Rapid and Sensitive Single-Step Radiochemical Assay for Catechol-O-Methyltransferase

Abstract: A simple, rapid and reliable radiometric assay for the determination of catechol- O -methyltransferase activity is described. The method is based on the conversion of catechol to [³H]guaiacol by catechol- O -methyltransferase in the presence of Mg²⁺, adenosine deaminase and S -adenosyl l -[methyl-³H]methionine. Incubation and direct extraction of [³H]guaiacol into organic scintillation fluid, as well as counting, are performed in the same standard scintillation vial. The assay is easy to perform and more sensitive than previous analogous procedures. The method has been applied to the assay of catechol- O -methyltransferase activity in discrete brain areas and also peripheral organs of rat and in human erythrocytes.     

Regulation of DOPA Decarboxylase Activity in Brain of Living Rat

Abstract: To test the hypothesis that l -DOPA decarboxylase (DDC) is a regulated enzyme in the synthesis of dopamine (DA), we developed a model of the cerebral uptake and metabolism of [³H]DOPA. The unidirectional blood-brain clearance of [³H]DOPA ( K ^D₁) was 0.049 ml g⁻¹ min⁻¹. The relative DDC activity ( k ^D₃) was 0.26 min⁻¹ in striatum, 0.04 min⁻¹ in hypothalamus, and 0.02 min⁻¹ in hippocampus. In striatum, 3,4-[³H]dihydroxyphenylacetic acid ([³H]DOPAC) was formed from [³H]DA with a rate constant of 0.013 min⁻¹, [³H]homovanillic acid ([³H]HVA) was formed from [³H]DOPAC at a rate constant of 0.020 min⁻¹, and [³H]HVA was eliminated from brain at a rate constant of 0.037 min⁻¹. Together, these rate constants predicted the ratios of endogenous DOPAC and HVA to DA in rat striatum. Pargyline, an inhibitor of DA catabolism, substantially reduced the contrast between striatum and cortex, in comparison with the contrast seen in autoradiograms of control rats. At 30 min and at 4 h after pargyline, k ^D₃ was reduced by 50% in striatum and olfactory tubercle but was unaffected in hypothalamus, indicating that DDC activity is reduced in specific brain regions after monoamine oxidase inhibition. Thus, DDC activity may be a regulated step in the synthesis of DA.     

Metabolism of Deoxyuridine in Rabbit Brain

Abstract: The metabolism of [³H]deoxyuridine by rabbit brain was investigated in vitro and in vivo . In vitro , brain slices from various regions of brain and from all age groups accumulated [³H]deoxyuridine from artificial CSF. Within the slices, a portion of the accumulated [³H]deoxyuridine was metabolized to [³H]deoxyuridine phosphate, with subsequent conversion to [³H]thymidine phosphate, and ultimately [³H]DNA. The percentage of the [³H]deoxyuridine phosphorylated and subsequently converted into [³H]DNA was highest at birth and declined to adult levels in 3-month-old rabbits. Thymidine, when added to the incubation medium with the [³H]deoxyuridine, was approximately 10 times as potent as unlabeled deoxyuridine in inhibiting the intracellular phosphorylation and conversion of [³H]deoxyuridine to [³H]thymidine phosphate in brain slices. In vivo , 2.5 h after intraventricular injection of [³H]deoxyuridine, over 90% of the [³H]deoxyuridine was cleared from the central nervous system at all ages. However, in both newborn and 3-month-old rabbits, approximately 40 and 12%, respectively, of the ³H remaining in brain was phosphorylated and converted to [³H]thymidine phosphates; and 11 and 4%, respectively, of the ³H remaining in brain was converted to [³H]DNA. These results show that both immature and mature rabbit brain is able to incorporate deoxyuridine into DNA. Thus, all the enzymes involved in this conversion, including thymidylate synthetase (EC 2.1.1.45), are present and active in brain throughout life.     

