Allosteric Modulation of [3H]CGP 39653 Binding by Glycine in Rat Brain

Abstract: D,L-(E)-2-Amino-4-propyl-5-phosphono-3-pen-tenoic acid (CGP 39653). a new, high-affinity, selective NMDA receptor antagonist, interacts with rat cortical membranes in a saturable way and apparently to a single binding site, with a K_D of 10.7 nM and a receptor density of 2.6 pmol/mg of protein. Displacement analysis of [³H]CGP 39653 binding shows a pharmacological profile similar to that reported for another NMDA antagonist, 3-[(±)-2-carboxypiperazin-4-yI]propyl-1-phosphonic acid (CPP). Glycine, however, is able to discriminate between the two ligands; in fact, it does not affect [³H]CPP binding but inhibits [³H]CGP 39653 binding in a biphasic way. D-Serine, another agonist at the strychnine-insensitive glycine binding site of the NMDA receptor complex, inhibits [³H]CGP 39653 binding in the same way as glycine, with a potency that correlates with its binding affinity at the glycine site. In addition, 7-chlorokynurenic acid, an antagonist at the glycine site, is able to reverse the displacement of [³H]CGP 39653 by glycine in a dose-dependent manner. Furthermore, the dissociation rate constant of [³H]CGP 39653 is enhanced in the presence of glycine, whereas the presence of NMDA receptor ligands does not modify the rate of dissociation of [³H]CGP 39653 from the receptor. These results indicate that part of the binding of the NMDA antagonist CGP 39653 can be potently modified by glycine through an allosteric mechanism, and suggest the existence of two antagonist preferring NMDA receptor subtypes that are differentially modulated through the glycine binding site.     

Stimulatory Effects of Protein Kinase C and Calmodulin Kinase II on N-Methyl-d-Aspartate Receptor/Channels in the Postsynaptic Density of Rat Brain

Abstract: To clarify the regulatory mechanism of the N -methyl- d -aspartate (NMDA) receptor/channel by several protein kinases, we examined the effects of purified type II of protein kinase C (PKC-II), endogenous Ca²⁺/calmodulin-dependent protein kinase II (CaMK-II), and purified cyclic AMP-dependent protein kinase on NMDA receptor/ channel activity in the postsynaptic density (PSD) of rat brain. Purified PKC-II and endogenous CaMK-II catalyzed the phosphorylation of 80–200-kDa proteins in the PSD and l -glutamate-(or NMDA)-induced increase of (+)-5-[³H]methyl-10, 11-dihydro-5 H -dibenzo[a, d]cyclohepten-5, 10-imine maleate ([³H]MK-801; open channel blocker for NMDA receptor/channel) binding activity was significantly enhanced. However, the pretreatment of PKC-II-and CaMK-II-catalyzed phosphorylation did not change the binding activity of l -[³H]glutamate, cis -4-[³H](phospho-nomethyl)piperidine-2-carboxylate ([³H]CGS-19755; competitive NMDA receptor antagonist), [³H]glycine, α-[³H]-amino-3-hydroxy-5-methyl-isoxazole-4-propionate, or [³H]-kainate in the PSD. Pretreatment with PKC-II-and CaMK-II-catalyzed phosphorylation enhanced l -glutamate-induced increase of [³H]MK-801 binding additionally, although purified cyclic AMP-dependent protein kinase did not change l -glutamate-induced [³H]MK-801 binding. From these results, it is suggested that PKC-II and/or CaMK-II appears to induce the phosphorylation of the channel domain of the NMDA receptor/channel in the PSD and then cause an enhancement of Ca²⁺ influx through the channel.     

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.     

Characterization of 5,7-Dichlorokynurenate-Insensitive d-[3H]Serine Binding to Synaptosomal Fraction Isolated from Rat Brain Tissues

