Dopamine-induced functional activation of Gαq mediated by dopamine D1-like receptor in rat cerebral cortical membranes

Although multiple roles of dopamine through D₁-like (D₁ and D₅) and D₂-like (D₂, D₃, and D₄) receptors are initiated primarily through stimulation or inhibition of adenylyl cyclase via G_s/olf or G_i/o, respectively, there have been many reports indicating diverse signaling mechanisms that involve alternative G protein coupling. In this study, dopamine-induced Gα_q activation in rat brain membranes was investigated. Agonist-induced Gα_q activation was assessed by increase in guanosine-5′-O-(3-[³⁵S]thio)triphosphate ([³⁵S]GTPγS) binding to Gα_q determined by [³⁵S]GTPγS binding/immunoprecipitation assay in rat brain membranes. Dopamine-stimulated Gα_q functionality was highest in cortex as compared to hippocampus or striatum. In cerebral cortical membranes, this effect was mimicked by benzazepine derivatives with agonist properties at dopamine D₁-like receptors, that is, SKF83959, SKF83822, R(+)-SKF81297, R(+)-SKF38393, and SKF82958, but not by the compounds with dopamine D₂-like receptor agonist properties except for aripiprazole. Against expectation, stimulatory effects were also induced by SKF83566, R(+)-SCH23390, and pergolide. The pharmacological profiling by using a series of antagonists indicated that dopamine-induced response was mediated through dopamine D₁-like receptor, which was distinct from the receptor involved in 5-HT-induced response (5-HT_2A receptor). Conversely, the responses induced by SKF83566, R(+)-SCH23390, and pergolide were most likely mediated by 5-HT_2A receptor, but not by dopamine D₁-like receptor. Caution should be paid when interpreting the experimental data, especially in behavioral pharmacological research, in which SKF83566 or R(+)-SCH23390 is used as a standard selective dopamine D₁-like receptor antagonist. Also, possible clinical implications of the agonistic effects of pergolide on 5-HT_2A receptor has been mentioned.     

Dopamine D1, D2, D3 Receptors,Vesicular Monoamine Transporter Type-2 (VMAT2) and Dopamine Transporter (DAT) Densities in Aged Human Brain

The dopamine D₁, D₂, D₃ receptors, vesicular monoamine transporter type-2 (VMAT2), and dopamine transporter (DAT) densities were measured in 11 aged human brains (aged 77–107.8, mean: 91 years) by quantitative autoradiography. The density of D₁ receptors, VMAT2, and DAT was measured using [³H]{"type":"entrez-protein","attrs":{"text":"SCH23390","term_id":"1052733334","term_text":"SCH23390"}}SCH23390, [³H]dihydrotetrabenazine, and [³H]WIN35428, respectively. The density of D₂ and D₃ receptors was calculated using the D₃-preferring radioligand, [³H]WC-10 and the D₂-preferring radioligand [³H]raclopride using a mathematical model developed previously by our group. Dopamine D₁, D₂, and D₃ receptors are extensively distributed throughout striatum; the highest density of D₃ receptors occurred in the nucleus accumbens (NAc). The density of the DAT is 10–20-fold lower than that of VMAT2 in striatal regions. Dopamine D₃ receptor density exceeded D₂ receptor densities in extrastriatal regions, and thalamus contained a high level of D₃ receptors with negligible D₂ receptors. The density of dopamine D₁ linearly correlated with D₃ receptor density in the thalamus. The density of the DAT was negligible in the extrastriatal regions whereas the VMAT2 was expressed in moderate density. D₃ receptor and VMAT2 densities were in similar level between the aged human and aged rhesus brain samples, whereas aged human brain samples had lower range of densities of D₁ and D₂ receptors and DAT compared with the aged rhesus monkey brain. The differential density of D₃ and D₂ receptors in human brain will be useful in the interpretation of PET imaging studies in human subjects with existing radiotracers, and assist in the validation of newer PET radiotracers having a higher selectivity for dopamine D₂ or D₃ receptors.     

