A solid phase parallel synthesis of diverse amides as dopamine D3 receptor ligands

A solid phase parallel synthesis using SynPhase? technology was used to couple a series of 21 carboxylic with three different 4-(4-arylpiperazinyl)butanamines. The resulting library was evaluated as dopamine D₃ receptor ligands giving rise to several compounds with affinities in the low nanomolar concentration range (9e and 9n with binding affinities at D₃ receptors of 0.10 and 0.35 nM respectively).     

Differential voltage-sensitivity of D2-like dopamine receptors

Agonist potency at some neurotransmitter receptors has been shown to be regulated by transmembrane voltage, a mechanism which has been suggested to play a crucial role in the regulation of neurotransmitter release by autoreceptors and in synaptic plasticity. We have recently described the voltage-sensitivity of the dopamine D_2L receptor and we now extend our studies to include the other members of the D₂-like receptor subfamily; the D_2S, D₃, and D₄ dopamine receptors. Electrophysiological recordings were performed on Xenopus oocytes coexpressing human dopamine D_2S, D₃, or D₄ receptors with G protein-coupled potassium (GIRK) channels. Comparison of concentration-response relationships at −80 mV and at 0 mV for dopamine-mediated GIRK activation revealed significant rightward shifts for both D_2S and D₄ upon depolarization. In contrast, the concentration-response relationships for D₃-mediated GIRK activation were not appreciably different at the two voltages. Our findings provide new insight into the functional differences of these closely related receptors.     

Effect of amygdaloid kindling on rat striatal dopamine D1- and D2-receptors

The effect of kindling on dopaminergic (DA) neurotransmission was assessed by measuring dopamine D₁- and D₂-receptor binding in the dorsal and ventral striatum of rats either 2 hours (short-term) or 3–4 weeks (long-term) after the last kindled seizure. Kindling did not have any significant long-term effect on DA D₂-receptor K_d or B_max values in the dorsal or ventral striatum or on DA D₁-receptor parameters in the dorsal striatum. The short-term effect of kindled seizures was to abolish the asymmetry in DA D₂-receptor density observed in the dorsal striatum of control rats. DA D₁-receptor density was also increased in the dorsal striatum contralateral to the kindled amygdala of short-term rats. The short-term effects support the notion that limbic seizures can modify the lateral imbalance of DA activity in the striatum.     

Novel drug interactions at D(2) dopamine receptors: modulation of [3H]quinpirole binding by monoamine oxidase inhibitors

D(2) dopamine receptors are the principal target of drugs used to treat schizophrenia and Parkinson's disease. Recent findings suggest novel drug interactions at D(2) receptors, specifically interactions of monoamine oxidase inhibitors (MAOIs) at a novel binding site that modulates the binding of [3H]quinpirole to the D(2) receptor. That MAOIs inhibit [3H]quinpirole binding challenges the traditional understanding of ligand interactions at dopamine receptors and may shed light on the mechanism of behavioral sensitization to psychostimulants and the pharmacology and toxicity of MAOIs.     

Behavioral sensitization and tolerance to cocaine and the occupation of dopamine receptors by dopamine

Data from the authors’ laboratory on the neural substrates of Pavlovian conditioning and behavioral sensitization to psychomotor stimulants are reviewed. The findings of a recent experiment on the role of occupation of dopamine receptors by dopamine and its association to behavioral sensitization are reported. Daily intermittent injections of cocaine produced behavioral sensitization to the locomotor response in rats, whereas continuous cocaine infusions produced behavioral tolerance. Behavioral sensitization to cocaine was blocked by coadministration of nimodipine, anL-type calcium channel blocker. The increases in locomotion produced by cocaine was associated with an increase in the occupation of striatal dopamine D₁ and D₂ receptors, measured as the density of receptors protected from denaturation byN-ethoxycarbonyl-2-ethoxy-1,2-dihydroquinoline (EEDQ). This association was not observed when rats were given a challenge injection of cocaine 10 d after withdrawal from similar treatment regimens. Rats given a cocaine challenge after withdrawal from either intermittent or continuous cocaine treatment regimens exhibited increased occupations of striatal D₁ and D₂ receptors. This increase was similar in magnitude to that observed in rats without a history of cocaine treatments after a challenge injection of cocaine. This suggests tnat the differences in occupancy of striatal dopamine receptors by dopamine observed in the prewithdrawal condition are likely the result of differences in brain levels of cocaine achieved by the two treatment regimens. Occupancy of striatals dopamine D₁ and D₂ receptors does not appear to be related to the development of sensitization to the motor-stimulating effects of cocaine.     