Abstract: To explore target sites for endogenous d -serine that are different from the glycine site of the N -methyl- d -aspartate (NMDA) type glutamate receptor, we have studied the binding of d -[³H]serine to the synaptosomal P2 fraction prepared from the rat brain and peripheral tissues in the presence of an excess concentration (100 µ M ) of the glycine site antagonist 5,7-dichlorokynurenate (DCK). Nonspecific binding was defined in the presence of 1 m M unlabeled d -serine. Association, dissociation, and saturation experiments indicated that d -[³H]serine bound rapidly and reversibly to a single population of recognition sites in the cerebellar P2 fraction in the presence of DCK, with a K _D of 614 n M and a B _max of 2.07 pmol/mg of protein. d -Serine, l -serine, and glycine produced a total inhibition of the specific DCK-insensitive d -[³H]serine binding to the cerebellum with similar K _i values. Strychnine and 7-chlorokynurenate failed to inhibit the binding at 10 µ M . The profiles of displacement of the DCK-insensitive d -[³H]serine binding by various amino acids and glutamate and glycine receptor-related compounds differ from those of any other defined recognition sites. DCK-insensitive d -[³H]serine binding was at high levels in the cerebral cortex and cerebellum but very low in the kidney and liver. The present findings indicate that the DCK-insensitive d -[³H]serine binding site could be a novel candidate for a target for endogenous d -serine in mammalian brains.     

NMDA Receptors in Rat Cerebellum and Forebrain: Subtle Differences in Pharmacology and Modulation

Abstract: Binding of [³H]glutamate, [³H]glycine, and the glutamate antagonist [³H]CGS-19755 to NMDA-type glutamate receptors was examined in homogenates of rat forebrain and cerebellum. Most glutamate agonists had a higher affinity at the [³H]glutamate binding site of cerebellar NMDA receptors as compared with forebrain, whereas all the glutamate antagonists examined showed the reverse relationship. The [³H]glycine binding site of forebrain and cerebellar NMDA receptors showed a similar pharmacology in both brain regions. In the cerebellum, however, [³H]glycine bound to a second site with a 10-fold lower affinity and with a pharmacology that resembled that of the glycine/strychnine chloride channel. [³H]Glutamate binding was not affected by glycine agonists or antagonists, nor was [³H]glycine binding affected by glutamate agonists in either forebrain or cerebellum. Both CGS-19755 and 3-(2-carboxypiperazin-4-yl)propyl-1-phosphonic acid, glutamate antagonists, reduced [³H]glycine binding in cerebellum, whereas only CGS-19755 was effective in forebrain. Glycine agonists and antagonists modulated [³H]CGS-19755 binding in forebrain and cerebellum to different extents in the two brain regions. From these studies we conclude that the cerebellar NMDA receptor has a different pattern of modulation at glutamate and glycine sites and that glycine may play a more important role in the control of NMDA function in the cerebellum as compared with forebrain.     

High Level Expression of the NMDAR1 Glutamate Receptor Subunit in Electroporated COS Cells

Abstract: The rat N -methyl- d -aspartate (NMDA) glutamate receptor subunit NR1-1a was transiently expressed in COS cells using the technique of electroporation, which was fivefold more efficient than the calcium phosphate precipitation method of transfection. The glycine site antagonist 5,7-[³H]dichlorokynurenic acid labeled a single high-affinity site ( K _D = 29.6 ± 6 n M ; B _max = 19.4 ± 1.6 pmol/mg of protein) in membranes derived from COS cells electroporated with NR1-1a. In contrast to previous reports using transiently transfected human embryonic kidney 293 cells, binding of the noncompetitive antagonist (+)-5-[³H]methyl-10,11-dihydro-5 H -dibenzo[ a,d ]-cyclohepten-5,10-imine ([³H]MK-801) was not detected in NR1-1a-transfected COS cells. Although immunofluorescent labeling of electroporated COS cells demonstrated that the NR1-1a protein appears to be associated with the cell membrane, neither NMDA nor glutamate effected an increase in intracellular calcium concentration in fura-2-loaded cells, suggesting that homomeric NR1-1a receptors do not act as functional ligand-gated ion channels. Therefore, COS cells appear to differ from Xenopus oocytes with respect to the transient expression of functional homomeric NR1 receptors. Although expression of NR1-1a is sufficient to reconstitute a glycine binding site with wild-type affinity for antagonists in COS cells, recombinant homomeric NR1-1a receptors do not display properties that are characteristic of native NMDA receptors, such as permeability to Ca²⁺ and channel occupancy by MK-801, when expressed in this mammalian cell line.     

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.     