Peripheral dopamine receptor identification: Properties of a specific dopamine receptor in the rat adrenal zona glomerulosa

Specific dopaminergic receptors were found in the rat adrenal zona glomerulosa. Specific binding as defined by the difference in [³H]-spiroperidol binding in the presence or absence of excess dopamine was saturable and of high affinity. Stereospecificity of binding to the dopaminergic receptor was demonstrated by the fact that (+)-butaclamol was 300-fold more active at displacing [³H]-spiroperidol from the binding site than (?)-butaclamol. A Scatchard analysis of the data revealed a K_D = 6.9 nM and a B_max = 173 pmol/gm for the binding of [³H]-spiroperidol to adrenal capsular homogenate binding site. Characteristics of this receptor place it in the recently defined D2 dopamine receptor subclass.     

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.     

Solubilization and reconstitution of dopamine D1 receptor from bovine striatal membranes: Effects of agonist and antagonist pretreatment

The bovine striatal dopamine D₁ receptor was solubilized with a combination of sodium cholate and NaCl in the presence of phospholipids, following treatment of membranes with a dopaminergic agonist (SKF-82526-J) or antagonist (SCH-23390). The solubilized receptors were subsequently reconstituted into lipid vesicles by gel-filtration. A comparison of ligand-binding properties shows that the solubilized and reconstituted receptors bound [³H]SCH-23390 to a homogeneous site in a saturable, stereospecific and reversible manner with a K_d of 0.95 and 1.1 nM and a B_max of 918 and 885 fmol/mg protein respectively for agonist- and antagonist-pretreated preparations. These values are very similar to those obtained for membrane-bound receptors. The competition of antagonists for [³H]SCH-23390 binding exhibited a clear D₁ dopaminergic order in the reconstituted preparation obtained from either agonist or antagonist-pretreated membranes, except that (+)butaclamol was about four-fold more potent thancis-flupentixol in displacing [³H]SCH-23390 binding in preparation obtained from agonist-pretreated membranes compared to antagonist-pretreated membranes. The agonist/[³H]SCH-23390 competition studies revealed the presence of a highaffinity component of agonist binding in both the reconstituted receptor preparations. The number of high-affinity agonist binding sites, however, is 40–80% higher in reconstituted preparation obtained from antagonist-treated membrane compared to that obrained from the agonist-treated membrane. In both the preparations, 100 M guanylylimidodiphosphate (Gpp(NH)p) completely abolished the high-affinity component of agonist binding compared to partial abolition in the native membranes, indicating a close association of a G-protein with the solubilized receptors. Whether the receptor was solubilized following agonist or antagonist preincubation of the membranes, the receptor-detergent complex eluted from a steric-exclusion HPLC column with an apparent molecular size of 360,000. Preincubation of the solubilized preparations with Gpp(NH)p had virtually no effect on the elution profile suggesting a lack of guanine nucleotide-dependent dissociation of G-protein receptor complex.     

Intestinal cytosol binders of 1,25-dihydroxyvitamin D3 and 25-hydroxyvitamin D3

The binding of 25-hydroxy-[26,27-³H]vitamin D₃ and 1,25-dihydroxy-[26,27-³H]vitamin D₃ to the cytosol of intestinal mucosa of chicks and rats has been studied by sucrose gradient analysis. The cytosol from chick mucosa showed variable binding of 1,25-dihydroxyvitamin D₃ to a 3.0S macromolecule which has high affinity and low capacity for this metabolite. However, when the mucosa was washed extensively before homogenization, a 3.7S macromolecule was consistently observed which showed considerable specificity and affinity for 1,25-dihydroxyvitamin D₃. Although 3.7S binders for 1,25-dihydroxyvitamin D₃ could also be located in other organs, competition experiments with excess nonradioactive 1,25-dihydroxyvitamin D₃ suggested that they were not identical to the 3.7S macromolecule from intestinal mucosal cytosol. As the 3.7S macromolecule was allowed to stand at 4 °C with bound 1,25-dihydroxy-[³H]vitamin D₃, the 1,25-dihydroxy-[³H]vitamin D₃ became increasingly resistant to displacement by non-radioactive 1,25-dihydroxyvitamin D₃. The 1,25-dihydroxy-[³H]vitamin D₃ remained unchanged and easily extractable with lipid solvents through this change, making unlikely the establishment of a covalent bond. Unlike the chick, mucosa from rats yielded cytosol in which no specific binding of 1,25-dihydroxy-[³H]vitamin D₃ was detected. Instead, a 5-6S macromolecule which binds both 1,25-dihydroxyvitamin D₃ and 25-hydroxyvitamin D₃ was found. This protein which was also found in chick mucosa shows preferential binding for 25-hydroxyvitamin D₃. It could be removed by washing the mucosa with buffer prior to homogenization which suggests that it may not be a cytosolic protein. Although the 3.7S protein from chick mucosa has properties consistent with its possible role as a receptor, the 5-6S macromolecule does not appear to have “receptor”-like properties.     

