Distinct Binding Patterns of [3H]Raclopride and [3H]Spiperone at Dopamine D2 Receptors in vivo in Rat Brain. Implications for Pet Studies

Abstract

Positron emission tomography studies (PET) on dopamine (DA) D₂ receptors of schizophrenics provided conflicting data, perhaps because the ligands generally used, raclopride (RAC) and spiperone (SPI), did not label the same sites. In this study, we found that the in vivo binding characteristics of [³H]RAC and of [³H]SPI in rat brain, differed in many ways. 1) [³H]RAC labeled twice as many sites in striatum and olfactory tubercle and [³H]SPI twice as many sites in pituitary. 2) The kinetic was much shorter with [³H]RAC than [³H]SPI in striatum. 3) RAC, unlike SPI, did not exhibit limbic selectivity. 4) The modulation of [³H]RAC and [³H]SPI binding by endogenous DA were diametrically opposite: D-amphetamine decreased, and reserpine + α-methyl-p-tyrosine increased [³H]RAC binding in striatum whereas the opposite occured with [³H]SPI. This distinct binding pattern of [³H]RAC and [³H]SPI suggests that these two radioligands do not label the same receptor sites.     

Dopamine Receptors in Subcellular Fractions from Bovine Caudate: Enrichment of [3H]Spiperone Binding in a Postsynaptic Membrane Fraction

Abstract: Specific binding of tritiated dopamine, spiperone, and N-propylnorapomorphine was examined in subcellular fractions from bovine caudate nucleus. All fractions contained at least two sets of specific binding sites for [³H]spiperone (K_{D 1}^aPP= 0.2 nM, K_{D 2}^aPP= 2.2 nM), the higher affinity sites accounting for one-third to one-eighth of the total. [³H]Spiperone binding was slightly enriched over the total particulate fraction in P₂, P₃, SPM, and a crude fraction of synaptic mitochondria. A microsomal subfraction (P₃B₂) exhibited the highest specific binding capacity obtained, representing a fourfold enrichment over the total particulate fraction. [³H]Dopamine exhibited apparent binding to a single class of high-affinity sites in all fractions examined (K_D^aPP= 4.0 nM). A greater than twofold enrichment was observed in all fractions except myelin and P₃, with a fivefold enrichment in SPM and P₃B₂. At least two classes of receptors were labeled by [³H]-N-propylnorapomorphine (K_{D 1}^aPP= 0.55 nM, K_{D 2}^aPP= 20 nM), using 50 nM-spiperone together with 100 nM-dopamine to define nonspecific binding. Although binding to the higher affinity site was displaced by spiperone, and lower affinity binding by dopamine, comparison of receptor densities with values obtained by using [³H]spiperone and [³H]dopamine directly suggested that [³H]-N-propylnorapomorphine labeled additional sites. We have also examined a postsynaptic membrane (PSM) fraction obtained from SPM by successive extraction with salt and EGTA followed by sonication and separation on a density gradient. [³H]Spiperone binding in PSM was enriched two- to threefold over unfractionated SPM with a concomitant decrease in [³H]dopamine binding. The enrichment in spiperone receptors was almost entirely due to an increase in the number of lower affinity binding sites, suggesting that these sites may be associated with the postsynaptic membrane.     

Discrimination of Multiple [3H]5-Hydroxytryptamine Binding Sites by the Neuroleptic Spiperone in Rat Brain

Certain neuroleptic drugs, such as spiperone and (+) butaclamol, can discriminate between two populations of [³H]5-hydroxytryptamine ([³H]5-HT) binding sites in rat brain. The butyrophenone neuroleptic spiperone shows the greatest selectivity for these two binding sites, having at least a 3000-fold difference between its dissociation constants (2-12 nM versus 35,000 nM) for the high- and low-affinity sites, respectively. Inhibition of [³H]5-HT binding by spiperone in rat frontal cortex and corpus striatum yields distinctly biphasic inhibition curves with Hill slopes significantly less than unity. Results from nonlinear regression analysis of these inhibition studies were consistent with a two-site model in each brain region. In the frontal cortex the high-affinity neuroleptic sites comprised about 60% of the total [^3/H]5-HT binding sites whereas in the corpus striatum they accounted for only 20% of the sites. Furthermore, saturation studies of [³H]5-HT binding assayed in the absence or presence of 1 μM-spiperone (a concentration that completely blocks the high-affinity site while having minimal activity at the low-affinity site) reveal a parallel shift in the Scatchard plot with no change in the dissociation constant of [³H]5-HT, but a significant decrease (64% in frontal cortex or 28% in corpus striatum) in the number of specific binding sites. These observations are consistent with the existence of at least two populations of [³H]5-HT binding sites having a differential regional distribution in rat brain.     