Characterization of [3H]LS‐3‐134, a novel arylamide phenylpiperazine D3 dopamine receptor selective radioligand

LS‐3‐134 is a substituted N‐phenylpiperazine derivative that has been reported to exhibit: (i) high‐affinity binding (K_i value 0.2 nM) at human D3 dopamine receptors, (ii) > 100‐fold D3 versus D2 dopamine receptor subtype binding selectivity, and (iii) low‐affinity binding (K_i > 5000 nM) at sigma 1 and sigma 2 receptors. Based upon a forskolin‐dependent activation of the adenylyl cyclase inhibition assay, LS‐3‐134 is a weak partial agonist at both D2 and D3 dopamine receptor subtypes (29% and 35% of full agonist activity, respectively). In this study, [³H]‐labeled LS‐3‐134 was prepared and evaluated to further characterize its use as a D3 dopamine receptor selective radioligand. Kinetic and equilibrium radioligand binding studies were performed. This radioligand rapidly reaches equilibrium (10–15 min at 37°C) and binds with high affinity to both human (K_d = 0.06 ± 0.01 nM) and rat (K_d = 0.2 ± 0.02 nM) D3 receptors expressed in HEK293 cells. Direct and competitive radioligand binding studies using rat caudate and nucleus accumbens tissue indicate that [³H]LS‐3‐134 selectively binds a homogeneous population of binding sites with a dopamine D3 receptor pharmacological profile. Based upon these studies, we propose that [³H]LS‐3‐134 represents a novel D3 dopamine receptor selective radioligand that can be used for studying the expression and regulation of the D3 dopamine receptor subtype.     

Calbindin D9k is not required for 1,25-dihydroxyvitamin D3-mediated Ca2+ absorption in small intestine

The exact role of calbindin D9k in vitamin D-mediated calcium absorption has been debated but remains unsettled. In 129/OlaHsd mice, calbindin D9k was found highest in duodenum (36-50%) and kidney (24-34%) followed by stomach, lung and uterus. Age does not affect the relative distribution of calbindin D9k but it does decline with age in duodenum of both male and female 129/Ola mice. Recently, we produced a null calbindin D9k mutant 129/OlaHsd mouse; this mouse proved to be indistinguishable from the wild-type in phenotype and in a serum calcium level regardless of age or gender. We have now examined directly whether the mutant mouse can absorb calcium from the intestine in response to the active form of vitamin D. The calbindin D9k null mutant mouse is fully able to absorb calcium from the intestine in response to 1,25-dihydroxyvitamin D3. It is, therefore, clear that calbindin D9k is not required for vitamin D-induced intestinal calcium absorption.     

Regional distribution of monoamines and dopamine D1-and D2-receptors in the striatum of the rat

Dopamine (DA) D₁-and D₂-receptor densities were determined in 18 discrete areas of the caudate-putamen-globus pallidus of male Wistar rats and compared to local DA concentrations. All three parameters were found to decrease caudally. The globus pallidus was distinguished by the low concentration of DA and its receptors and high noradrenaline, (NA) content. While there were no mediolateral differences in DA or DA D₁-receptors, a clear mediolateral gradient was observed for DA D₂-receptors which extended over several sections of the brain. The ratio of DA D₁-to D₂-receptors was significantly higher in the dorsal than in the ventral areas of the mediolateral and caudal striatum. This is the first report of clear dorsoventral differences in parameters relating to DA activity in the striatum. These findings may be of particular significance in understanding the functional dichotomy between the dorsal and ventral striatum.     