Evidence for Different States of the Dopamine Dl Receptor: Clozapine and Fluperlapine May Preferentially Label an Adenylate Cyclase-Coupled State of the Dl Receptor

Abstract: It has been shown previously that typical neuroleptics have higher affinities for 3,4-dihydroxyphenyl-ethylamine (dopamine) Dl receptors as labeled by(R)- (+)- 8-chloro-2,3,4,5-tetrahydro-3-methyl-5-phenyl-1 -N-3-benzazepine-7-ol ([³H]SCH 23390) than for inhibiting dopamine-stimulated adenylate cyclase. We now report that the atypical neuroleptics, clozapine and fluperlapine, exhibit characteristics opposite to typical neuroleptics, i.e., they have higher affinity for inhibiting dopamine-stimulated adenylate cyclase than [³H]SCH 23390 binding. A variety of compounds, i.e., clozapine, fluperlapine, and dopamine, were tested for their capacity to affect the rate constants of [³H]SCH 23390 binding; these experiments revealed no effect of any tested compound on on-rate or off-rate of [³H]SCH 23390 binding. Treatment of striatal membranes with phospholipase A₂ (PLA₂) caused a rapid decrease in the B_max value of the [³H]SCH 23390 binding with no effect on the K_d value. The adenylate cyclase, both the unstimulated, the dopamine-, fluoride-, and forskolin-stimulated activity, was far less sensitive than [³H]SCH 23390 binding to PLA₂. Treatment of striatal membranes with filipine and (NH₄SO₄ produced, as did PLA₂ treatment, a rapid decline in [³H]SCH 23390 binding. However, opposite to PLA₂ treatment, these agents stimulated the adenylate cyclase. In conclusion, a comparison of the pharmacological characteristics of [³H]SCH 23390 binding and dopamine-stimulated adenylate cyclase suggests the existence of two different Dl binding sites. The rate experiments exclude the possibility of allosterically coupled sites. Instead our results favor that the Dl receptor exists in different states/conformations, i.e., both adenylate cyclase-coupled and uncoupled, and further, that the atypical neuroleptics clozapine and fluperlapine may have adenylate cyclase-coupled dopamine Dl receptors as target.     

Characterization and Subcellular Localization of l-[3H]Carnitine Binding Sites in Rat Brain

Abstract: In the present study, we investigated the existence of a binding site for l -carnitine in the rat brain. In crude synaptic membranes, l -[³H]carnitine bound with relatively high affinity (K_D = 281 nM) and in a saturable manner to a finite number (apparent B_max value = 7.3 pmol/mg of protein) of binding sites. Binding was reversible and dependent on protein concentration, pH, ionic strength, and temperature. Kinetic studies revealed a K_off of 0.018 min^?1 and a K_on of 0.187 × 10^?3 min^?1 nM^?1. Binding was highest in spinal cord, followed by medulla oblongata-pons ≥ corpus striatum ≥ cerebellum = cerebral cortex = hippocampus = hypothalamus = olfactory bulb. l -[³H]Carnitine binding was stereoselective for the l -isomers of carnitine, propionylcarnitine, and acetylcarnitine. The most potent inhibitor of l -[³H]carnitine binding was l -carnitine followed by propionyl-l -carnitine. Acetyl-l -carnitine and isobutyryl-l -carnitine showed an affinity ～500-fold lower than that obtained for l -carnitine. The precursor γ-butyrobetaine had negligible activity at 0.1 mM. l -Carnitine binding to rat crude synaptic membrane preparation was not inhibited by neurotransmitters (GABA, glycine, glutamate, aspartate, acetylcholine, dopamine, norepinephrine, epinephrine, 5-hydroxytryptamine, histamine) at a final concentration of 0.1 mM. In addition, the binding of these neuroactive compounds to their receptors was not influenced by the presence of 0.1 mMl -carnitine. Finally, a subcellular fractionation study showed that synaptic vesicles contained the highest density of l -carnitine membrane binding sites whereas l -carnitine palmitoyltransferase activity was undetectable, thus excluding the possibility of the presence of an active site for carnitine palmitoyltransferase. This finding indicated that the localization of the l -[³H]carnitine binding site should be essentially presynaptic.     