Regionally Distinct N-Methyl-D-Aspartate Receptors Distinguished by Quantitative Autoradiography of [3H]MK-801 Binding in Rat Brain

Abstract: Quantitative autoradiography of [³H]MK-801 binding was used to characterize regional differences in N -methyl- d -aspartate (NMDA) receptor pharmacology in rat CNS. Regionally distinct populations of NMDA receptors were distinguished on the basis of regulation of [³H]MK-801 binding by the NMDA antagonist 3-(2-carboxypiperazin-4-yl)-propyl-1-phosphonic acid (CPP). CPP inhibited [³H]MK-801 binding in outer cortex (OC) and medial cortex (MC) with apparent K _i values of 0.32-0.48 μ M , whereas in the medial striatum (MS), lateral striatum (LS), CA1, and dentate gyrus (DG) of hippocampus, apparent K _i values were 1.1-1.6 μ M . In medial thalamus (MT) and lateral thalamus (LT) the apparent K _i values were 0.78 μ M . In the presence of added glutamate (3 μ M ), the relative differences in apparent K _i values between regions maintained a similar relationship with the exception of the OC. Inhibition of [³H]MK-801 binding by the glycine site antagonist 7-chlorokynurenic acid (7-ClKyn) distinguished at least two populations of NMDA receptors that differed from populations defined by CPP displacement. 7-ClKyn inhibited [³H]MK-801 binding in OC, MC, MS, and LS with apparent K _i values of 6.3-8.6 μ M , whereas in CA1, DG, LT, and MT, K _i values were 11.4-13.6 μ M . In the presence of added glycine (1 μ M ), the relative differences in apparent K _i values were maintained. Under conditions of differential receptor activation, regional differences in NMDA receptor pharmacology can be detected using [³H]MK-801 binding.     

Nicotine-Stimulated Release of [3H]Norepinephrine from Fetal Rat Locus Coeruleus Cells in Culture

Abstract: Acute nicotine administration stimulated [³H]norepinephrine ([³H]NE) release from cultured fetal locus coeruleus (LC) cells. The effect was concentration dependent, with an EC₅₀ of 0.9 µ M , and was abolished by removal of calcium from, or addition of tetrodotoxin (500 n M ) to, the assay buffer. Other nicotinic receptor agonists stimulated [³H]NE release, with the rank order of potency being (±)-epibatidine > (−)-nicotine > 1,1-dimethyl-4-phenylpiperazinium (DMPP). Whereas (−)-nicotine and (±)-epibatidine exhibited equal maximal responses, DMPP was a partial agonist and (−)-cytisine had no agonist activity. Nicotine-stimulated release of [³H]NE was blocked by nicotinic receptor antagonists, with an order of potency of mecamylamine > lobeline > cytisine > methyllycaconitine > dihydro-β-erythroidine. The pharmacological profile of this nicotinic receptor is largely consistent with that described previously for an α4β2 subunit combination, although discrepancies in the efficacies of agonists were observed. No additivity in NMDA- and nicotine-stimulated [³H]NE release was observed, suggesting a common signal transduction mechanism. However, the pharmacological characteristics of MK-801 blockade of nicotine-induced responses were not consistent with those of an NMDA receptor. We therefore conclude that nicotine directly releases [³H]NE from LC cells and does not act indirectly via activation of glutamate release.     

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.     

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.     

Benzodiazepine Antagonist Ro 15–1788: Binding Characteristics and Interaction with Drug-Induced Changes in Dopamine Turnover and Cerebellar cGMP Levels

Abstract: The recently discovered benzodiazepine antagonist Ro 15-1788 was characterized in binding studies, and its potency and selectivity were determined in vivo by interaction with drug-induced changes in dopamine turnover and cerebellar cGMP level. Ro 15-1788 reduced [³H]flunitrazepam binding in the brain in vivo with a potency similar to that of diazepam and effectively inhibited [³H]diazepam binding in vitro (IC₅₀= 2.3 ± 0.6 nmol/liter). [³H]Ro 15-1788 bound to tissue fractions of rat cerebral cortex with an apparent dissociation constant ( K _D) of 1.0 ± 0.1 nmol/liter. The in vitro potency of various benzodiazepines in displacing [³H]Ro 15-1788 from its binding site was of the same rank order as found previously in [³H]diazepam binding. Autoradiograms of [³H]Ro 15-1788 binding in sections of rat cerebellum showed the same distribution of radioactivity as with [³H]flunitrazepam. The attenuating effect of diazepam on the chlorpromazine- or stress-induced elevation of homovanillic acid in rat brain was antagonized by Ro 15-1788. Among a series of compounds which either decreased or increased the rat cerebellar cGMP level, only the effect of benzodiazepine receptor ligands (diazepam, zopiclone, CL 218 872) was antagonized by Ro 15-1788. Thus, Ro 15-1788 is a selective benzodiazepine antagonist acting at the level of the benzodiazepine receptor in the central nervous system. Peripheral benzodiazepine binding sites in kidney and schistosomes were not affected by Ro 15-1788.     