Review. Positron emission tomography imaging studies of dopamine receptors in primate models of addiction

Animal models have provided valuable information related to trait and state variables associated with vulnerability to drug addiction. Our brain imaging studies in monkeys have implicated D2 receptors in cocaine addiction. For example, an inverse relationship between D2 receptor availability and rates of cocaine self-administration has been documented. Moreover, environmental variables, such as those associated with formation of the social hierarchy, can impact receptor availability and sensitivity to the abuse-related effects of cocaine. Similarly, both D2 receptor availability and cocaine self-administration can be altered by chronic drug administration and fluctuations in hormone levels. In addition, cocaine self-administration can be altered in an orderly fashion by presentation of an acute stressor, such as acting as an intruder into an unfamiliar social group, which can shift the cocaine dose-response curve to the left in subordinate monkeys and to the right in dominant animals, suggesting an interaction between social variables and acute stressors. Conversely, irrespective of social rank, acute environmental enrichment, such as increasing the size of the living space, shifts the cocaine dose-response curve to the right. These findings highlight a pervasive influence of the environment in modifying the reinforcing effects of cocaine and strongly implicate brain D2 receptors.     

Long-term effects of prenatal stress on dopamine and glutamate receptors in adult rat brain

Prenatal stress greatly influences the ability of an individual to manage stressful events in adulthood. Such vulnerability may result from abnormalities in the development and integration of forebrain dopaminergic and glutamatergic projections during the prenatal period. In this study, we assessed the effects of prenatal stress on the expression of selective dopamine and glutamate receptor subtypes in the adult offsprings of rats subjected to repeated restraint stress during the last week of pregnancy. Dopamine D₂-like receptors increased in dorsal frontal cortex (DFC), medial prefrontal cortex (MPC), hippocampal CA₁ region and core region of nucleus accumbens (NAc) of prenatally stressed rats compared to control subjects. Glutamate NMDA receptors increased in MPC, DFC, hippocampal CA₁, medial caudate-putamen, as well as in shell and core regions of NAc. Group III metabotropic glutamate receptors increased in MPC and DFC of prenatally stressed rats, but remained unchanged in all other regions examined. These results indicate that stress suffered during the gestational period has long lasting effects that extend into the adulthood of prenatally stressed offsprings. Changes in dopamine and glutamate receptor subtype levels in different forebrain regions of adult rats suggest that the development and formation of the corticostriatal and corticolimbic pathways may be permanently altered as a result of stress suffered prenatally. Maldevelopment of these pathways may provide a neurobiological substrate for the development of schizophrenia and other idiopathic psychotic disorders.     

Prenatal cocaine exposure revealed minimal postnatal changes in rat striatal dopamine D2 receptor sites and mRNA levels in the offspring

It has been reported from this laboratory that prenatal cocaine exposure results in the postnatal transient alterations of rat striatal dopamine uptake sites examined from postnatal 0–32 wk. The present study aims to examine whether this will result in a direct/indirect stimulation of dopamine D₂ receptors. Pregnant rats were dosed orally with cocaine hydrochloride (60 mg/kg/d) from gestational day (GD) 7–21. Control animals received an equivalent volume of water. The striatum from the offspring at postnatal 0–32 wk was examined. The radioligand [³H]sulpiride was used for the Scatchard analysis of the D₂ receptors, and the changes in the levels of mRNA for the D₂ receptor were studied using Northern blot analysis. Results from the present study revealed that in the control group, there was an age-dependent increase in the number of D₂ receptor sites (B _max:44.00±2.12 to 178.00±45.10 fmol/mg protein) and in the levels of D₂ mRNA from PN0–32 wk with the most rapid increase occurring during the first 4 wk of postnatal development. Prenatal cocaine exposure resulted in only a significant decrease (p<0.001) in the number of D₂ receptor sites at PN0 wk and in a 10% increase in mRNA levels at PN3, 4, and 12 wk. It was concluded from this study that prenatal cocaine exposure resulted in minimal postnatal changes in the dopamine D₂ receptor.     

