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.     

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.     

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.     

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.     

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.     

Abnormality of α1Adrenergic Receptors in the Frontal Cortex of Epileptic Rats

Abstract: We found that the binding of [³H]prazosin, a selective ligand for α₁-adrenergic recognition sites, is significantly lower in the frontal cortex of the genetically epilepsy-prone rats (GEPRs), as compared with normal Sprague-Dawley rats. Scatchard analysis reveals a decrease in the B _max of [³H]prazosin binding with no change in the apparent K _D, suggesting that there are fewer α₁-adrenergic recognition sites in the frontal cortex of the GEPR. This abnormality is associated with a reduced capacity of norepinephrine (NE) to stimulate [³H]inositol monophosphate ([³H]IP₁) formation in frontal cortex slices prelabeled with [³H]inositol. No significant differences in [³H]prazosin binding as well as NE-stimulated [³H]IP₁ formation have been observed in other brain regions including hippocampus, corpus striatum, and inferior colliculus. These results indicate that a deficit in the α₁-adrenergic receptor system in the frontal cortex may play a role in the seizure process in the GEPR.     

Rapid Down-Regulation of GABAA Receptors in the Gerbil Hippocampus Following Transient Cerebral Ischemia

Abstract: During transient cerebral ischemia, there is a temporary and robust accumulation of extracellular GABA in the hippocampus. We examined whether the acute exposure of GABA_A/benzodiazepine receptors to high concentrations of GABA early after ischemia results in receptor down-regulation as observed in vitro. Gerbils were killed 30 and 60 min following a 5-min bilateral carotid occlusion, and their brains were prepared for receptor autoradiography. The hydrophilic GABA_A receptor antagonist [³H]SR-95531 and the hydrophobic benzodiazepine agonist [³H]flunitrazepam were used to distinguish between cell surface and internalized receptors. Ischemia significantly decreased [³H]SR-95531 binding in hippocampal areas CA1 and CA3 and in the dentate gyrus 30 min after ischemia. Scatchard analysis in area CA1 revealed that ischemia decreased the B _max as low as 44%. The affinity of the remaining sites was increased substantially (72% decrease in K _D). As expected, there were no changes in the binding of [³H]flunitrazepam to hippocampus in the early postischemic period because the benzodiazepine could bind to both internalized receptors and those on the cell surface. We hypothesize that prolonged exposure (∼30–45 min) of GABA_A receptors to high concentrations of synaptic GABA in vivo causes receptor down-regulation, perhaps via receptor internalization.     

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.     

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.     

Inactivation of Benzodiazepine Binding Sites by N-Ethylmaleimide

Abstract: The benzodiazepine receptors of bovine brain membranes have been identified by the specific binding of radiolabeled [³H]diazepam. Pretreatment of membranes with N -ethylmdleimide causes a dose- and time-dependent decrease of 45 to 60% in the number of binding sites. No decrease occurs when membranes are pretreated with N -ethylmaleimide before administration, or in the presence, of diazepam. Binding of [³H]diazepam to the remaining sites occurs with the same characteristics as binding to the untreated receptor population.     

AMPA Receptor Development in Rat Telencephalon: [3H]AMPA Binding and Western Blot Studies

Abstract: Telencephalic membranes from rats of different embryonic (E16, E19) and postnatal (P2, P7, P14, adult) ages were assessed for α-[³H]amino-3-hydroxy-5-methylisoxazole-4-propionic acid ([³H]AMPA) binding and for immunoreactivity levels of AMPA receptor subunits (GluR1, GluR2/3, and GluR4). In addition, the synaptic markers synaptophysin and NCAM₁₄₀ (a neural cell adhesion molecule isoform) were examined by immunoblot. The density of [³H]AMPA binding sites increased steadily with advancing age. This increase was due mainly to the development of the large low-affinity component ( K _D = 400 n M ) that dominates the [³H]AMPA binding profile of adult rat brain membranes. As resolved by two-site regression analysis, the high-affinity component ( K _D = 15 n M ) of the [³H]AMPA binding increased by approximately twofold from E16 to adult, whereas the low-affinity component increased by 25-fold. Staining for GluR1 and GluR2/3 increased steadily with increasing age at all time points examined; synaptophysin and NCAM₁₄₀ exhibited similar ontogenic immunostaining profiles. GluR4 immunoreactivity was first evident at P14 and increased by adulthood. These results indicate that AMPA receptor density increases steadily during development and that this increase is coincident with the ontogenic expression of other synaptic components. Furthermore, there is a shift toward a preponderance of low-affinity [³H]AMPA binding, which occurs during the period when AMPA receptors are being sorted into postsynaptic regions, suggesting that some element of the postsynaptic membrane environment modulates AMPA receptor properties.     

