Solubilization of High-Affinity,Guanine Nucleotide-Sensitive μ-Opioid Receptors from Rat Brain Membranes

Abstract: High-affinity μ-opioid receptors have been solubilized from rat brain membranes. In most experiments, rats were treated for 14 days with naltrexone to increase the density of opioid receptors in brain membranes. Occupancy of the membrane-associated receptors with morphine during solubilization in the detergent 3-[(3-cholamidopropyl)dimethyl]-1-propane sulfonate appeared to stabilize the μ-opioid receptor. After removal of free morphine by Sephadex G50 chromatography and adjustment of the 3-[(3-cholamidopropyl)dimethyl]-1-propane sulfonate concentration to 3 mM, the solubilized opioid receptor bound [³H][d -Ala²,N-Me-Phe⁴,Gly-ol⁵]-enkephalin ([³H]DAMGO), a μ-selective opioid agonist, with high affinity (K_D = 1.90 ± 0.93 nM; B_max = 629 ± 162 fmol/mg of protein). Of the membrane-associated [³H]-DAMGO binding sites, 29 ± 7% were recovered in the solubilized fraction. Specific [³H]DAMGO binding was completely abolished in the presence of 10 µM guanosine 5′-O-(3-thiotriphosphate). The solubilized receptor also bound [³H]diprenorphine, a nonselective opioid antagonist, with high affinity (K_D = 1.4 ± 0.39 nM, B_max = 920 ± 154 fmol/mg of protein). Guanosine 5′-O-(3-thiotriphosphate) did not diminish [³H]diprenorphine binding. DAMGO at concentrations between 1 nM and 1 µM competed with [³H]diprenorphine for the solubilized binding sites; in contrast, [d -Pen²,d -Pen⁵]-enkephalin, a δ-selective opioid agonist, and U50488H, a κ-selective opioid agonist, failed to compete with [³H]diprenorphine for the solubilized binding sites at concentrations of <1 µM. In the absence of guanine nucleotides, the DAMGO displacement curve for [³H]diprenorphine binding sites better fit a two-site than a one-site model with K_Dhigh = 2.17 ± 1.5 nM, B_max = 648 ± 110 fmol/mg of protein and K_Dlow = 468 ± 63 nM, B_max = 253 ± 84 fmol/mg of protein. In the presence of 10 µM guanosine 5′-O-(3-thiotriphosphate), the DAMGO displacement curve better fit a one- than a two-site model with K_D = 815 ± 33 nM, B_max = 965 ± 124 fmol/mg of protein.     

Solubilization of High-Affinity, Guanine Nucjeotide-Sensitive μ-Opioid Receptors from 7315c Cell Membranes

Abstract: High-affinity μ-opioid receptors have been solubilized from 7315c cell membranes. Occupancy of the membrane-associated receptors with morphine before their solubilization in the detergent 3-[(3-cholamidopropyl) dimethyl]-1-propane sulfonate was critical for stabilization of the receptor. The solubilized opioid receptor bound [³H]-etorphine with high affinity (K_D= 0.304 ± 0.06 nM; B_max= 154 ± 33 fmol/mg of protein). Of the membrane-associated [³H]etorphine binding sites, 40 ± 5% were recovered in the solubilized fraction. Both μ-selective and non-selective enkephalins competed with [³H]etorphine for the solubilized binding sites; in contrast, 5- and K-opioid enkephalins failed to compete with [³H]etorphine for the solubilized binding sites at concentrations of <1 μM.The μ-selective ligand [³H][D-Ala²,A/-Me-Phe⁴,Gly⁵-ol]enkephalin also bound with high affinity (K_D= 0.79 rM; B_max= 108±17 fmol/mg of protein) to the solubilized material. Of the membrane-associated [³H][D-Ala²,N-Me-Phe⁴,Gly⁵-ol]-enkephalin binding sites, 43 ± 3% were recovered in the solubilized material. Guanosine 5′-O-(3-thiotriphosphate), GTP, and guanosine 5′-O-(2-thiodiphosphate), but not adenylylimidodiphosphate, diminished [³H][D-Ala²,N-Me-Phe⁴,Gly⁵-ol]enkephalin binding in a concentration-dependent manner. Finally, μ-opioid receptors from rat brain membranes were also solubilized in a high-affinity, guanine nucleotide-sensitive state if membrane-associated receptors were occupied with morphine before and during their solubilization with the detergent 3-[(3-cholamidopropyl) dimethyl]-1-propane sulfonate.     