Thyrotropes in the pituitary are target cells for 1,25 dihydroxy vitamin D3

Summary In the anterior pituitary of the rat, target cells of 1,25 (OH)₂ vitamin D₃ are identified as those that secrete thyroid stimulating hormone by means of a combined technique of thaw-mount autoradiography and immunohistochemistry. The results for the first time provide evidence that suggests a central effect of 1,25 (OH)₂ vitamin D₃ on the modulation of thyrotropin secretion in a manner similar to that of other steroid hormones at the level of the pituitary.Supported by PHS grant NS09914     

Partial agonist actions of aripiprazole and the candidate antipsychotics S33592, bifeprunox, N-desmethylclozapine and preclamol at dopamine D(2L) receptors are modified by co-transfection of D(3) receptors: potential role of heterodimer formation

Aripiprazole and the candidate antipsychotics, S33592, bifeprunox, N-desmethylclozapine (NDMC) and preclamol, are partial agonists at D(2) receptors. Herein, we examined their actions at D(2L) and D(3) receptors expressed separately or together in COS-7 cells. In D(2L) receptor-expressing cells co-transfected with (D(3) receptor-insensitive) chimeric adenylate cyclase-V/VI, drugs reduced forskolin-stimulated cAMP production by approximately 20% versus quinpirole (48%). Further, quinpirole-induced inhibition was blunted by aripiprazole and S33592, confirming partial agonist properties. In cells co-transfected with equal amounts of D(2L)and D(3) receptors (1 : 1), efficacies of aripiprazole and S33592 were attenuated. Further, in cells co-transfected with D(2L) and an excess of D(3) receptors (1 : 3), aripiprazole and S33592 were completely inactive, and they abolished the actions of quinpirole. Likewise, bifeprunox, NDMC and preclamol lost agonist properties in cells co-transfected with D(2L)and D(3) receptors. Accordingly, at split D(2trunk)/D(3tail) and D(3trunk)/D(2tail) chimeras, agonist actions of quinpirole were blocked by aripiprazole and S33592 that, like bifeprunox, NDMC and preclamol, were inactive alone. Conversely, when a 12 amino acid sequence in the third intracellular loop of D(3) receptors was replaced by the homologous sequence of D(2L) receptors, aripiprazole, S33592, bifeprunox, NDMC and preclamol inhibited cAMP formation by approximately 20% versus quinpirole (42%). Moreover, at D(2L) receptor-expressing cells co-transfected with modified D(3i3(D2)) receptors, drugs behaved as partial agonists. To summarize, low efficacy agonist actions of aripiprazole, S33592, bifeprunox, NDMC and preclamol at D(2L) receptors are abrogated upon co-expression of D(3) receptors, probably due to physical association and weakened coupling efficacy. These findings have implications for the functional profiles of antipsychotics.     

Effect of neuropeptide-EI on the binding of [3H]SCH 23390 to the dopamine D1 receptor in rat striatal membranes

We have previously demonstrated that neuropeptide-EI, at high doses, stimulates the production of cAMP, in caudate putamen, through the activation of adenylate cyclase coupled to specific D₁ receptors. The aim of the present work was to find evidences for a probable interaction between this neuropeptide and the dopamine D₁ receptor in the mammalian central nervous system. The present data show that neuropeptide-EI, at high concentrations, affected both the maximum binding and the apparent affinity of [n-methyl-³H] (R)-(+)-8 chloro-2,3,4,5- tetrahydro-3-methyl-5-phenyl-1H-3-benzazepin-7-ol hemimaleate to the dopamine D₁ receptor in a concentration-dependent manner.     

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.     

Characterization of rat and human CYP2J enzymes as Vitamin D 25-hydroxylases

vitamin D is 25-hydroxylated in the liver, before being activated by 1alpha-hydroxylation in the kidney. Recently, the rat cytochrome P450 2J3 (CYP2J3) has been identified as a principal vitamin D 25-hydroxylase in the rat [Yamasaki T, Izumi S, Ide H, Ohyama Y. Identification of a novel rat microsomal vitamin D3 25-hydroxylase. J Biol Chem 2004;279(22):22848-56]. In this study, we examine whether human CYP2J2 that exhibits 73% amino acid homology to rat CYP2J3 has similar catalytic properties. Recombinant human CYP2J2 was overexpressed in Escherichia coli, purified, and assayed for vitamin D 25-hydroxylation activity. We found significant 25-hydroxylation activity toward vitamin D3 (turnover number, 0.087 min(-1)), vitamin D2 (0.16 min(-1)), and 1alpha-hydroxyvitamin D3 (2.2 min(-1)). Interestingly, human CYP2J2 hydroxylated vitamin D2, an exogenous vitamin D, at a higher rate than it did vitamin D3, an endogenous vitamin D, whereas, rat CYP2J3 hydroxylated vitamin D3 (1.4 min(-1)) more efficiently than vitamin D2 (0.86 min(-1)). Our study demonstrated that human CYP2J2 exhibits 25-hydroxylation activity as well as rat CYP2J3, although the activity of human CYP2J2 is weaker than rat CYP2J3. CYP2J2 and CYP2J3 exhibit distinct preferences toward vitamin D3 and D2.     

