³H]haloperidol is also unchanged 3 days following a single dose of fluphenazine (5mg/kg i.p.) and 2 days following haloperidol (5 mg/kg i.p.), but slightly decreased 3 days following cis(Z)-flupenthixol (5 mg/kg i.p.).
The possibility that remaining neuroleptic or active metabolites could obscure a slight increase in dopamine receptor binding was rejected, since remaining amounts of [³H]teflutixol in the final binding assay 4 days after intraperitoneal injection of [³H]teflutixol (5 mg/kg) were too small to influence the binding of [³H]haloperidol in vitro .
It is concluded that the pharmacological superresponsiveness and the decrease in dopamine synthesis and release seen after the initial receptor blockade following a single dose of neuroleptic drugs in mice are nor accompanied by changes in dopamine, muscarine or GABAergic receptor characteristics in corpus striatum. The possibility that changes occur in a small number of functional operative dopamine receptors cannot be excluded, however.     

Cationic and Anionic Requirements for the Binding of 2β-Carbomethoxy-3β-(4-Fluorophenyl)[3H]tropane to the Dopamine Uptake Carrier

Abstract: The present study reports the ion dependency of 2β-carbomethoxy-3β-(4-fluorophenyl)[³H]tropane ([³H]- CFT) binding to the dopamine transporter in the rat striaturn. The results indicate that [³H]CFT binding to synaptosomal P₂ membranes requires low concentrations of Na⁺ (peak binding between 20 and 50 m M Na⁺), is stimulated by phosphate anion or l^-, but is unaffected or only slightly affected by F^-, Cl^-, Br^-, NO₃^-, or SO₄^2-, Concentrations of Na⁺ of >50 m M become inhibitory except in the presence of l^-, which shifts peak binding levels toward higher Na⁺ concentrations and also elevates the peak binding level. K⁺ strongly decreased [³H]CFT binding with a shallow inhibition curve, and Na⁺ could not overcome this effect. Saturation analysis of [³H]CFT binding revealed a single binding site changing its affinity for CFT depending on the concentration of sodium phosphate buffer (6, 10, 30, 50, 130, or 200 m M ; 1 mM plus 49 mM NaCIversus 10 m M plus 40 m M NaCI; or 1 mM plus 129 m M Nal versus 10 m M plus 120 m M Nal). No differences were observed in the density of CFT binding sites between any of the conditions examined.     

[3H]Paroxetine Binding Is Altered in the Hippocampus but Not the Frontal Cortex or Caudate Nucleus from Subjects with Schizophrenia

Abstract: [³H]Paroxetine binding to particulate membrane from tissue, obtained at autopsy, from the hippocampus, frontal cortex, and caudate nucleus from subjects who had or had not had schizophrenia was measured. The density of [³H]paroxetine binding to membranes from subjects who had or had not had schizophrenia did not differ. Similarly, the affinity of [³H]paroxetine binding in the frontal cortex and caudate nucleus was not different. By contrast, the affinity of [³H]paroxetine binding to hippocampal membrane from subjects who had schizophrenia was significantly lower than the affinity of binding for the nonschizophrenic subjects (0.40 ± 0.06 vs. 0.26 ± 0.02; p < 0.05). As [³H]paroxetine binds to the serotonin transporter, these data suggest that the serotonin transporter is altered in the hippocampus in subjects with schizophrenia.     

Distribution and Ontogeny of 1S,3R-1-Aminocyclopentane-1,3-Dicarboxylic Acid-Sensitive and Quisqualate-Insensitive [3H]Glutamate Binding Sites in the Rat Brain

Abstract: Displacement of [³H]glutamate by 1 S ,3 R -1-aminocyclopentane-1,3-dicarboxylic acid and quisqualate (in the presence of saturating concentrations of ionotropic glutamate receptor agonists) was used to characterize optimal ionic conditions, distribution, and the ontogeny of glutamate receptor binding sites in rat brain. Using rat forebrain membranes or receptor autoradiography, optimal 1 S ,3 R -1-aminocyclopentane-1,3-dicarboxylic acid-sensitive [³H]glutamate binding was found in the presence of 100 m M bromide ions and in the absence of calcium ions. Under these conditions, [³H]glutamate binding was relatively quisqualate insensitive. In regions of the neonatal (11-day-old) and adult rat brain, this [³H]glutamate binding was highest in forebrain (striatum, cerebral cortex, and hippocampus) and hypothalamus/midbrain but was lower in the cerebellum, olfactory bulb, and pons/medulla regions. 1 S ,3 R -1-aminocyclopentane-1,3-dicarboxylic acid-sensitive and quisqualate-insensitive [³H]glutamate binding was present in the rat forebrain at 1 day of age and gradually increased more than twofold by day 50 (adult). Thus, in the presence of bromide ions and in the absence of calcium ions, [³H]glutamate labels a subpopulation of metabotropic glutamate receptors that are sensitive to 1 S ,3 R -1-aminocyclopentane-1,3-dicarboxylic acid but insensitive to quisqualate. Expression of [³H]glutamate binding under these conditions was both regionally and developmentally regulated in rat brain, suggesting that [³H]glutamate is labeling a distinct population of metabotropic glutamate receptors.     

Comparison of Solubilised Kainate and α-Amino-3-Hydroxy-5-Methylisoxazolepropionate Binding Sites in Chick Cerebellum

Abstract: [³H]Kainate bound to chick cerebellar membranes with a K _D of 0.6 μ M and with an exceptionally high B max of 165 pmol/mg of protein. In octylglucoside-solubilised extracts, the affinity of [³H]kainate was reduced ( K _D= 2.7 μ M ), but the B _max was relatively unchanged (130 pmol/mg of protein). The rank potency of competitive ligands was domoate > kainate > 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) > glutamate. Binding sites for α-[³H]amino-3-hydroxy-5-methylisoxazolepropionate ([³H]AMPA) were much less abundant, with K _D and B _max values in membranes of 86 n M and I pmol/mg of protein, respectively. The affinity of [³H]AMPA binding was also reduced on solubilisation ( K _D= 465 n M ), but there was an increase in the B _max (1.7 pmol/mg of protein). Quisqualate and CNQX were the most effective displacers of [³H]AMPA binding, but kainate was also a relatively potent inhibitor. However, in contrast to the displacement profile for [³H]kainate, domoate was markedly less potent than kainate at displacing [³H]AMPA. These results suggest that [³H]AMPA binds to a small subset of the kainate sites that, unlike the majority of the [³H]kainate binding protein, which has been reported to be located in the Bergmann glia, may represent neuronal unitary non- N -methyl-D-aspartate receptors.