Dopamine D2 Partial Agonist Research Articles

Radiosynthesis, ex vivo and in vivo evaluation of [11C]preclamol as a partial dopamine D2 agonist radioligand for positron emission tomography

Dopamine D2 partial agonists have been successfully used as schizophrenia therapeutics. Radiolabeled D2 partial agonists may have application in elucidating dopaminergic transmission. It was the goal of this work to radiolabel (S)-(-)propyl-3-(3-hydroxyphenyl)piperidine (preclamol; (-)3-PPP), a partial dopamine D2 agonist with carbon-11 (half-life=20.4 min) and to evaluate this novel radiopharmaceutical for dopaminergic imaging in rodent models. [11C]Preclamol was synthesized by acylation of (S)-3-(3-hydroxyphenyl)piperidine hydrochloride with [11C]propionyl chloride, followed by LiAlH4 reduction, and HPLC purification. Male Sprague-Dawley rats were injected in the tail vein with a saline solution of [11C]preclamol (1.1 mug/kg) and sacrificed at 5, 15, 30 and 60 min postinjection. Brain regions were excised, weighed, and measured for radioactivity. In vivo binding kinetics of [11C]preclamol were determined with beta-sensitive microprobes implanted into the striatum and cerebellum of an anesthetized rat. A full production of [11C]preclamol resulted in 34 mCi ready for injection (corresponding to 4% uncorrected radiochemical yield, based on starting [11C]CO2) with specific activity of 535 mCi/micromol. The total synthesis time was 45 min and resulted in chemically and radiochemically pure [11C]preclamol (>99%; n=3). High levels of radioactivity were observed in rat brain indicating good blood-brain barrier penetration of [11C]preclamol, with 0.5 to 0.7% injected dose per gram of wet tissue present in all brain regions at 5 minutes postinjection. Unfortunately, [11C]preclamol displayed minimal preferential uptake in dopaminergic brain regions. A low striatal specific binding (SB) ratio of 0.32 was determined ex vivo at 60 min postinjection and was in close agreement with the microprobe study over 60 min (peaked at 27 min postinjection; SB ratio=0.6). The binding potential value was only 0.34 over a 1 hour time course, suggesting that [11C]preclamol is not suitable for cerebral PET studies.

Aripiprazole: a partial dopamine D2 receptor agonist antipsychotic

This paper reviews the clinical pharmacology, efficacy and safety of the novel antipsychotic drug aripiprazole. All published citations regarding aripiprazole were reviewed using a Medline® search (completed for citations through mid-year, 2002). In addition, abstracts from recent scientific meetings presenting data not yet published (nor peer-reviewed) were reviewed. Aripiprazole has a unique mechanism of action as a dopamine D2 partial agonist, serotonin 5-HT1A partial agonist and serotonin 5-HT2A antagonist. Like other new antipsychotics, aripiprazole has the profile of an atypical agent, with efficacy in the treatment of positive and negative symptoms of psychosis as well as mood symptoms, a low rate of neurological side effects and no significant adverse effect on serum prolactin concentrations. In addition, aripiprazole was not associated with significant weight gain or QTc prolongation in both acute and long-term treatment trials.

Application of comparative molecular field analysis to dopamine d2 partial agonists

Comparative molecular field analysis (CoMFA) has been applied to novel D2 partial agonists. Due to the predictability of the CoMFA model across different series of D2 partial agonists, we believe these compounds are binding to the D2 agonist receptor in the conformation and alignment described herein.

New generation dopaminergic agents. 2. Discovery of 3-OH-phenoxyethylamine and 3-OH-N1-phenylpiperazine dopaminergic templates.

Described in this report is a systematic study which led to the identification of two new dopamine D2 partial agonists (5 and 17). Phenols 5 and 17 represent prototypes of two new classes of D2 partial agonists as well as templates for the future design of novel dopaminergic agents.

Effects of dopamine agonists and antagonists on cocaine-induced operant responding for a cocaine-associated stimulus.