β-Adrenergic Binding Sites in Fetal Rat Brain

Abstract: The ontogeny of β-adrenergic binding sites was studied in forebrain homogenates from male and female rats. Specific [³H]dihydroalprenolol binding was defined by the difference between binding in the presence and in the absence of 330 n M (+)oxprenolol. Significant binding was detected at prenatal stages. The dissociation constants ( K _D of [³H]dihydroalprenolol binding were similar at gestational day (GD) 19^3/4 and postnatal day (PN) 31. Binding was first detected in forebrain at GD 15^3/4. The amount of binding sites increased until PN 31, when adult values were reached. No sex differences could be detected at any of the stages tested (GD 19^3/4-PN 31).     

Effect of β-FNA on Opiate δ Receptor Binding

Abstract: (β-FNA, the β -fumaramate methyl ester of naltrexone, has been shown to antagonize irreversibly the actions of morphine on the guinea pig ileum and mouse vas deferens bioassays but does not affect the actions of δ-receptor ligands on the mouse vas deferens bioassay, suggesting that the compound does not irreversibly bind to the S receptor. In this paper we examine the effect of (β -FNA on the binding of the prototypic δ agonists, Leuenkephalin and d -Ala²- d -Leu⁵-enkephalin, its metabolically stable analogue, and show that treatment of membranes with β -FNA does lead to alterations in the in vitro properties of δ receptors.     

Age-Dependent Changes in the Subcellular Distribution of Rat Brain μ-Opioid Receptors and GTP Binding Regulatory Proteins

The relative subcellular distributions of mu-opioid receptors and guanine nucleotide binding regulatory proteins (G proteins) in 1-day-old (P1) and adult rat forebrain were compared. Light membranes (LMs) were resolved from heavy membranes (HM) by sucrose density gradient centrifugation. Marker enzyme analyses indicated that LMs contained most of the endoplasmic reticulum and Golgi complexes, whereas HMs were enriched in plasma membranes. Binding distribution and properties of mu-opioid sites were assessed using [3H] [D-Ala2,Me-Phe4,Gly-ol5]enkephalin. P1 LMs possessed 43% of the total mu-opioid binding detected compared to 16% in the adult. Although NaCl inhibited mu binding in LMs to a greater extent than in HMs, age-dependent differences were not observed. P1 LM mu binding possessed greater sensitivity to 5'-guanylylimidodiphosphate than their adult counterpart. Moreover, P1 LMs contained more Go alpha protein than P1 HMs or adult LMs, as demonstrated by immunoblotting with antisera against Go alpha after one- or two-dimensional gel electrophoresis. These results suggest that P1 LMs contain a greater proportion of newly synthesized intracellular mu sites than adult LMs.     

Thermodynamic Parameters of Frog Brain κ-Opioid Receptors

Abstract: The thermodynamic parameters for [³H]-ethylketocyclazocine binding in frog ( Rana esculenta ) brain membranes have been examined. Computer-based nonlinear regression analysis of the untransformed equilibrium displacement data showed that this ligand bound to two sites with different affinities and capacities in this tissue. K _A values derived from equilibrium displacement curves have been used for calculating the changes in the standard Gibbs energy, enthalpy, and entropy during the binding process. Van't Hoff plots are bipartite, with transitions occurring at 18°C for both the high- and the low-affinity sites. For the high-affinity site, the reaction appears to be associated with a decrease in enthalpy below the transition temperature and a significant gain in entropy above this temperature. The reverse appears to be true for the low-affinity site. We conclude that this profile fairly approximates the mixed agonist-antagonist nature of this ligand and surmise that thermodynamic analysis could be a very useful tool for characterization of the nature of cloned opioid receptors in vitro.     

Influence of δ-Opioid Receptors on Production of Labeled Methionine5-Enkephalin in Murine Neuroblastoma Cells

Synthesis of methionine5-enkephalin by intact cells of murine neuroblastoma clone N1E-115 has been demonstrated both immunocytochemically and biochemically. In addition, N1E-115 cells possess homogeneous enkephalin (delta) receptors which inhibit prostaglandin E1-induced intracellular cyclic AMP formation. An assay was developed for measuring de novo synthesis of methionine5-enkephalin by pulsing cells in culture with radioactive methionine and isolating this pentapeptide to radiochemical purity by a procedure that included immunoaffinity chromatography specific for oxidized methionine5-enkephalin. This assay indicated that production of radiolabeled-methionine5-enkephalin was increased upon lengthy exposure of intact N1E-115 cells in the late logarithmic phase of growth to a nonproteolyzable analog of methionine5-enkephalin. This increase in synthesis of intracellular methionine5-enkephalin relative to control cells was prevented by prior incubation of the clone with naloxone, indicating that the response was mediated by the delta receptor.     