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.     

Pharmacological and Regional Characterization of [3H]LY278584 Binding Sites in Human Brain

Abstract: Binding of [³H]LY278584, which has been previously shown to label 5-hydroxytryptamine₃ (5-HT₃) receptors in rat cortex, was studied in human brain. Saturation experiments revealed a homogeneous population of saturable binding sites in amygdala ( K _D= 3.08 ± 0.67 n M, B _max= 11.86 ± 1.87 fmol/mg of protein) as well as in hippocampus, caudate, and putamen. Specific binding was also high in nucleus accumbens and entorhinal cortex. Specific binding was negligible in neocortical areas. Kinetic studies conducted in human hippocampus revealed a K _on of 0.025 ± 0.009 n M ⁻¹ min⁻¹ and a K _off of 0.010 ± 0.002 min⁻¹. The kinetics of [³H]LY278584 binding were similar in the caudate. Pharmacological characterization of [³H]LY278584 specific binding in caudate and amygdala indicated the compound was binding to 5-HT₃ receptors. We conclude that 5-HT₃ receptors labeled by [³H]LY278584 are present in both limbic and striatal areas in human brain, suggesting that 5-HT₃ receptor antagonists may be able to influence the dopamine system in humans, similarly to their effects in rodent studies.     

Astroglial Cells Express Large Amounts of GABAA Receptor Proteins in Mature Brain

Abstract: GABA_A receptors were characterized in cellular fractions isolated from adult bovine brain. The fraction enriched in cortical astrocytes is very rich in high-affinity binding sites for [³H]flunitrazepam and other "central-type" benzodiazepine ligands. The amount of specific [³H]flunitrazepam binding was more than five times higher in the glial fraction than in synaptosomal and perikaryal fractions. [³H]Flunitrazepam was displaced by low concentrations of clonazepam and other specific ligands for central GABA_A receptors. Specific binding sites for GABA, flunitrazepam, barbiturates, and picrotoxin-like convulsants were characterized. Allosteric interactions between the different sites were typical of central-type GABA_A receptors. The presence of α-subunit(s), as revealed by [³H]flunitrazepam photoaffinity labeling, was demonstrated in all brain fractions at molecular mass 51–53 kDa. Photoaffinity labeling was highest in the glial fraction. However, in primary cultured astrocytes from neonate rat cortex, no photoaffinity labeling was detected. Information obtained from astrocytes in culture should thus be taken with caution when extrapolated to differentiated astroglial cells. Our results actually show that, in mature brain, most of the fully pharmacologically active GABA_A receptors are extrasynaptic and expressed in astroglia.     

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.     

Identification of Strychnine Binding Sites in the Rat Retina

Abstract: [³H]Strychnine specifically binds to membrane fractions isolated from rat retinae. The binding is saturable, with an apparent dissociation constant, K _D, of 14.3 × 10⁻⁹ M and 205 fmol bound/mg protein. Specific binding is time-dependent and proportional to protein concentration. Glycine and taurine are equally potent inhibitors of [³H]strychnine binding ( K _i= 4 × 10⁻⁵ M); no other amino acids endogenously present in the retina inhibited [³H]strychnine binding.     

The [3H]Tryptamine Receptor in Human Brain: Kinetics, Distribution, and Pharmacologic Profile