[3H]Fluphenazine Binding to Brain Membranes: Simultaneous Measurement of D-1 and D-2 Receptor Sites

[3H]Fluphenazine was used to label both D-1 and D-2 dopamine receptors in mouse striatal membranes. The D-1 and D-2 specific binding of [3H]fluphenazine was discriminated by the dopamine antagonists SCH-23390 (D-1 selective) and spiperone (D-2 selective). Saturation analyses of these two sites yielded a D-1 receptor density in mouse striatum of 1,400 fmol/mg of protein and a D-2 receptor density of 700 fmol/mg of protein. The affinity of [3H]fluphenazine for the D-2 site was slightly greater than for the D-1 site; the equilibrium dissociation constant (KD) was 0.7 versus 3.2 nM, respectively. Assay conditions are described that reduce nonspecific binding of [3H]fluphenazine to acceptable levels (35% of total binding at 1 nM [3H]fluphenazine). By comparison of displacement curves from a series of dopaminergic and nondopaminergic ligands, the pharmacological specificity of [3H]fluphenazine binding in mouse striatum was demonstrated to be dopaminergic. Only small amounts of dopamine-specific (apomorphine-sensitive) [3H]fluphenazine binding were found in other brain regions. However, chlorpromazine displaced considerable [3H]fluphenazine from all brain regions, including cerebellum, suggesting the presence of a [3H]fluphenazine binding site with a phenothiazine specificity.     

Use of [3H] Spiperone for Labelling Dopaminergic and Serotonergic Receptors in Bovine Caudate Nucleus

Abstract— [³H]Spiperone binding has been used to study neurotransmitter receptors in bovine caudate nucleus in displacement and saturation binding experiments. Displacement curves for several antagonists are biphasic and can be analysed into contributions from dopaminergic and serotonergic sites. Antagonist binding at each class of sites follows the simple mass action equations for binding at a homogeneous set of sites (slope factors close to unity). Agonist displacement curves also indicate complex behaviour, but agonist binding to the dopaminergic sites alone exhibits heterogeneous properties (slope factors less than unity). Saturation binding experiments have been conducted on each class of site, defining dopaminergic binding of [³H]spiperone as that binding displaced by 0.1 m m -dopamine and serotonergic binding as that displaced by 0.3 μ m -mianserin. In each case, a single class of binding sites was detected: the binding parameters derived in this way have been used to calculate the proportions of the two classes of binding site observed in displacement experiments. Good agreement was obtained between calculated and observed values.     

Multiple [3H]-Oxytocin Binding Sites in Rat Myometrial Plasma Membranes

Abstract

The affinity spectrum method has been used to analyse binding isotherms for [³H]-oxytocin to rat myometrial plasma membranes. Three populations of binding sites with dissociation constants (K_d) of 0.6–1.5 × 10^?9, 0.4–1.0 × 10^?7 and 7 × 10^?6 mol/l were identified and their existence verified by cluster analysis based on similarities between K_d, binding capacity and Hill coefficient. When experimental values were compared to theoretical curves constructed using the estimated binding parameters, good fits were obtained. Binding parameters obtained by this method were not influenced by the presence of GTPrS (guanosine-5′-0-(3-thiotriphosphate) in the incubation medium. The binding parameters agree reasonably well with those found in uterine cells, they support the existence of a medium affinity site and may allow for an explanation of some of the discrepancies between binding and response in this system.     