Resolution of Biphasic Binding of the Opioid Antagonist Naltrexone in Brain Membranes

In synaptosomal membranes from rat brain cortex, in the presence of 150 mM NaCl, the opioid antagonist [3H]naltrexone bound to two populations of receptor sites with affinities of 0.27 and 4.3 nM, respectively. Guanosine-5'-(3-thiotriphosphate) had little modulating effect and did not alter the biphasic nature of ligand binding. On the other hand, receptor-selective opioids differentially inhibited the two binding components of [3H]naltrexone. As shown by nonlinear least-squares analysis, the mu opioids Tyr-D-Ala-Gly-(Me)Phe-Gly-ol or sufentanil abolished high-affinity [3H]naltrexone binding, whereas the delta-selective ligands [D-Pen2,D-Pen5]enkephalin, ICI 174,864, and oxymorphindole inhibited and eventually eliminated the low-affinity component in a concentration-dependent manner. These results indicate that, in contrast to the guanine nucleotide-sensitive biphasic binding of opioid-alkaloid agonists, the heterogeneity of naltrexone binding in brain membranes reflects ligand interaction with different opioid-receptor types.     

Endomorphin-Stimulated [35S]GTPγS Binding in Rat Brain: Evidence for Partial Agonist Activity at μ-Opioid Receptors

Abstract: Endomorphin-1 is a peptide whose binding selectivity suggests a role as an endogenous ligand at μ-opioid receptors. In the present study, the effect of endomorphin-1 on μ receptor-coupled G proteins was compared with that of the μ agonist DAMGO by using agonist-stimulated [³⁵S]GTPγS binding in rat brain. [³⁵S]GTPγS autoradiography revealed a similar localization of endomorphin-1 and DAMGO-stimulated [³⁵S]GTPγS binding in areas including thalamus, caudate-putamen, amygdala, periaqueductal gray, parabrachial nucleus, and nucleus tractus solitarius. Naloxone blocked endomorphin-1-stimulated labeling in all regions examined. Although the distribution of endomorphin-1-stimulated [³⁵S]GTPγS binding resembled that of DAMGO, the magnitude of endomorphin-1-stimulated binding was significantly lower than that produced by DAMGO. Concentration-effect curves of endomorphin-1 and DAMGO in thalamic membranes confirmed that endomorphin-1 produced only 70% of DAMGO-stimulated [³⁵S]GTPγS binding. Differences in maximal stimulation of [³⁵S]GTPγS binding between DAMGO and endomorphin-1 were magnified by increasing GDP concentrations, and saturation analysis of net endomorphin-1-stimulated [³⁵S]GTPγS binding revealed a lower apparent B _max value than that obtained with DAMGO. Endomorphin-1 also partially antagonized DAMGO stimulation of [³⁵S]GTPγS binding. These results demonstrate that endomorphin-1 is a partial agonist for G protein activation at the μ-opioid receptor in brain.     

Benzodiazepine Receptor Binding Following Amygdala-Kindled Convulsions: Differing Results in Washed and Unwashed Brain Membranes

The binding of [3H]flunitrazepam and [3H]RO5-4864 was measured in unwashed brain homogenates and in extensively washed brain membranes from amygdala-kindled and "yoked" control rats sacrificed 2 weeks following the sixth stage 5 convulsion. In unwashed homogenates, [3H]flunitrazepam binding was reduced in both the hypothalamus and ipsilateral right cortex of kindled rats (unchanged in other areas). In washed brain membranes, [3H]flunitrazepam binding was unaltered in these regions; it was bilaterally elevated, however, in both the amygdala and hippocampus (unchanged in other areas). In washed membranes, the in vitro addition of gamma-aminobutyric acid enhanced [3H]flunitrazepam binding to a similar extent in kindled and control membranes. These data indicate that the type of benzodiazepine binding abnormality observed after kindling depends on the type of tissue preparation employed in the assay procedure.     