Effect of exercise on hyperactivity,impulsivity and dopamine D2 receptor expression in the substantia nigra and striatum of spontaneous hypertensive rats

[Purpose]

Attention-deficit/hyperactivity disorder (ADHD) is a heritable, chronic, neurobehavioral disorder that is characterized by hyperactivity, inattention, and impulsivity. It is commonly believed that the symptoms of ADHD are closely associated with hypo-function of the dopamine system. Dopamine D₂ receptor activation decreases the excitability of dopamine neurons, as well as the release of dopamine. Physical exercise is known to improve structural and functional impairments in neuropsychiatric disorders. We investigated the therapeutic effect of exercise on ADHD.

[Methods]

Open field task and elevated-plus maze task were used in the evaluation of hyperactivity and impulsivity, respectively. Dopamine D₂ receptor expression in the substantia nigra and striatum were evaluated by western blotting.

[Results]

The present results indicated that ADHD rats showed hyperactivity and impulsivity. Dopamine D₂ receptor expression in the substantia nigra and striatum were increased in ADHD rats. Exercise alleviated hyperactivity and impulsivity in ADHD rats. Furthermore, dopamine D₂ receptor expression in ADHD rats was also decreased by exercise.

[Conclusion]

We thus showed that exercise effectively alleviates ADHD-induced symptoms through enhancing dopamine D₂ expression in the brain.     

Coupling of dopamine receptors to G proteins: studies with chimeric D2/D3 dopamine receptors

D₂ and D₃ dopamine receptors belong to the superfamily of G protein-coupled receptors; they share a high degree of homology and are structurally similar. However, they differ from each other in their second messenger coupling properties. Previously, we have studied the differential coupling of these receptors to G proteins and found that while D₂ receptor couples only to inhibitory G proteins, D₃ receptor couples also to a stimulatory G protein, Gs. We aimed to investigate the molecular basis of these differences and to determine which domains in the receptor control its coupling to G proteins. For this purpose four chimeras were constructed, each composed of different segments of the original D₂ and D₃ receptors. We have demonstrated that chimeras with a third cytoplasmic loop of D₂ receptor couple to Gi protein in a pattern characteristic of D₂ receptor. On the other hand chimeras containing a third cytoplasmic loop of D₃ receptor have coupling characteristics like those of D₃ receptor, and they couple also to Gs protein. These findings demonstrate that the third cytoplasmic loop determines and accounts for the coupling of dopamine receptors D₂ and D₃ to G proteins.     

GABA-Dopamine Receptor-Receptor Interactions in Neostriatal Membranes of the Rat

Recent evidence has shown in membrane preparations that the binding of one ligand to its receptor is able to modify the binding parameters of a second receptor (receptor-receptor interactions), allowing the modulation of incoming signals onto a neuron. To further understand the -amino-butyric acid (GABA)-dopamine (DA) interactions in the neostriatum we have carried out experiments to explore whether an activation of the GABA_A receptor could affect the binding characteristics of the D₂ DA receptor in membrane preparations of the rat neostriatum. The results show that GABA (30–100 nM) significantly increases the dissociation constant of the high affinity (K_H) D₂ DA binding site (labelled with the selective D₂ DA receptor antagonist [³H]raclopride and that such an effect is fully counteracted by the GABA_A receptor antagonist bicuculline (1 M). It is suggested that such putative GABA_A/D₂ receptor-receptor interactions may take place in the somato-dendritic membrane of the striato-pallidal GABA neurons and that it may modulate the inhibitory effects of DA on these neurons, mediated via D₂ receptors.