Effect of Glycogen Synthase Kinase 3-β on the Acquisition & Expression of Intra-Accumbal Amphetamine-Induced Conditioned Place Preference in Rats

Quartarone, Susan

03 January 2014

Dopamine (DA) drives incentive learning: learning which is elicited through rewarding stimuli. Irregularities in DA activity are associated with various psychological disorders. Glycogen synthase kinase-3β (GSK3β), a molecule downstream of DA receptors, has been implicated in mediating dopaminergic behaviour, and unbalanced DA activity is associated with concomitant irregularities in GSK3β signaling. Inhibition of this molecule has been noted to attenuate behavioural sensitization, and decrease psychotomimetic behaviour in animals. Few studies have assessed the role of GSK3β in the conditioned place preference (CPP) paradigm, which evaluates the rewarding properties of substances and has been used to model psychosis. CPP can be examined through either acquisition or expression paradigms, which look at the active learning process vs. the recall of learned information respectively. We tested the hypothesis that selective inhibition of GSK3β with SB 216763 will differentially and dose-dependently affect the acquisition and expression of amphetamine (AMPH) CPP, as well as attenuate AMPH locomotor activity in acquisition. All drugs and vehicles were administered via intra-cranial microinfusions into the nucleus accumbens. AMPH was administered at a dose of 20.0 μg/0.5 μl/side. SB 216763 was tested at four doses (0.03, 0.30, 3.00, & 5.00 μg/0.5 μl/side) in both acquisition and expression. We found administering SB 216763 at all doses to attenuate AMPH CPP and locomotor activity in acquisition. At doses 0.30, 3.00, & 5.00 μg/0.5 μl/side, SB 216763 also blocked AMPH CPP at expression. These results lend support to GSK3β’s involvement in incentive learning and DA-mediated behaviours, and suggest its inhibition may differentially affect the acquisition and expression of AMPH CPP. / Thesis (Master, Psychology) -- Queen's University, 2014-01-03 15:41:20.989

D2 receptor

Incentive learning

Locomotor activity

Behaviour

SB 216763

Dopamine

Differential Pharmacological Profiles of Operant Acquisition, Operant Expression, and Decision-Making Performance As Tested By Antipsychotics and Other Dopaminergic Drugs

Baker, Tyson

15 March 2013

Operant acquisition, operant expression, and decision-making differentially rely on brain areas that are differentially affected by antipsychotic and other dopaminergic drugs. The purpose of this thesis was to test if the known differential pharmacological and location of action of antipsychotic and other dopaminergic drugs predict the drug effects on operant acquisition, operant expression, and decision-making. Clozapine and to a lesser extent, risperidone but not metoclopramide or haloperidol affect the prefrontal cortex (PFC); haloperidol, metoclopramide, and to a lesser extent, risperidone affect the dorsolateral striatum (DLS). We used amphetamine as a broadly-acting indirect dopamine (DA), serotonin (5-HT), and norepinephrine agonist. We found that all antagonists altered operant acquisition and expression, but in different ways. The DA D2-like receptor antagonists blunted reinforcement impact during operant acquisition and induced an extinction-like decline in expression whereas the atypical antipsychotics with high PFC 5-HT-2A affinity maintained inactive lever presses during acquisition, but produced tolerance in expression. Curiously, risperidone and metoclopramide, but not clozapine or haloperidol, more potently suppressed lever pressing in acquisition than expression. In contrast, amphetamine suppressed operant expression, but not acquisition, at a dose range that increased locomotion and induced conditioned place preference. Amphetamine decreased sensitivity to reward presentation and inactive lever pressing during operant acquisition, but had the opposite effects during expression. A very different pattern was found in the rodent gambling task (rGT), a model of the 4- choice (deck) Iowa Gambling Task used in humans. The rGT puts small, immediate rewards that are advantageous in the long-term due to generally fewer and shorter associated penalties in conflict with large, immediate rewards that are disadvantageous in the long-term due to generally more and longer associated penalties. Two antipsychotics (risperidone, haloperidol) but not the anti-emetic (metoclopramide) enhanced performance by shifting preferences towards advantageous options, but the antipsychotic that induces PFC Fos (clozapine) impaired performance. Amphetamine decreased discrimination among different decks in the rGT. These data demonstrate the differential effects of clinically relevant drugs on decision-making and different stages of operant learning. The differential effects on operant responding and decision-making of different antipsychotic drugs provide important information regarding their therapeutic and side-effect profiles. / Thesis (Ph.D, Psychology) -- Queen's University, 2013-03-14 16:12:57.629

Operant Acquisition

Iowa Gambling Task

Dopamine

Decision-Making

Antipsychotic

Amphetamine

Rodent Gambling Task

Haloperidol

Risperidone

Operant Expression

Metoclopramide

Clozapine

Instrumental

Incentive Learning

Reinforcement Blunting

Operant