CL 218,872 Binding to Benzodiazepine Receptors in Rat Spinal Cord: Modulation by γ-Aminobutyric Acid and Evidence for Receptor Heterogeneity

The binding of the triazolopyridazine CL 218,872 to central benzodiazepine receptors identified with [3H]Ro 15-1788 was studied in extensively washed homogenates of rat spinal cord and cerebral cortex. CL 218,872 displacement curves were shallow in both spinal cord (nH = 0.67) and cortex (nH = 0.54), suggesting the presence of type 1 and type 2 benzodiazepine receptors in both tissues. CL 218,872 had lower affinity in spinal cord (IC50 = 825 nM) than cortex (IC50 = 152 nM), possibly reflecting the presence of fewer type 1 sites in the cord. Activating gamma-aminobutyric acid (GABA) receptors with 10 microM muscimol resulted in a two- to threefold increase in CL 218,872 affinity in both tissues without changes in the displacement curve slope. This indicates that GABA enhances CL 218,872 affinity for both type 1 and type 2 sites in both spinal cord and cerebral cortex.     

Decrease of Clonidine Binding Affinity to α2-Adrenoceptor by ADP-Ribosylation of 41,000-Dalton Proteins in Rat Cerebral Cortical Membranes by Islet-Activating Protein

The IC50 value for inhibition of specific [3H]yohimbine binding to rat cerebral cortical membranes by clonidine was increased, and the Hill coefficient (nH) approached unity in the presence of 150 microM GTP. Pretreatment of membranes with islet-activating protein (IAP) in the presence of NAD caused an increase in IC50 and nH values for clonidine compared with control membranes in the absence of GTP, the addition of which was without effect. Scatchard analysis showed that the Bmax value of the high-affinity component in [3H]clonidine binding was decreased by pretreatment with IAP/NAD. GTP in a concentration range of 0.1 microM-1 mM caused a significant elevation of [3H]yohimbine binding. In IAP/NAD-pretreated membranes, however, [3H]yohimbine binding was no longer affected by GTP, although IAP/NAD significantly (p less than 0.01) increased [3H]yohimbine binding compared to control. IAP ADP-ribosylated 41,000 dalton proteins of cerebral cortical membranes. From these results, it can be suggested that inhibitory guanine nucleotide regulatory protein with Mr 41,000 couples to alpha 2-adrenoceptors to regulate binding affinity of agonists and antagonists in membranes of the rat cerebral cortex.     

Ca2+-Guanine Nucleotide Interactions in Brain Membranes. II. Characteristics of [3H]Guanosine Triphosphate and [3H]β, γ-Imidoguanosine 5'-Triphosphate Binding and Catabolism in the Rat Hippocampus and Striatum

Abstract: With [³H]guanosine triphosphate ([³H]GTP) and [³H]β, γ -imidoguanosine 5′-triphosphate ([³H]GppNHp) as the labelled substrates, both the binding and the catabolism of guanine nucleotides have been studied in various brain membrane preparations. Both labelled nucleotides bound to a single class of noninteracting sites (K_D= 0.1-0.5 μm ) in membranes from various brain regions (hippocampus, striatum, cerebral cortex). Unlabelled GTP, GppNHp, and guanosine diphosphate (GDP) but not guanosine monophosphate (GMP) and guanosine competitively inhibited the specific binding of [³H]guanine nucleotides. Calcium (0.1–5 mm ) partially prevented the binding of [³H]GTP and [³H]GppNHp to hippocampal and striatal membranes. This resulted from both an increased catabolism of [³H]GTP (into [³H]guanosine) and the likely formation of Ca-guanine nucleotide^2- complexes. The blockade of guanine nucleotide catabolism was responsible for the enhanced binding of [³H]GTP to hippocampal membranes in the presence of 0.1 mm -ATP or 0.1 mm -GMP. Striatal lesions with kainic acid produced both a 50% reduction of the number of specific guanine nucleotide binding sites and an acceleration of [³H]GTP and [³H]GppNHp catabolism (into [³H]guanosine) in membranes from the lesioned striatum. This suggests that guanine nucleotide binding sites were associated (at least in part) with intrinsic neurones whereas the catabolising enzyme(s) would be (mainly) located to glial cells (which proliferate after kainic acid lesion). The characteristics of the [³H]guanine nucleotide binding sites strongly suggest that they may correspond to the GTP subunits regulating neurotransmitter receptors including those labelled with [³H]5-hydroxytryptamine ([³H]5-HT) in the rat brain.     