Development and Localization of the Thymidine Phosphorylating Systems in Brain

Abstract: The development of the thymidine phosphorylating systems was studied in various regions of brain. Brain slices from cerebellum, brain stem, and forebrain of rabbits 2, 7, 14, 30, 90, 500, and 2500 days of age were incubated for various times in artificial CSF containing 3 nM-[³H]thymidine at 37°C under 95% O₂-5% CO₂. When slices from all brain regions of 2-day-old rabbits were incubated in [³H]thymidine for 30 min, tissue-to-medium ratios of ³H were between 2 and 4 and declined with age, and the percentages of the total ³H in perchloric acid homogenates of brain slices as [³H]DNA were 26–29%, declining to low levels with age. However, at all ages and in all regions studied, 41 -88% of the ³H within the slices was phosphorylated. After homogenization and subcellular fractionation of the brain slices incubated in [³H]thymidine for 30 min, the highest percentage of [³H]thymidine phosphates plus [³H]DNA was present in the nuclear (crude and purified) and mitochondrial fractions of all brain regions. The [³H]DNA content in the nuclear and mitochondrial fractions declined with age, but the percentage of [³H]thymidine phosphates did not. Thymidine phosphates were synthesized from thymidine in all brain regions tested throughout the entire life span.     

Increase in Chloride-Dependent l-Glutamate Transport Activity in Synaptic Membrane After In Vitro Ischemic Treatment

Abstract: The effect of energy failure on Cl⁻-dependent l -glutamate ( l -Glu) transport was examined with an in vitro preparation. Rat brain slices were incubated in low oxygen and glucose-deprived medium (in vitro ischemia), and a synaptic membrane fraction was prepared from the slices. Cl⁻-dependent l -[³H]Glu uptake into vesicles increased about twofold after 20 min of in vitro ischemia. The increased l -[³H]Glu uptake was inhibited by l -Glu, dl -2-amino-4-phosphonobutyrate, l -homocysteic acid, l -cystine, 4,4'-diisothiocyano-2,2'-disulfonic stilbene, and removal of Cl⁻. Uptakes of Na⁺-dependent l -[³H]-Glu, [³H]GABA, and [³H]taurine were not changed by the in vitro ischemia. In vitro ischemia increased the V _max value without affecting the K _m value. The increased l -[³H]Glu uptake by in vitro ischemia was reduced by subsequent incubation in a normoxic glucose-containing solution. ATP content in brain slices decreased to <10% of control values by in vitro ischemia for 10 min. The decrease in ATP content was restored by subsequent incubation in normoxic glucose-containing solution. Treatment with veratrine, 2,4-dinitrophenol, carbonyl cyanide m -chlorophenylhydrazone, and NaCN in normoxic conditions increased l -[³H]Glu uptake with a concomitant decrease in ATP content in slices. These results suggest that Cl⁻-dependent l -Glu transport activity in synaptic membranes increases in ischemia- or hypoxia-induced brain energy failures.     

[3H]Xylamine Accumulation by Two Sympathetically Innervated Tissues

Abstract: The accumulation of [³H]xylamine ([ring-G-³H]- N -2'-chloroethyl- N -ethyl-2-methylbenzylamine; [³H]XYL) by rabbit thoracic aorta and rat vas deferens was studied in vitro . [³H]XYL uptake in both tissues saturated at the same concentrations and displayed the same time course as that for maximal inhibition of [³H]noradrenaline ([³H]NA) accumulation by XYL. Hydrolysis of [³H]XYL or coincubation with Na₂S₂O₃ reduced tissue accumulation of tritium by 80%. In aorta and vas deferens, about 45% and 65%, respectively, of the total [³H]XYL accumulation was blocked by 100 μmol/L desmethylimipramine (DMI), l -NA, or bretylium. In the absence of sodium ion, the uptake of [³H]XYL was reduced by approximately these same amounts. In both tissues nearly 70% of the [³H]XYL taken up was protein bound when measured as trichloroacetic acid-precipitated tritium. Of this radioactivity, the same proportion was sensitive to 100 μmol/L DMI or the absence of sodium ion as found for total tissue accumulation of [³H]XYL. Hydrolysis of [³H]XYL prior to incubation with vas deferens reduced the protein-bound tritium by more than 95%. The studies indicate that [³H]XYL interacts with NA uptake carrier in both rabbit aorta and rat vas deferens and that a substantial portion of the resulting protein-bound radioactivity is carrier-dependent.     