Interaction of the D1 Receptor Antagonist Sch 23390 with the Central 5-HT System: Radioligang Binding Studies,Measurements of Biochemical Parameters and Effects on L-5-HTP Syndrome

Abstract

The interaction of SCH 23390 with dopamine (DA) and serotonin (5-HT) systems has been examined in vivo and in vitro. Like selective 5-HT₂ blockers, SCH 23390 inhibited in vivo [³H]spiperone binding in the rat frontal cortex (ID₅₀: 1.5 mg/kg) without interacting at D₂ sites. SCH 23390 was equipotent to cinanserin and methysergide. In vitro, SCH 23390 inhibited [³H]ketanserin binding to 5-HT₂ sites (IC₅₀ = 30 nM). Biochemical parameters linked to DA and 5-HT were not changed excepted in striatum where SCH 23390 increased HVA and DOPAC. In the L-5-HTP syndrome model, SCH 23390 clearly showed antagonism of 5-HT₂ receptors. SCH 23390 had weak affinity for 5-HT_1B (IC₅₀ = 0.5 μM), 5-HT_1A (IC₅₀ = 2.6 μM) and α;₁-adenergic receptors (IC₅₀ = 4.4 μM).     

Autoradiographic Visualization of Kappa Opioid Receptors with Labelled Dynorphins in Guinea Pig Brain

Abstract

The distribution of kappa opioid receptors in guinea pig brain was measured by in vitro receptor autoradiography using [³H]dynorphin A_1–9, [³H]dynorphin A_1–8 and [³H]bremazocine as ligands. The sites labelled by the two dynorphins had identical, heterogeneous distributions in brain sections. High levels of kappa receptors were seen in striatum, claustrum, nucleus accumbens and laminae V and VI of the cerebral cortex. The substantia nigra and superior colliculus also had high dynorphin binding levels. The [³H]dynorphin autoradiographs were closely similar to those obtained using [³H]bremazocine in the presence of mu and delta receptor displacers. It is concluded that tritiated dynorphin A fragments can be used for autoradiographic studies of kappa opioid receptors in brain.     

Specific binding sites for corticosterone in isolated cells and plasma membrane from rat liver

Summary The specific binding of [³H]corticosterone to hepatocytes is a nonsaturable, reversible and temperature-dependent process. The binding to liver purified plasma membrane fraction is also specific, reversible and temperature dependent but it is saturable. Two types of independent and equivalent binding sites have been determined from hepatocytes. One of them has high affinity and low binding capacity (K _D=8.8nm andB _max=1477 fmol/mg protein) and the other one has low affinity and high binding capacity (K _D=91nm andB _max=9015 fmol/mg). In plasma membrane only one type of binding site has been characterized (K _D=11.2nm andB _max=1982 fmol/mg). As it can be deduced from displacement data obtained in hepatocytes and plasma membrane the high affinity binding sites are different from the glucocorticoid, progesterone nuclear receptors and the Na⁺,K⁺-ATPase digitalis receptor. Probably it is of the same nature that the one determinate for [³H]cortisol and [³H]corticosterone in mouse liver plasma membrane. Beta-and alpha-adrenergic antagonists as propranolol and phentolamine did not affect [³H]corticosterone binding to hepatocytes and plasma membranes; therefore, these binding sites are independent of adrenergic receptors. The binding sites in hepatocytes and plasma membranes are not exclusive for corticosterone but other steroids are also bound with very different affinities.     