Specific [3H]Piflutixol Binding to CHAPS-Solubilised Rat Striatal Preparations Involves Dopamine D-2 but Not D-1 Binding Sites

[3H]Piflutixol binding to rat striatal membrane preparations identifies both D-1 and D-2 sites. We used [3H]piflutixol to characterise those binding sites present in 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate (CHAPS)-solubilised rat striatal preparations. The specific binding of [3H]piflutixol, as defined using cis-flupenthixol, to CHAPS-solubilised rat striatal tissue was saturable and of high affinity. Specific [3H]piflutixol binding to the solubilised preparations was displaced stereoselectively by the isomers of butaclamol and to an equal extent by both cis-flupenthixol and (+/-)-sulpiride. A positive correlation was found between the capacity of a range of drugs to displace [3H]piflutixol binding and the displacement of [3H]spiperone to the same preparations. The Bmax of [3H]piflutixol binding was not different from that of [3H]spiperone binding to the same preparation. These studies suggest that, in contrast to specific binding of membrane preparations, the specific binding of [3H]piflutixol to CHAPS-solubilised preparations involves mainly D-2 sites. Specific [3H]piflutixol binding, in contrast to [3H]spiperone binding, showed only slow dissociation from soluble preparations. The binding of [3H]piflutixol to CHAPS-solubilised preparations was retained during passage through a gel filtration column. This prelabelling of solubilised striatal preparations using [3H]piflutixol may aid in the purification of CHAPS-solubilised rat striatal D-2 sites.     

Comparison between D-[3-3H]- and D-[5-3H]glucose and fructose utilization in pancreatic islets from control and hereditarily diabetic rats

The metabolism of D-glucose and/or D-fructose was investigated in pancreatic islets from control rats and hereditarily diabetic GK rats. In the case of both D-glucose and D-fructose metabolism, a preferential alteration of oxidative events was observed in islets from GK rats. The generation of 3HOH from D-[5-3H]glucose (or D-[5-3H]fructose) exceeded that from D-[3-3H]glucose (or D-[3-3H]fructose) in both control and GK rats. This difference, which is possibly attributable to a partial escape from glycolysis of tritiated dihydroxyacetone phosphate, was accentuated whenever the rate of glycolysis was decreased, e.g., in the absence of extracellular Ca(2+) or presence of exogenous D-glyceraldehyde. D-Mannoheptulose, which inhibited D-glucose metabolism, exerted only limited effects upon D-fructose metabolism. In the presence of both hexoses, the paired ratio between D-[U-14C]fructose oxidation and D-[3-3H]fructose or D-[5-3H]fructose utilization was considerably increased, this being probably attributable, in part at least, to a preferential stimulation by the aldohexose of mitochondrial oxidative events. Moreover, this coincided with the fact that D-mannoheptulose now severely inhibited the catabolism of D-[5-3H]fructose and D-[U-14C]fructose. The latter situation is consistent with both the knowledge that D-glucose augments D-fructose phosphorylation by glucokinase and the findings that D-mannoheptulose, which fails to affect D-fructose phosphorylation by fructokinase, inhibits the phosphorylation of D-fructose by glucokinase.     

Aminergic Receptors in Drosophila melanogaster: Properties of [3H]Dihydroergocryptine Binding Sites

Abstract: [³H]Dihydroergocryptine ([³H]DHE) binds to a particulate preparation from Drosophila melanogaster heads at a level of 2.4 ± 0.4 pmol/mg protein, with an apparent dissociation constant of 2.0 ± 0.5 n M . The binding sites are inactivated by heat, pronase treatment, detergents, and sulfhydryl and disulfide reagents. [³H]DHE binding is inhibited by low concentrations of serotonergic and α-adrenergic ligands. The specificity of the binding sites, as revealed by displacement studies, differs from that of [³H]DHE binding sites in various vertebrate tissues. The [³H]DHE binding sites may correspond to serotonergic receptors, and possibly, to additional classes of receptors for putative neurotransmitters in Drosophila .     

Effects of chronic antidepressant treatment on dopamine-related [3H]SCH 23390 and [3H]Spiperone binding in the rat striatum

1. The effects of chronic administration of antidepressants on dopamine-related [3H]SCH 23390 and [3H]spiperone binding to rat striatal membranes were assessed. 2. The monoamine oxidase inhibitors phenelzine (5 or 10 mg kg-1/day) and tranylcypromine (1 mg kg-1/day) and the tricyclic desipramine (10 mg kg-1/day) were administered for 28 days by constant subcutaneous infusion using Alzet (2ML4) osmotic minipumps. 3. These treatments did not alter Kd estimates for either [3H]SCH 23390 or [3H]spiperone binding sites. The monoamine oxidase inhibitors induced a decrease in the Bmax values for both [3H]SCH 23990 and [3H]spiperone binding sites. Desipramine induced a decrease in the Bmax value for [3H]SCH 23390 binding but had no effect on the Bmax value for [3H]spiperone binding.     