Metabolism of Catecholamines by Catechol-O-Methyltransferase in Cells Expressing Recombinant Catecholamine Transporters

Abstract: To determine if catechol- O -methyltransferase (COMT) metabolizes catecholamines within cell lines used for heterologous expression of plasmalemmal transporters and alters the measured characteristics of ³H-substrate transport, the uptake of monoamine transporter substrates was assessed in three cell lines (C6 glioma, L-M fibroblast, and HEK293 cells) that had been transfected with the recombinant human transporters. Uptake and cellular retention of ³H-catecholamines was increased by up to fourfold by two COMT inhibitors, tropolone and Ro 41-0960, with potencies similar to those for inhibition of COMT activity, whereas the uptake of two transporter substrates that are not substrates for COMT, [³H]serotonin and [³H]MPP⁺, was unaffected. Direct measurement of monoamine substrates by HPLC confirmed that tropolone (1 m M ) increased the retention of the catecholamines dopamine and norepinephrine, but not the retention of serotonin in HEK293 cells. Saturation analysis of the uptake of [³H]dopamine by C6 cells expressing the dopamine transporter demonstrated that tropolone (1 m M ) decreased the apparent K _m of transport from 0.61 µ M to 0.34 µ M without significantly altering the maximal velocity of transport. These data suggest that endogenous COMT activity in mammalian cells may alter neurotransmitter deposition and thus the apparent kinetic characteristics of transport.     

IN VIVO RELEASE OF ENDOGENOUSLY SYNTHESIZED CATECHOLAMINES FROM THE CAT BRAIN EVOKED BY ELECTRICAL STIMULATION AND BY d-AMPHETAMINE

Abstract— The cerebral ventricles of spinal-sectioned cats were perfused with artificial cerebrospinal fluid after the intraventricular administration of [³H]DOPA or [³H]tyrosine. Endogenously synthesized [³H]dopamine or [³H]norepinephrine were identified in the perfusate. Electrical stimulation of catecholaminergic nerve tracts in the hypothalamus increased the efflux of both catecholamines. The addition of d -amphetamine to the perfusing cerebrospinal fluid caused a large increase in [³H]dopamine and a small increase in [³H]norepinephrine appearing in the perfusate. Most of the endogenously synthesized [³H]catecholamines detected in the perfusate following stimuli originated from structures bordering the lateral cerebral ventricle. Thus, norepinephrine and dopamine can be synthesized in and released from catecholaminergic nerve terminals in structures bordering the cerebral ventricles.     

[2-3H]GLYCEROL AS A PRECURSOR OF PHOSPHOLIPIDS IN RAT BRAIN: EVIDENCE FOR LACK OF RECYCLING

Abstract— When [2-³H]glycerol was injected intracranially into young rats, it was presented as a pulse label, leaving the brain rapidly and giving up much of its labelled hydrogen to water. [2-³H]glycerol was efficiently incorporated into brain lipids, especially into choline and ethanolamine phospholipids. Following injection of a mixture of [³H]- and [¹⁴C]-labelled glycerol, the ratio of ³H to ¹⁴C in the phospholipids of both whole brain and the microsomal fraction decreased as a function of time after injection. This finding indicated less recycling of the tritium label. This lack of recycling was further indicated by the finding that 94 per cent of the tritium label of phosphatidyl choline was in the glycerol portion of the molecule rather than in the fatty acids. At 2 weeks following injection with [³H]glycerol, 93 per cent of the total radioactivity in brain appeared in the lipid fraction. In contrast, following injection with [¹⁴C]glycerol, only 57 per cent of the radioactivity appeared in lipid, with about 20 per cent in protein.     