Lack of effect of chronic desipramine treatment on dopaminergic activity in the nucleus accumbens of the rat

The binding of [³H]SCH 23390 to dopamine (DA) D₁-receptors was measured in the nucleus accumbens of rats treated chronically with desipramine for 14 days. DA D₁ — and D₂-receptor binding using [³H]SCH 23390 and [³H]spiperone, respectively as ligands, was determined in rats treated for 28 days. NeitherB _max norK _d values were influenced by chronic desipramine treatment. In addition, chronic desipramine treatment (28 days) did not influence the dose dependent, quinpirole (10–1000 nM)-mediated inhibition of the electrically stimulated release of [³H]DA and [¹⁴C]ACh from nucleus accumbens slices or the dose dependent increase in [³H]DA release and decrease in [¹⁴C]ACh release in the presence of 1 and 10 M nomifensine. Therefore, our results suggest that the effect of chronic antidepressant treatment cannot be attributed to changes in either DA D₁₁-or D₂-receptor binding or DA D₂-receptor function in the nucleus accumbens.     

Long Withdrawal of Methylphenidate Induces a Differential Response of the Dopaminergic System and Increases Sensitivity to Cocaine in the Prefrontal Cortex of Spontaneously Hypertensive Rats

Methylphenidate (MPD) is one of the most prescribed drugs for alleviating the symptoms of Attention Deficit/Hyperactivity Disorder (ADHD). However, changes in the molecular mechanisms related to MPD withdrawal and susceptibility to consumption of other psychostimulants in normal individuals or individuals with ADHD phenotype are not completely understood. The aims of the present study were: (i) to characterize the molecular differences in the prefrontal dopaminergic system of SHR and Wistar strains, (ii) to establish the neurochemical consequences of short- (24 hours) and long-term (10 days) MPD withdrawal after a subchronic treatment (30 days) with Ritalin® (Methylphenidate Hydrochloride; 2.5 mg/kg orally), (iii) to investigate the dopaminergic synaptic functionality after a cocaine challenge in adult MPD-withdrawn SHR and Wistar rats. Our results indicate that SHR rats present reduced [³H]-Dopamine uptake and cAMP accumulation in the prefrontal cortex (PFC) and are not responsive to dopaminergic stimuli in when compared to Wistar rats. After a 24-hour withdrawal of MPD, SHR did not present any alterations in [³H]-Dopamine Uptake, [³H]-SCH 23390 binding and cAMP production; nonetheless, after a 10-day MPD withdrawal, the results showed a significant increase of [³H]-Dopamine uptake, of the quantity of [³H]-SCH 23390 binding sites and of cAMP levels in these animals. Finally, SHR that underwent a 10-day MPD withdrawal and were challenged with cocaine (10 mg/kg i.p.) presented reduced [³H]-Dopamine uptake and increased cAMP production. Wistar rats were affected by the 10-day withdrawal of MPD in [³H]-dopamine uptake but not in cAMP accumulation; in addition, cocaine was unable to induce significant modifications in [³H]-dopamine uptake and in cAMP levels after the 10-day withdrawal of MPD. These results indicate a mechanism that could explain the high comorbidity between ADHD adolescent patients under methylphenidate treatment and substance abuse in adult life.     

Presence of D2-dofamine Receptors in Human Term Placenta

Abstract

We studied the binding of [³H]-spiperone on human term placental membranes. This binding reached plateau level after 30 min incubation at 37°C and was reversed (t_1/2 ～ 5 min) by addition of an excess of unlabeled spiperone. Scatchard analysis of saturation experiments with increasing doses of [³H]-spiperone (0–25 nM) showed one class of high affinity binding sites with a dissociation constant (Kd) of 14 ± 2 nM and a maximal binding capacity (Bmax) of 222 ± 9 fmoles/mg protein. The affinity of 5 competitors was determined in competitive binding assays. The D₂-dopamine antagonists were the most potent inhibitors: Ki for spiperone and haloperidol were 8 ± 2 and 56 ± 22 nM respectively. Dopamine inhibited [³H]-spiperone binding with a Ki of 570 ± 50 μM whereas Schering 23390 (D₁ antagonist) and propranolol (β-adrenergic antagonist) were without effect. The binding was also inhibited by 100 μM GTPγS (38 ± 8% inhibition), indicating that the dopamine receptor is coupled with a GTP binding protein. These results demonstrate for the first time the presence of D₂-dopamine receptors in human placenta.     