Abstract: The kinetics and distribution of [³H]tryptamine binding sites in human brain were investigated. Specific [³H]tryptamine binding in frontal cortex was of nanomolar affinity, reversible, saturable, and best fit to a single-site model. A heterogeneous distribution for this binding site was demonstrated, with the highest density observed in hippocampus, thalamus ≫ caudate nucleus, frontal cortex, pons, temporal cortex > globus pallidus/putamen, cerebellum. The similarities in kinetics and distribution of the [³H]tryptamine binding site in human and rat brain indicate that these two binding sites represent homologous structures. However, the present displacement studies using various ligands (indoleamines and other tryptophan metabolites, phenylethylamines, and miscellaneous drugs) and salts (Na⁺, K⁺, Ca²⁺, Mg²⁺, Cu²⁺) indicate stereospecific displacement as well as a rank-order potency profile that is different from that reported for the rat [³H]tryptamine binding site. This suggests the presence of distinct species-dependent [³H]tryptamine binding site subtypes. Taken together with the documented electrophysiological and behavioral evidence of tryptamine-mediated effects in the rat and the recent report of a significant loss of these binding sites in human portal systemic encephalopathy, as well as the present demonstration of an effect of guanine nucleotides on [³H]-tryptamine binding affinity, these findings suggest that these binding sites might be functional receptors. The implied role of tryptamine in neuropsychiatric disorders is supported by this demonstration of a receptor for [³H]-tryptamine in human brain.     

Involvement of a Disulfide Bond in the Binding of Flunitrazepam to the Benzodiazepine Receptor from Bovine Cerebral Cortex

Abstract: The effects of chemical modification of a disulfide bond(s) (-SS-) or sulfhydryl group(s) (-SH) on the [³H]-flunitrazepam ([³H]FNZ) binding to membrane-bound or immunoprecipitated benzodiazepine (BZD) receptors (BZD-R) from bovine cerebral cortex were examined. Reduction of -SS- with dithiothreitol (DTT) brought about a reversible, time- and dose-dependent inhibition of [³H]FNZ binding to the membrane-bound BZD-R. Alkylation of the membranes with the -SH-modifying reagent iodoacetamide (IAA) or 5,5'-dithiobis-(2-nitrobenzoic acid) (DTNB) produced a slight inhibition of [³H]FNZ binding in a dose-dependent manner. Scatchard analysis of saturation curves of [³H]FNZ binding in the presence and absence of 5 m M DTT revealed changes in affinity without modification in the maximal binding capacity, thus indicating a competitive mode of interaction. DTT pretreatment of both the membrane-bound and the immunoprecipitated BZD-R led to [³H]FNZ binding inhibition. Consistent with the modification of a binding site is the observation that reduction of -SS- does not bear on the binding affinity, but rather reduces the number of sites. Complete protection from DTT inhibition of [³H]FNZ binding by FNZ (an agonist) or by Ro 15–1788 (an antagonist) suggests the presence of -SS- at, or very close to, the BZD recognition binding site. No protection against IAA or DTNB inhibition was provided by FNZ. Photoaffinity labeling experiments with [³H]FNZ revealed a clear-cut band of 50 kDa in native and alkylated membranes but an extremely weak label in 5 m M DTT/IAA-treated membranes. The present results provide evidence for the participation of a disulfide bond in the recognition binding site of the bovine cerebral cortex BZD-R.     

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.     

Binding Characteristics and Interactions of Depressant Drugs with [35S]t-Butylbicyclophosphorothionate, a Ligand that Binds to the Picrotoxinin Site

Abstract: [³⁵S]r-Butylbicyclophosphorothionate (TBPT), a cage convulsant with picrotoxinin-like activity, binds to rat brain membranes to a single site with an apparent K_D of 25.1 ± 5.6 n M and a B_max of 1.40 ± 0.22 pmol/mg protein. TBPT binding to rat brain membranes was inhibited by a variety of convulsant, depressant, anxiolytic, and anticonvulsant drugs that had previously been shown to inhibit [³H]a-dihydropicrotoxinin binding. Depressant drugs such as pentobarbital and the nonbarbiturate (+)etomidate inhibited TBPT binding in an uncompetitive manner. Thus, pentobarbital and (+)etomidate decreased both the affinity and the number of binding sites of TBPT to whole brain membranes. The IC₅₀ values of (+)etomidate (9 μ M ) and pentobarbital (90 μ M ) are similar to the EC₅₀ values at which they enhance both [³H]-γ-aminobutyric acid and [³H]diazepam binding in cerebral cortex membranes. RO5–4864, which has recently been shown to be a convulsant, also inhibited TBPT binding (IC₅₀= 10 μ M ). These results suggest that TBPT binds to the picrotoxinin site and further supports the notion that the picrotoxinin site is an important modulatory site at the benzodiazepine-GABA receptor-ionophore complex.