A Sensitive Radiometric Assay for Tryptophan Hydroxylase Applicable to Crude Extracts

Abstract: We describe here a simple and convenient method for assay of tryptophan 5-monooxygenase (hydroxylase), applicable to enzyme in all states of purification. It is based on the enzyme-catalysed formation of 5-hydroxy-[4-³H]tryptophanfrom [5-³H]tryptophan, and the subsequent acid-dependent quantitative release of ³H as ³H₂O; unreacted substrate is removed with activated charcoal. The assay is linear with respect to both protein concentration and time, and gives results similar to those in a standard fluorimetric assay.     

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.     

EVIDENCE FOR THE SYNTHESIS AND STORAGE OF 5-HYDROXYTRYPTAMINE IN TWO SEPARATE POOLS IN THE BRAIN

Abstract— Evidence is presented to support the hypothesis that 5-hydroxytryptamine (5-HT) in the rat brain is synthesized by two separate pathways and stored in two or more compartments. Lysergic acid diethylamide in doses down to 50 μg/kg was shown to reduce the formation of 5-[³H]HT from [³H]tryptophan in the presence of a monoamine oxidase inhibitor, although the total rate of accumulation of 5-HT was unchanged. Conversely, adrenalectomy was found to increase the total synthesis of 5-HT measured in the same way, although the amount of 5-[³H]HT formed suggested that there was no increase in the synthesis of the amine. In a third experiment it was found that electrical stimulation of 5-HT-containing nerves following labelling of 5-HT stores with [³H]tryptophan led to a biphasic disappearance of 5-[³H]HT. It is suggested that the method of measuring 5-HT synthesis by measuring 5-[³H]HT formed from[³H]tryptophan in the presence of a monoamine oxidase inhibitor may be a way of selectively measuring the turnover of the functional pool of 5-HT.     

THE SPECIFICITY AND SULFHYDRYL SENSITIVITY OF THE INOSITOL TRANSPORT SYSTEM OF THE CENTRAL NERVOUS SYSTEM

Abstract— The transport of two cyclohexitol stereoisomers, myo-inositol (inositol) and scyllo-inositol (scyllitol), from blood into the CNS in vivo and into the choroid plexus in vitro was studied. In vitro , the uptake of [³H]scyllitol or [³H]inositol by choroid plexuses, isolated from rabbits and incubated in artificial CSF, was measured. Both scyllitol and inositol inhibited [³H]scyllitol or [³H]inositol accumulation by the choroid plexus. Inositol competitively inhibited [³H]scyllitol accumulation and both isomers had a comparable affinity (K_t= 0.1 m m ) for the single cyclohexitol accumulation system. The other 6 stereoisomers tested had an order of magnitude less affinity for the cyclohexitol accumulation system of choroid plexus. Thiol reagents that penetrate cells inhibited inositol accumulation by choroid plexus more effectively than nonpenetrating thiol reagents. In vivo , in unanesthetized rabbits. the transport of unmetabolized [³H]inositol from blood into CSF, choroid plexus and brain was readily saturated by increasing the plasma levels of myo-inositol but not by the stereoisomer d -chiroinositol. Similarly, the transport of unmetabolized [³H]scyllitol into CSF, brain and choroid plexus was readily saturated by increasing the plasma levels of myo-inositol. Beside documenting the stereospecificity and thiol reagent sensitivity of the inositol transport mechanism of the choroid plexus, these results provide further evidence that the choroid plexus is a locus for cyclohexitol transport between blood and CSF. Moreover, they show that scyllitol, which, like inositol, is present at a higher concentration in brain than plasma, can be transported from blood into CSF and brain by the same system that transports inositol.     