Pancreatic fate of D-[3H] mannoheptulose

D-Mannoheptulose was recently postulated to be transported into cells by GLUT2. The validity of such an hypothesis was assessed by comparing the uptake of tritiated D-mannoheptulose by pancreatic islets versus pieces of pancreas and, in the latter case, by comparing results obtained in control rats versus animals injected with streptozotocin (STZ). The uptake of D-[3H] mannoheptulose by islets represents a time-related and temperature-sensitive process, inhibited by cytochalasin B and enhanced by D-glucose. The uptake of the tritiated heptose was much lower in pieces of pancreatic tissue and inhibited by D-glucose, at least in the STZ rats. Whether in pieces of pancreas exposed in vitro to D-[3H] mannoheptulose or after intravenous injection of the tritiated heptose, the radioactive content of the pancreatic tissue was lower in STZ rats than in control animals. This contrasted with an unaltered radioactive content of liver and muscle in the STZ rats, at least when treated with insulin. Suitably radiolabelled D-mannoheptulose or an analogue of the heptose could thus conceivably be used for quantification of the endocrine pancreatic mass.     

Neurochemical Studies of the Mesolimbic Dopaminergic Pathway: [3H]Spiperone Labels Two Binding Sites in Homogenates of the Nucleus Accumbens of Rat Brain

The binding of [3H]spiperone to membranes of the nucleus accumbens of the rat brain was studied in vitro and found to be of high affinity, rapid, saturable, reversible and stereospecific. Dissociation and saturation experiments indicated the presence of two specific binding sites with apparent dissociation constants of 70 pM and greater than 1 nM. Specific binding with 25 pM [3H]spiperone represented greater than 90% of total binding and was displaced by dopaminergic agonists, neuroleptic drugs and ergot derivatives. The rank order of potency for the ergot derivatives was bromocryptine greater than pergolide greater than lergotrile, and that for D-2 antagonists was domperidone greater than sulpiride greater than molindone greater than metoclopramide. Noradrenergic, histaminergic and serotonergic components of the binding were not detected. [3H]Spiperone binds to high-affinity sites in homogenates of nucleus accumbens, which are likely to be D-2 receptors.     

Inactivation of 5-HT1A and [3H]5-HT Binding Sites by N-Ethoxycarbonyl-2-Ethoxy-1, 2-Dihydroquinoline (EEDQ) in Rat Brain

Inactivation of 5-HT_1A and [³H]5-HT binding sites by N-Ethoxycarbonyl-2-ethoxy-1, 2-dihydro-quinoline (EEDQ) was studied in regions of rat brain. After exposure to EEDQ (4 mg/kg body wt.) for 7 days, it is observed that the density of 5-HT₁ receptor sites was decreased by nearly 20% in both cortex and hippocampus. The decrease, however, in 5-HT_1A sites was more significant (70%) in both the regions. The affinity of [³H]5-HT to 5-HT₁ sites was decreased significantly in both cortex and hippocampus after exposure to EEDQ, without affecting the Kd of 5-HT_1A sites. Displacement studies suggested that EEDQ has high affinity to 5-HT₁ sites with a Ki of 42.9 ± 2.4 nM. After exposure neither basal nor 5-HT stimulated adenylyl cyclase activity was changed in cortex. The results of this study suggest that EEDQ decreases the density of 5-HT₁ and 5-HT_1A receptor sites but does not cause functional downregulation of these sites in rat brain.     