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.     

Exposure to an enriched environment selectively increases the functional response of the pre-synaptic NMDA receptors which modulate noradrenaline release in mouse hippocampus

We evaluated the impact of environmental training on the functions of pre-synaptic glutamatergic NMDA and α-amino-3-hydroxy-5-methyl-4-isoxazole propionate (AMPA) and nicotinic receptors expressed by hippocampal noradrenergic nerve terminals. Synaptosomes isolated from the hippocampi of mice housed in enriched (EE) or standard (SE) environment were labeled with [³H]noradrenaline ([³H]NA) and tritium release was monitored during exposure in superfusion to NMDA, AMPA, epibatidine or high K⁺. NMDA -evoked [³H]NA release from EE hippocampal synaptosomes was significantly higher than that from SE synaptosomes, while the [³H]NA overflow elicited by 100 μM AMPA, 1 μM epibatidine or (9, 15, 25 mM) KCl was unchanged. In EE mice, the apparent affinity of NMDA or glycine was unmodified, while the efficacy was significantly augmented. Sensitivity to non-selective or subtype-selective NMDA receptor antagonists (MK-801, ifenprodil and Zn²⁺ ions) was not modified in EE. Finally, the analysis of NMDA receptor subunit mRNA expression in noradrenergic cell bodies of the locus coeruleus showed that NR1, NR2A, NR2B and NR2D subunits were unchanged, while NR2C decreased significantly in EE mice as compared to SE mice. Functional up-regulation of the pre-synaptic NMDA receptors modulating NA release might contribute to the improved learning and memory found in animals exposed to an EE.     

Characterization of a Human NK1 Tachykinin Receptor in the Astrocytoma Cell Line U 373 MG

Abstract: The human NK₁ tachykinin receptor in the astrocytoma cell line U 373 MG was characterized using selective agonists and antagonists described for this receptor in the rat. Specific [³H]substance P binding sites were present on cell homogenates, whereas [³H]neurokinin A or [³H]-senktide binding sites were absent. The binding was saturable and reversible. The binding of [³H]substance P was inhibited by very low concentrations of [L-Pro⁹]substance P and [Sar⁹,Met(O₂)¹¹]substance P; septide was ∼ 1,000-fold less potent. The most potent peptide antagonist was trans -4-hydroxy-1-(1 H -indol-3-ylcarbonyl)-L-prolyl- N -methyl- N -(phenylmethyl)-L-tyrosineamide. The rank order of potency for the nonpeptide antagonists was ( S , S )-CP 96,345 > (±)-CP 96,345 > (±)-2-chlorobenzylquinuclidinone > ( R , R )-CP 96,345 > RP 67580 > RP 68651. In [³H]-inositol-labeled cells, substance P stimulated phosphatidylinositol turnover. A good correlation was found when the abilities of NK₁ receptor agonists for stimulating inositol phosphate production and for inhibiting [³H]substance P binding were compared. Similarly, the binding and functional assays were well correlated for the antagonists. As a result of its high sensitivity and selectivity, the U 373 MG cell line thus appears an excellent tool for investigating the pharmacology of the human NK₁ receptor.     

Modulatory Action of Taurine on the Release of GABA in Cerebellar Slices of the Guinea Pig

Abstract: For the purpose of demonstrating the action of taurine as a neuromodulator in addition to its suggested neurotransmitter function, the effects of taurine and muscimol on the depolarization-induced Ca-dependent release of [³H]γ-aminobutyric acid (pH]GABA) and l -[³H]glutamate in cerebellar slices from guinea pigs were investigated. The release of [³H]GABA was found to be greatly decreased by a GABA agonist, muscimol, and by taurine, but not by glycine. The release of l -[³H]glutamate was little affected by taurine. The release of [³H]GABA was enhanced by bicuculline and strychnine, but not by picrotoxin, and the suppressive action of muscimol on the GABA release was antagonized by bicuculline, picrotoxin, and strychnine, suggesting the possible existence of presynaptic autoreceptors for GABA in the cerebellum. The suppressive action of taurine on the release of [³H]GABA, on the other hand, was blocked only by bicuculline. These results suggest that taurine reduced the release of [³H]GABA from cerebellar slices by acting on the GABA autoreceptors or, more likely, on other types of receptors that are sensitive to bicuculline. As a possible mechanism for this modulatory action of taurine, the blockade by this amino acid of the influx of Ca²⁺ into cerebellar tissues was tentatively suggested.     