Platelet-Activating Factor: Diminished Acetylcholine Release from Rat Brain Slices Is Mediated by a Gi Protein

Abstract: The effect of platelet-activating factor (PAF) on neurotransmitter release from rat brain slices prelabeled with [³H]acetylcholine ([³H]ACh), [³H]norepinephrine ([³H]NE), or [³H]serotonin ([³H]5-HT) was studied. PAF inhibited K⁺ depolarization-induced [³H]ACh release in slices of brain cortex and hippocampus by up to 59% at 10 n M but did not inhibit [³H]ACh release in striatal slices. PAF did not affect 5-HT or NE release from cortical brain slices. The inhibition of K⁺-evoked [³H]ACh release induced by PAF was prevented by pretreating tissues with several structurally different PAF receptor antagonists. The effect of PAF was reversible and was not affected by pretreating brain slices with tetrodotoxin. PAF-induced inhibition of [³H]ACh release was blocked 90 ± 3 and 86 ± 2% by pertussis toxin and by anti-Gαi_1/2 antiserum incorporated into cortical synaptosomes, respectively. The results suggest that PAF inhibits depolarization-induced ACh release in brain slices via a Gαi_1/2 protein-mediated action and that PAF may serve as a neuromodulator of brain cholinergic system.     

VITAMIN B6 TRANSPORT IN THE CENTRAL NERVOUS SYSTEM: IN VIVO STUDIES

Abstract— The total concentrations of vitamin B₆ (B₆) in plasma, choroid plexus, CSF and brain of adult New Zealand white rabbits, measured fluorometrically, were 0.30, 15.10, 0.39 and 8.90 μ mol/l or kg respectively. The mechanisms by which B₆ enters and leaves brain, choroid plexus and CSF were investigated by injecting [³H]pyridoxine (PIN) intravenously, intraventricularly and intraarterially. [³H]PIN, with or without unlabelled PIN, was infused intravenously at a constant rate into conscious rabbits. At 150 min, [³H]B₆ readily entered CSF, choroid plexus and brain. The addition of 0.5 mmol/kg carrier PIN to the infusion solution depressed the relative entry of [³H]B₆ into CSF, choroid plexus and brain by about 80%. After intraventricular injection, [³H]PIN readily entered brain from CSF. The intraventricular injection of carrier PIN with [³H]PIN decreased the amount of [³H]B₆ in brain and also decreased the percentage of [³H]B₆ in CSF and brain that was phosphorylated. During one pass through the cerebral circulation, [³H]PIN (1 μ m ) was cleared from the circulation no more rapidly than mannitol. These results were interpreted as showing that the entry of B₆ from blood into CSF and presumably the extracellular space of brain and thence into brain cells involves one or more saturable transport and/or metabolic steps.     

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.     

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.     

[1251]2α-BUNGAROTOXIN AND [3H]QUINUCLIDINYLBENZILATE BINDING IN CENTRAL NERVOUS SYSTEMS OF DIFFERENT SPECIES

Abstract— [¹²⁵I]Diiodo α-bungarotoxin ([¹²⁵I]₂BuTx) and [³H]quinuclidinylbenzilate ([³H]QNB) binding sites were measured in post-nuclear membrane fractions prepared from whole brains or brain regions of several species. Species studied included Drosophila melanogaster (fruit fly), Torpedo californiea (electric ray), Carassius auratus (goldfish), Ram pipiens (grass frog), Kana cutesheiana (bullfrog), Rattus norvegicus (rat, Sprague-Dawley), Mus muscalus (mouse, Swiss random, C58/J, LG/J), Oryctolagus cuniculus (rabbit, New Zealand Whitc), and Bos (cow). Acetyl-CoA: choline O -acetyltransferase (EC 2.3.1.6) levels were also determined in the post nuclear supernatants and correlated with the number of binding sites.
All species and regions except Drosophila had 16–150 fold more [³H]QNB binding sites than [¹²⁵I]₂BuTx binding sites. Brain regions with the highest levels of [¹²⁵I]₂BuTx binding were Drosophila heads (300 fmol/mg), goldfish optic tectum (80fmol/mg), and rat and mouse hippocampus (3040 fmol/mg). The highest levels of [³H]QNB binding were seen in rat and mouse caudate (1.3–1.6 pmol/mg). Lowest levels of [³H]QNB and [¹²⁵I]₂BuTx binding were seen in cerebellum. The utility of [¹²⁵I]₂BuTx and [³H]QNB binding as quantitative measures of nicotinic and muscarinic acetylcholine receptors in CNS is discussed.     

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.     

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.