[3H]5,7-Dichlorokynurenic Acid Recognizes two Binding Sites in Rat Cerebral Cortex Membranes

Abstract

Binding of [³H]5,7-dichlorokynurenic acid ([³H]DCKA), a competitive antagonist of the strychnine-insensitive glycine site of the N-methyl-D-aspartate (NMDA) receptor channel complex, was characterized in synaptic plasma membranes from rat cerebral cortex. Non linear curve fitting of [³H]DCKA saturation and homologous displacement isotherms indicated the existence of two binding sites: a specific, saturable, high affinity site, with a pK_D value of 7.24 (K_D = 57.5 nmol/1) and a maximum binding value (B_max) of 6.9 pmol/mg of protein and a second site, with micromolar affinity. The pharmacological profile of both binding components was determined by studying the effect on [³H]DCKA and [³H]glycine binding of a series of compounds known to interact with different excitatory and inhibitory amino acid receptors. These studies confirmed the identity of the high affinity site of [³H]DCKA binding with the strychnine-insensitive glycine site of the NMDA receptor channel complex. 3-[2-(Phenylaminocarbonyl)ethenyl]-4,6-dichloroindole-2-carboxylic acid sodium salt (GV 150526A), a new, high affinity, selective glycine site antagonist (1), was the most potent inhibitor of this component of binding (pK_i = 8.24, K_i = 5.6 nmol/1). The low affinity component of [³H]DCKA binding was insensitive to the agonists glycine and D-serine and the partial agonist (±)-3-amino-1-hydroxy-2-pyrrolidone (HA 966), though recognised by glycine site antagonists. The precise nature of this second, low affinity [³H]DCKA binding site remains to be elucidated.     

Binding of DL-[3H]-alpha-Amino-3-Hydroxy-5-Methyl-Isoxazole-4-Propionic Acid (AMPA) to Rat Cortex Membranes Reveals Two Sites or Affinity States

Abstract

A method for measuring [³H]-AMPA binding in rat cortex membranes is described. Specific binding was saturable and accounted for 95% of total binding at 5 nM of [³H]-AMPA. Non linear curve fitting of [³H]-AMPA saturation isotherms suggested the presence of two binding sites: the high affinity site showed a pKd of 8.26 ± 0.07 (Kd = 5.49 nM) and a Bmax of 0.19 ± 0.03 pmol/mg protein, whereas the low affinity site indicated a pKd of 7.28 ± 0.05 (Kd = 52 nM) and a Bmax of 1.30 ± 0.23 pmol/mg protein. The pharmacological profile of [³H]-AMPA binding has been determined by studying a series of compounds in binding displacement experiments: Quisqualate was the most potent inhibitor of [³H]-AMPA binding (IC₅₀ = 9.7 nM), followed by AMPA (19 nM), CNQX, DNQX and L-Glutamate (272–373 nM). Kainate was a moderate displacer (6.2 μM); Ibotenic acid and glycine were very weak inhibitors (74 and 92 μM, respectively). CPP, GAMS and L-Aspartic acid showed IC₅₀-values of over 400 μM and MK-801, DL-AP5 and NMDA were almost inactive at the maximal concentration used in our experiments.     

Optimal Conditions for [3H]Apomorphine Binding and Anomalous Equilibrium Binding of [3H]Apomorphine and [3H]Spiperone to Rat Striatal Membranes: Involvement of Surface Phenomena Versus Multiple Binding Sites

I. Binding of [³H]apomorphine to dopaminergic receptors in rat striatum was most reproducible and clearly detectable when incubations were run at 25°C in Tris-HCl buffer, pH 7.5, containing 1 mM-EDTA and 0.01% ascorbic acid, using a washed total-membrane fraction. The receptor binding was stereospecifically inhibited by (+)-butaclamol, and dopamine agonists and antagonists showed high binding affinity for these sites. Unlabelled apomorphine inhibited an additional nonstereospecific binding site, which was unrelated to dopamine receptors. EDTA in the incubation mixture considerably lowered nonstereospecific [³H]apomorphine binding, apparently by preventing the complexation of the catechol moiety with metal ions which were demonstrated in membrane preparations. Stereospecific [³H]apomorphine binding was not detectable in the frontal cortex, whereas in the absence of EDTA much saturable nonstereospecific binding occurred. II. Kinetic patterns of stereospecific [³H]spiperone and [³H] apomorphine binding to rat striatal membranes and the inhibition patterns of a dopamine antagonist and an agonist were evaluated at different temperatures in high-ionic-strength Tris buffer with salts added and low-ionic-strength Tris buffer with EDTA. Apparent K_D, values of spiperone decreased with decreasing tissue concentrations. K_D, values of both spiperone and apomorphine were little influenced by temperature changes. Scatchard plots of the stereospecific binding changed from linear to curved; the amount of nonstereospecific binding of the ³H ligands varied considerably, but in opposite directions for spiperone and apomorphine in the different buffers. In various assay conditions, interactions between agonists, and between antagonists, appeared fully competitive, but agonist-antagonist interactions were of mixed type. The anomalous binding patterns are interpreted in terms of surface phenomena occurring upon reactions of a ligand with complex physicochemical properties and nonsolubilized sites on membranes suspended in a buffered aqueous solution. It is concluded that anomalous binding patterns are not necessarily an indication of binding to multiple sites or involvement of distinct receptors for high-affinity agonist and antagonist binding.     