Behavioral and neurochemical changes in the dopaminergic system after repeated cocaine administration

In order to determine whether repeated cocaine administration produced persistent changes in dopamine (DA) receptor binding and release consistent with behavioral sensitization, rats were treated with either cocaine (25 mg/kg ip) or saline twice daily for 14 consecutive days followed by a 3-d withdrawal period. The DA transporter site was assayed using [³H]GBR 12935, whereas D₁ and D₂ sites were assayed using [³H]SCH 23390 and [³H]spiperone, respectively. The density (B _max) of the DA transporter binding sites in the ST of the cocaine-treated group increased significantly (p<0.05) over controls 3 d after the last injection, whereas the density of striatal D₁ and D₂ binding sites remained unchanged. The DA transporter in the nucleus accumbens (NA) was also studied with [³H]GBR 12935 and was unchanged following drug treatment. D₁ and D₂ binding parameters for the NA were not determined in this study. Furthermore, cocaine administration did not affect the affinities (K _d ) of the radioligands used to label the transporter, D₁, or D₂ sites in any of the studies performed. In addition, striatal DA release was measured using in vivo microdialysis in anesthetized rats. Linear regression analysis on maximal decreases in DA release after apomorphine (0.02, 0.2, and 2.0 mg/kg sc) injection showed no difference in the functional capacity of the ST to modulate DA transmission between control and treated groups. Moreover, animals pretreated with cocaine showed a significant (p<0.01) decrease in locomotor activity (LA) after a presynaptic, autoregulating dose of apomorphine (0.03 mg/kg sc) was given. These results suggest that the effects seen after repeated exposure to cocaine may be regulated, in part, by changes in striatal DA transporter binding site densities and not necessarily by DA-releasing mechanisms or D₁ and D₂ receptor modification.     

Effects of sodium,lithium, and magnesium onIn vitro binding of [3H]SCH23390 in rat neostriatum and cerebral cortex

The effects of sodium, lithium, and magnesium on the in vitro binding properties of the D₁ antagonist [³H]SCH23390 were examined with membrane preparations from rat neostriatum (CPU; caudate-putamen) and cerebral cortex (CTX). The saturation binding isotherms for both tissues performed in the presence of 120 mM of either Na⁺ or Li⁺ revealed an increase in the affinity, as compared to that observed when the incubation buffer was composed of Tris-Cl 50 mM with MgCl₂ 1 mM alone. For the CPU there were no changes in the maximum binding capacity (B _max) in the different buffers used. In the case of the CTX, there was a loss of [³H]SCH23390 binding sites when either Na⁺ or Li⁺ 120 mM were added to the incubations, suggesting a lack of selectivity of this ligand in the absence of group IA cations. The agonist state of the [³H]SCH23390 binding site was studied in competition experiments with dopamine. The highest agonist affinity was obtained in 50 mM Tris-Cl buffer with 1 mM MgCl₂ while the addition of 120 mM of either Na⁺ or Li⁺ caused a 3- to 5-fold decrease in the potency of dopamine to compete with specific [³H]SCH23390 binding in both CPU and CTX. The presence of magnesium was essential for the competition experiments; i.e.: a concentration of 1 mM MgCl₂ was optimum to obtain dopamine antagonism of ligand binding, while increasing Mg²⁺ to 2 or 5 mM did not appear to further improve the inhibitions. The results support both agonist and antagonist affinity shifts for the dopamine D₁ receptor labeled with [³H]SCH23390. Receptor affinity studies should take into account that pharmacological specificity may vary with the incubation buffer utilized, especially when comparing binding data from different laboratories performed under varying ionic conditions.     