[3H]Homoquinolinate Binds to a Subpopulation of NMDA Receptors and to a Novel Binding Site

Abstract: NMDA receptors mediate several important functions in the CNS; however, little is known about the pharmacology, biochemistry, and function of distinct NMDA receptor subtypes in brain tissue. To facilitate the study of native NMDA receptor subpopulations, we have determined the radioligand binding properties of [³H]homoquinolinate, a potential subtype-selective ligand. Using quantitative receptor autoradiography, NMDA-specific [³H]homoquinolinate binding selectively labeled brain regions expressing NR2B mRNA (layers I–III of cerebral cortex, striatum, hippocampus, and septum). NMDA-specific [³H]homoquinolinate binding was low in brain regions that express NR2C and NR2D mRNA (cerebellar granular cell layer, NR2C; glomerular layer of olfactory bulb, NR2C/NR2D; and midline thalamic nuclei, NR2D). In forebrain, the pattern of NMDA-specific [³H]homoquinolinate binding paralleled NR2B and not NR2A distribution. In addition to NMDA-displaceable binding, there was a subpopulation of [³H]homoquinolinate binding sites in the forebrain, cerebellum, and choroid plexus that was not displaced by NMDA or l -glutamate. In contrast, we found that the derivative of homoquinolinate, 2-carboxy-3-carboxymethylquinoline, markedly inhibited the NMDA-insensitive binding of [³H]homoquinolinate without inhibiting the NMDA-sensitive population. [³H]Homoquinolinate may be useful for selectively characterizing NR2B-containing NMDA receptors in a preparation containing multiple receptor subtypes and for characterizing a novel binding site of unknown function.     

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.     

THE RELEASE OF AMINO ACIDS FROM THE HEMISECTED SPINAL CORD DURING STIMULATION

Abstract— Isolated frog or toad hemicords were incubated for 40 min with either [¹⁴C]glycine, [³H]GABA, l -[¹⁴C]glutamate. l -[¹⁴C]aspartate, l -[¹⁴C]serine, l [¹⁴C]threonine or l -[³H]leucine, and the release of these compounds from the cord was measured under resting conditions and during electrical stimulation. Stimulation of spinal roots produced no significant change in the efflux of any of the compounds tested. Direct stimulation of the rostral cord however, produced a large increase in the efflux of [¹⁴C]glycine, [³H]GABA, l -[¹⁴C]glutamate and l -[¹⁴C]aspartate. These increased effluxes were calcium dependent, the effects of stimulation being reduced in a calcium-free, or magnesium-supplemented (10 mM) medium. Stimulation failed to produce an increase in the efflux of l -[¹⁴C]serine, l -[¹⁴C]threonine, l -[¹⁴H]leucine, [¹⁴C]mannitol or [¹⁴C]urea. These results are consistent with the suggestions that glycine, GABA, glutamate and aspartate may be synaptic transmitters in the spinal cord.     

The Peripheral-Type Benzodiazepine Receptor Is Present in Astrocytes but Is Not a Primary Site of Action for Convulsants/Anticonvulsants

Abstract: High-affinity binding sites for [³H]PK 11195 and [³H]Ro 5-4864 with the properties of the peripheral-type benzodiazepine receptor were detected in primary cultures of both mouse neocortical and cerebellar astrocytes. The binding sites were enriched in mitochondrial fractions on differential centrifugation. An 18-kDa polypeptide was specifically photolabelled in cerebellar astrocytes by [³H]-PK 14105, a photolabel for the peripheral-type benzodiazepine receptor. However, this polypeptide did not show any reactivity with an antiserum previously raised against the corresponding polypeptide from rat adrenal gland. Various anticonvulsant and convulsant agents were tested for their ability and potency at inhibiting [³H]Ro 5-4864 binding to neocortical astrocytes. Many of these compounds, previously reported to be inhibitors of diazepam binding to neocortical astrocytes, proved ineffective in this study. No correlation was observed between convulsant/anticonvulsant potency and ability to inhibit [³H]Ro 5-4864 binding to the peripheral-type benzodiazepine receptor in these cells. Thus, whereas some convulsants and anticonvulsants might interact with this astrocytic receptor, such a system has no validity as a general screening method for these agents.