[3H]5-Hydroxytryptamine Binding Sites: Species and Tissue Variation

Abstract: The characteristics of spiperone inhibition of [³H]5-hydroxytryptamine ([³H]5-HT; [³H]serotonin) binding were examined in dorsal (DH) and ventral (VH) hippocampus, corpus striatum (CS) or caudate nucleus (CN), and frontal cortex (FC) in the rabbit, guinea pig, and cat. Some of the properties of spiperone inhibition of [³H]5-HT binding in these species were similar to the properties previously found in the rat. Spiperone was significantly more potent in DH, VH, and FC than in CS or CN. It produced shallow or biphasic inhibition curves, resulting in Hill slopes of less than 1.0. Nonlinear regression analysis of the data showed that the inhibition curves fit a two-site binding model significantly better than a one-site model in each brain region. The dissociation constants of spiperone for the high-affinity binding site ( K _H) for all the tissues and species, except cat FC and rabbit DH, were very close to those previously found in the rat (2-13 n M ). However, the dissociation constants for the low-affinity binding site ( K _L) were different from those in the rat in all species and tissues examined, except cat FC and CS. The present data are consistent with the concept of multiple 5-HT₁ binding sites and suggest the presence of at least two, and perhaps as many as three, groups of sites in the mammalian brain.     

Ascorbic Acid Inhibits [3H]sch-23390 Binding to Striatal Dopamine D1 Receptors

Abstract

The present study describes the inhibition of [³H]SCH-23390 binding to striatal dopamine D₁ receptors in the presence of ascorbic acid. Specific [³H]SCH-23390 binding was maximally inhibited by 0.1 mM ascorbic acid. As determined by Scatchard analysis the binding in the presence of 0.01, 0.1, or 10 mM ascorbic acid was consonant with non-competitive inhibition with a 26%, 38%, or 19% decrease, respectively, in the maximal number of binding sites; the affinity of these binding sites was not affected. Inhibition of [³H]SCH-23390 binding by ascorbic acid was reversible; striatal homogenates incubated with 0.1 mM ascorbic acid and sebsequently washed free of ascorbic acid had the same Scatchard parameters as untreated preparations.     

Phosphoglucoisomerase-catalyzed interconversion of hexose phosphates: a model for the interconversion of D-[2-3H]glucose 6-phosphate and D-[1-3H]fructose 6-phosphate

Based on experimental data, a model is proposed for the interconversion of either unlabelled hexose phosphates or D-[2-3H]glucose 6-phosphate and D-[1-3H]fructose 6-phosphate in the reaction catalyzed by phosphoglucoisomerase. This model takes into account the known differences in maximal velocity and affinity for each substrate, the intramolecular transfer of tritium between C1 and C2, and the isotopic discrimination between unlabelled and tritiated esters. This model reveals that, in a close system characterized by the progressive detritiation of hexose phosphates, the concentration ratio of D-glucose 6-phosphate to D-fructose 6-phosphate is much higher with the tritiated than unlabelled esters, a paradoxical increase in the specific radioactivity of D-glucose 6-phosphate above its initial value being even observed during the initial period of exposure of D-[2-3H]glucose 6-phosphate to phosphoglucoisomerase. The extension of this model to an open system may be essential for the correct interpretation of radioactive data collected in intact cells exposed to D-[2-3H]glucose.