The present study examined the effects of receptor subtype-selective dopamine agonists and antagonists on (i) cocaine-induced responding for a cocaine-associated stimulus and (ii) on responding for food and cocaine reinforcement. Rats implanted with intravenous catheters were trained to lever-press for food or cocaine reinforcers on an FR5-FR5 multiple schedule, which was preceded by a 5-min component during which only stimuli previously associated with the primary reinforcers were available response-contingently. (i) Non-contingent delivery of cocaine at the beginning of the stimulus component significantly increased responding for the cocaine-associated stimulus, compared to responding for the food-associated cue. Changes in the dose of cocaine administered non-contingently before the stimulus component resulted in an inverted U-shaped dose-effect curve in responding for the cocaine-associated cue. In subsequent experiments, pretreatment with the dopamine D2 receptor agonist bromocriptine (4.0-16.0 mg/kg IP) attenuated the cocaine-induced increase in responding for the cocaine-associated cue. In contrast, pretreatment with low doses of SDZ 208-911, a dopamine D2 partial agonist (0.025-0.1 mg/kg SC), further potentiated the cocaine-induced response. Pretreatment with low and medium doses of the dopamine D1 and D2 receptor subtype-selective antagonists SCH 23390 (D1; 5-10 micrograms/kg SC) and raclopride (D2; 100-200 micrograms/kg SC) blocked responding for cocaine-associated cues, with SCH 23390 acting more selectively than raclopride. At higher doses (SCH 23390: 20 micrograms/kg SC; raclopride: 400 micrograms/kg SC), both drugs produced non-selective effects by inhibiting responses for the food-associated cue. (ii) Varying the dose of cocaine self-administered during the multiple schedule resulted in an inverted U-shaped dose-effect curve during the cocaine components, while the number of food pellets earned remained unchanged. Pretreatment with bromocriptine selectively reduced the number of cocaine infusions obtained. The compensatory increases in responding for cocaine typically associated with SCH 23390, raclopride or SDZ 208-911 pretreatment were also observed under the present schedule conditions, although the effect did not reach statistical significance in the case of SCH 23390 and raclopride, possibly due to methodological constraints. The results indicate that the present rat model of cocaine-seeking behavior is sensitive to pharmacological manipulations and may yield important information regarding the neurobiological mechanisms underlying conditioned and unconditioned reinforcing aspects of cocaine addiction.

Terguride, a dopamine D2 partial agonist, as a discriminative stimulus in rats

Drug discrimination training with terguride, a 9, 10-transdihydrogenated derivative of lisuride, was carried out using a two-lever food-reinforced procedure (FR 10) in rats, to investigate its influence on central dopaminergic (DA) and serotonergic (5-HT) functions. The terguride (0.05mg/kg, i.p.) discrimination was established within 64 +/- 5 training sessions (mean +/- S.E.) and was stably maintained thereafter. Higher doses of terguride could not be used for discriminative training due to response disruption. In generalization tests with terguride, drug-appropriate responding increased dose-dependently and reached levels of 45 and 99% at 0.01 and 0.05mg/kg i.p. The D(2) agonist lisuride at low doses and the DA autoreceptor agonist (-)-3-PPP substituted for terguride. The DA agonist apomorphine and the 5-HT agonist 5-MeO-DMT produced dose-dependent but incomplete substitution. The D(1) agonist SKF38393, the DA antagonist haloperidol, the D(2) antagonist sulpiride, the D(1) antagonist SCH23390, the 5-HT(1A) agonist 8-OH-DPAT, the 5-HT(1B) agonist m-CPP and the 5-HT(2) agonist DOI were not generalized. In antagonism tests, sulpride completely blocked the terguride-appropriate response, but SCH23390 and the 5-HT antagonist methysergide did not. These results indicate that discriminative stimulus properties of terguride in rats are mediated primarily by activation of receptors with characteristics similar to those of presynaptic D(2) autoreceptors.

Unusual interactions between the neuroleptic haloperidol, and the dopamine D2 partial agonist, terguride

Terguride is an ergoline derivative which has been reported to act as a partial agonist at central dopamine D2 receptors. Depending on the state of the receptor, terguride may resemble an agonist or an antagonist in its pharmacological effects. The present study investigated interactions of terguride with the dopamine D2 antagonist haloperidol in the rat. Terguride (0.025 mg/kg, i.p.) lowered, whereas haloperidol (0.025 mg/kg, s.c.) increased serum prolactin levels. When given together there was a tendency for prolactin to be lowered, i.e. terguride fully antagonized the action of haloperidol. Both terguride and haloperidol dose-dependently reduced locomotor activity, with terguride being at least 50 times more potent. However, in the presence of a subthreshold dose of haloperidol (0.1 mg/kg), terguride was effective in reducing locomotor activity. Terguride and haloperidol were equally potent in disrupting performance of lever pressing for food on a VI 120 sec schedule (ED(50) values 0.22 and 0.28 mg/kg, respectively). When given together, there was a statistically significant interaction; a terguride dose of 0.2 mg/kg lowered rates of lever pressing when given with vehicle or a low (0.03 mg/kg) haloperidol dose, but antagonized the effect of 0.3 mg/kg haloperidol. Terguride dose-dependently disrupted lever pressing for intracranial stimulation reward (ED(50) value approx. 0.3 mg/kg). Haloperidol (0.26 mg/kg) also disrupted lever pressing but the two drugs together showed no greater effect than haloperidol alone. These observations are discussed in the context of terguride's suggested partial agonistic properties.