Overexpression of δ-Opioid Receptors in Recombinant Baculovirus-Infected Trichoplusia ni"High 5" Insect Cells

Abstract: "High 5" cells derived from Trichoplusia ni ovaries were infected with baculovirus bearing the cDNA of the mouse δ-opioid receptor. The maximal binding capacity for the narcotic antagonist [³H]naltrindole was 1.4 pmol/mg of membrane protein, and that for the agonist [³H][ d -penicillamine², d -penicillamine⁵]enkephalin (DPDPE) was 0.3 pmol/mg. DPDPE proved highly potent in competing with its tritiated analogue at δ-receptors of NG108-15 hybrid cells and of High 5 and Sf9 insect cells. However, in insect cells the opioid was more than 100-fold less effective in competing with [³H]naltrindole as compared with the mammalian cells. This decline in potency was counteracted in a dose-dependent manner by exposure of High 5 membranes to the exogenous G protein G_o, which increased the binding capacity for DPDPE. Functional studies revealed a dose-dependent inhibition (up to 30%) by opioids on forskolin-stimulated cyclic AMP synthesis, and this effect was potentiated by G_o. Quantification of Gα_o and Gα_i disclosed striking differences between Sf9 and High 5 insect cells, both of which overexpressed the cloned δ-opioid receptor. Although no inhibitory G proteins were detected in membranes of Sf9 cells, High 5 cells contained 0.5 pmol of Gα_o/mg of membrane protein, and a 20-fold higher concentration for Gα_i. The distinct G-protein expression in insect cells may be considered an advantage for studying functions of G protein-coupled receptors.     

Binding of [3H] γ-Aminobutyric Acid and [3H]Muscimol in Purified Rat Brain Synaptic Plasma Membranes and the Effects of Bicuculline

Abstract: The binding of [³H] γ-aminobutyric acid ([³H]GABA) and [³H]muscimol has been studied in purified synaptic plasma membrane (SPM) preparations from rat brain. Scatchard analysis of specific binding (defined as that displaced by 100 μMγ-aminobutyrate) indicated that the binding of both radiolabelled ligands was best described by a two component Langmuir adsorption isotherm. The apparent K_D and B_max values for [³H]GABA at 4°C were K_D1, 20 nM; K_D2,165 nM; B_max1, 0.48 pmol;B_max2, 6.0 pmol. mg^?1; for [³H]muscimol at 4°C they were: K_D1, 1.75 nM; K_D2, 17.5 nM; B_maxl, 0.84 pmol. mg^?1; B_max2, 4.8 pmol.mg^?1; and for [³H]muscimol at 37°C they were: K_D1, 7.0 nM; K_m, 60 nM; B_max], 0.5 pmol-mg^?1; B_max2, 7.2 pmol-mg¹. Under the experimental conditions used, the similar B_milx values for [³H]GABA and [³H]muscimol binding to the SPM preparations suggests that the high- and low-affinity components for the two radiolabeled ligands are identical. The effects of the GAB A antagonist bicuculline on the binding of [³H]muscimol at 4^CC and 37°C were studied. At 4°C, antagonism of muscimol binding appeared to be competitive at the high-affinity site but noncompetitive at the low-affinity site. At 37°C, antagonism was again competitive at the high-affinity site but was of a mixed competitive/noncompetitive nature at the low-affinity site. Assuming that binding to the high-affinity site is associated with the pharmacological actions of bicuculline, the apparent K_D values obtained suggest a pA₂ value of 5.3 against [³H]muscimol at 4°C and 37°C. This figure is in good agreement with several estimates of the potency of bicuculline based on pharmacological measurements. Results from displacement studies using [³H]GABA and [³H]muscimol suggest that [³H]GABA might be a more satisfactory ligand than [³H]muscimol in GABA radioreceptor assays.     

Biochemical Evidence of Functional Interaction Between μ- and δ-Opioid Receptors in SK-N-BE Neuroblastoma Cell Line

Abstract: Radioligand binding assays and functional experiments revealed that the SK-N-BE neuroblastoma cell line expresses a similar ratio of μ- and δ-opioid receptors, both negatively coupled to adenylyl cyclase through pertussis toxin-sensitive G proteins. Our findings also indicate that some functional interaction occurred between the two opioid subtypes; in fact, long-term exposure to [ d -Ala²- N -methyl-Phe⁴-Gly-ol⁵]enkephalin (DAMGO), a μ-selective agonist, sensitized the functional response of the δ-selective agonist but not vice versa. It is interesting that in acute interaction experiments, we observed a shift to the right of the concentration-effect curve of either DAMGO or [ d -Pen^2,5]enkephalin (DPDPE), a δ-selective agonist, as a result of DPDPE or DAMGO administration, respectively. In addition, low doses of naloxone, an antagonist selective for μ receptors, increased the inhibitory effect of [ d -Ala², d -Met⁵]enkephalinamide (DAME), a mixed μ/δ agonist, on adenylyl cyclase activity. Taken overall, these data support the hypothesis of the existence of a cross talk between μ and δ receptors in the SK-N-BE cell line.     