Agonist binding fraction of dopamine D2/3 receptors in rat brain: A quantitative autoradiographic study

There has arisen considerable interest in the study of dopamine D_2/3 agonist binding sites by positron emission tomography (PET), based on the claim that agonist sites represent a functional subset of the total number of sites labeled by more conventional antagonist ligands. To test the basis of this claim, we used quantitative autoradiography to measure the abundance of binding sites of a dopamine D_2/3 agonist ([³H]NPA) and an antagonist ([³H]raclopride) in cryosections of rat brain. Saturation binding studies revealed that the B_max for [³H]NPA was nearly identical to that of [³H]raclopride in dorsal brain regions, but was 25% less in the ventral striatum and 56% less in the olfactory tubercle. We also tested the displacement of the two ligands by the hallucinogen LSD, which is known to have dopamine agonist properties. Whereas displacement of [³H]raclopride by increasing LSD concentrations was monophasic, displacement of [³H]NPA was biphasic, suggesting an action of LSD via a subset of dopamine D_2/3 agonist binding sites. Addition of the stable GTP analogue Gpp(NH)p to the medium abolished 90% of the [³H]NPA binding, and increased [³H]raclopride binding by 10%, with a shift to the right in the LSD competition curve, suggesting retention of endogenous dopamine in washed cryostat sections. Thus [³H]NPA and [³H]raclopride binding sites have nearly identical abundances in rat dorsal striatum, but are distinct in the ventral striatum, and with respect to their displacement by LSD.     

[3H]Dopamine Labeling of D3 Dopaminergic Sites in Human, Rat, and Calf Brain

Abstract: The binding of [³H]dopamine to brain regions of calf, rat, and human was investigated. The calf caudate contained the highest density of [³H]dopamine binding sites, with a B_max value of 185 fmol/mg protein, whereas rat and human striatum contained one-third this number of sites. The K_D values for [³H]dopamine in all tissues were 2–3 nM. Dopaminergic catecholamines (dopamine, apomorphine, 6,7-dihydroxy-2-aminotetralin, and N-propylnorapomorphine) inhibited the binding of [³H]dopamine in all three species, at low concentrations, with IC₅₀ values of 1.5 to 6 nM. Neuroleptics, in contrast, inhibited the binding at high concentrations (with IC₅₀ values of 200 to 40,000 nM). The [³H]dopamine binding sites were saturable, heat-labile, and detectable only in dopamine-rich brain regions; these sites differed from D₂ dopamine sites (labeled by [³H]butyrophenone neuroleptics), and from D_l dopamine sites (labeled by [³H]thioxanthene neuroleptics) associated with the dopamine-stimulated adenylate cyclase. We have, therefore, called these high-affinity [³H]dopamine binding sites D₃ sites. [³H]Apomorphine and [³H]ADTN also appeared to label D₃ sites. These ligands however, were less selective than [³H]dopamine, and labeled sites other than D₃ as well. Assay conditions were important in determining the parameters of [³H]dopamine binding. The optimum conditions for selective labeling of the D₃ dopaminergic sites, using [³H]dopamine, required the presence of EDTA and ascorbate.     

Systemic Blockade of Dopamine D2-Like Receptors Increases High-Voltage Spindles in the Globus Pallidus and Motor Cortex of Freely Moving Rats

High-voltage spindles (HVSs) have been reported to appear spontaneously and widely in the cortical–basal ganglia networks of rats. Our previous study showed that dopamine depletion can significantly increase the power and coherence of HVSs in the globus pallidus (GP) and motor cortex of freely moving rats. However, it is unclear whether dopamine regulates HVS activity by acting on dopamine D₁-like receptors or D₂-like receptors. We employed local-field potential and electrocorticogram methods to simultaneously record the oscillatory activities in the GP and primary motor cortex (M1) in freely moving rats following systemic administration of dopamine receptor antagonists or saline. The results showed that the dopamine D₂-like receptor antagonists, raclopride and haloperidol, significantly increased the number and duration of HVSs, and the relative power associated with HVS activity in the GP and M1 cortex. Coherence values for HVS activity between the GP and M1 cortex area were also significantly increased by dopamine D₂-like receptor antagonists. On the contrary, the selective dopamine D₁-like receptor antagonist, {"type":"entrez-protein","attrs":{"text":"SCH23390","term_id":"1052733334","term_text":"SCH23390"}}SCH23390, had no significant effect on the number, duration, or relative power of HVSs, or HVS-related coherence between M1 and GP. In conclusion, dopamine D₂-like receptors, but not D₁-like receptors, were involved in HVS regulation. This supports the important role of dopamine D₂-like receptors in the regulation of HVSs. An siRNA knock-down experiment on the striatum confirmed our conclusion.     

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.