[3H]Citalopram Binding to Brain and Platelet Membranes of Human and Rat

Citalopram, a selective serotonin (5-HT) uptake inhibitor with antidepressant properties, was found to bind with high affinity to the 5-HT transporter from human neuronal and platelet membranes. At 20 degrees C, KD was about 1.5 nM in both tissues. [3H]Citalopram bound to rat neuronal membranes with higher affinity than to human neuronal and platelet membranes; at 20 degrees C KD was about 0.7 nM. The Bmax value for the binding of [3H]citalopram to platelet membranes was close to that found using the 5-HT uptake inhibitors [3H]imipramine and [3H]paroxetine, suggesting that all three 5-HT uptake inhibitors bind to the 5-HT transporter. The dissociation rate of [3H]citalopram increased twofold with each 4-5 degree C increase in temperature in both human and rat membranes, although at any given temperature, the dissociation rate was about four times faster in the human neuronal and platelet membranes than in rat neuronal membranes.     

Early Undernutrition and [3H]γ-Aminobutyric Acid Binding in Rat Brain

The effect of early undernutrition and dietary rehabilitation on [3H]gamma-aminobutyric acid ([3H]GABA) binding in rat brain cerebral cortex and hippocampus was examined. Undernourished animals were obtained by exposing their mothers to a protein-deficient diet during both gestation and lactation. Saturation analysis of [3H]GABA binding in the cerebral cortex and hippocampus revealed high- and low-affinity components in the undernourished group, whereas control animals possessed only a low-affinity site. The concentration of low-affinity binding sites was greater in the undernourished animals. Rehabilitation of undernourished animals completely abolished the binding site differences. Treatment of brain membranes with Triton X-100 yielded two binding components in both the undernourished and control animals, although the concentration of lower affinity sites was still greater in the undernourished group. Neither the efficacy nor the potency of GABA to activate benzodiazepine binding in cerebral cortex was modified by undernutrition. These data suggest that early undernourishment modifies the characteristics of [3H]GABA binding, perhaps by reducing the brain content of endogenous inhibitors of the higher affinity binding site. The lack of effect on GABA-activated benzodiazepine binding suggests the possibility that neither the high- nor the low-affinity GABA binding sites are coupled to this receptor component.     

Further Evidence for Multiple Forms of an N-Methyl-d-Aspartate Recognition Domain in Rat Brain Using Membrane Binding Techniques

Abstract— Pretreatment with sulfhydryl-reactive agents, such as N-ethylmaleimide and p-chloromercuriphenylsul-fonic acid, invariably resulted in marked inhibition of the binding of dl -(E)-2-amino-4-[³H]propyl-5-phosphono-3-pentenoic acid ([³H]CGP 39653), a competitive antagonist at an N-methyl-d -aspartate (NMDA)-sensitive subclass of central excitatory amino acid receptors, in brain synaptic membranes extensively washed and treated with Triton X-100, but did not significantly affect the binding of L-[³H]-glutamic acid ([³H]Glu), an endogenous agonist. The pre-treatment was effective in reducing the binding of [³H]-CGP 39653 at equilibrium, without altering the initial association rate, and decreased the affinity for the ligand. Pretreatment with sulfhydryl-reactive agents also enhanced the potencies of NMDA agonists to displace [³H]-CGP 39653 binding and attenuated those of NMDA antagonists, but had little effect on the potencies of the agonists and antagonists to displace [³H]Glu binding. The binding of both [³H]CGP 39653 and [³H]Glu was similarly sensitive to pretreatment with four different proteases in Tritontreated membranes, whereas pretreatment with phospho-lipase A₂ or C markedly inhibited [³H]CGP 39653 binding without altering [³H]Glu binding. Moreover, both phospho-lipases not only induced enhancement of the abilities of NMDA agonists to displace the binding of [³H]CGP 39653 and [³H]Glu, but also caused diminution of those of NMDA antagonists. These results suggest that both sulfhydryl-reactive agents and phospholipases may predominantly interfere with radiolabeling of the NMDA recognition domain in a state favorable to an antagonist by [³H]CGP 39653, with concomitant facilitation of that in an agonist-preferring form by [³H]Glu. The possible presence of multiple forms of the NMDA recognition domain is further supported by these data.