Global ETD Search

591	Modulation of Dopaminergic System Ontogeny by Low-Level Lead Exposure: A Potential Underlying Mechanism for the Onset of Drug Sensitization Soares, Barbara Domingos January 2016 (has links) Lead (Pb²⁺) is an environmental toxin that is known to cause lasting cognitive deficits following early life exposure. Previously, our laboratory demonstrated increased sensitivity to the psychostimulant effects of cocaine in animals with elevated blood Pb²⁺ levels (BLL). This effect was abolished following introduction of dopamine (DA) receptor antagonists, indicating that the dopaminergic (DAergic) system may be a target of Pb²⁺’s toxic effects. However, the biological mechanisms through which Pb²⁺ increased sensitization to cocaine’s psychostimulant effects have not been fully elucidated. There is some disagreement regarding the magnitude and direction of Pb²⁺’s effects on the DAergic system. Furthermore, many studies to date have measured the effects of Pb²⁺ in only one sex (usually male), one exposure, and one or two time-points, making it difficult to determine any potential sex-, age-, and exposure-dependent effects. In the present study, we used a well-validated animal model and Pb²⁺ exposure paradigm that uses chronic dietary exposure to 180ppm and 1500ppm Pb²⁺ acetate (PbAC) in the diet. These levels of Pb²+ in the diet resulted in low and moderate levels of BLLs that on average approximated 4.5 and 22.0µg/dl in young adult rats. These levels of Pb²⁺ exposure are relevant to contemporary levels of BLL in intoxicated children in many cities in the United States and in many parts of the world where Pb²⁺ exposure continues to be a major public health concern. It should be noted that at the low level of Pb²⁺ exposure, the resulting BLL of 4.5µg/dl is just below the current CDC level of action. Using this well-defined rat model of chronic Pb²⁺ exposure, in Aim 1, we measured DA concentration and turnover in the dorsal striatum (STR) of juvenile (PN14), adolescent (PN28), and young adult (PN50) male and female rats. Tyrosine hydroxylase (TH) protein, the rate-limiting step in the synthesis of DA, and phosphorylation of TH at serine 40 (pser40TH) were assessed as an indirect measure of TH activity. Thus, we measured the ratio of pser40TH to total TH protein. We also measured vesicular monoamine transporter-type 2 (VMAT2) levels in the STR, nucleus accumbens (NAC), and olfactory tubercle (OT) since this protein is critical for the sequestration of DA in presynaptic vesicles and has been used as a biomarker for DA terminal integrity. In Aim 2, we examine the effect of chronic Pb²⁺ exposure on D1 and D2 dopamine receptor (D1R and D2R) in the OT, NAC, and STR. Analysis of D1R and D2R is important since the downstream effects of DA are dependent on the DA receptor subtype it activates. In Aim 1, we observed significant increases in DA and its metabolites homovanillic acid (HVA) and 3,4-Dihydroxyphenylacetic acid (DOPAC) in the STR of adolescent and young adult male rats with BLL as low as 4.5µg/dl in the absence of phosphorylation at the serine 40 residue of TH or altered VMAT2 levels. In Aim 2, a significant increase in D2R was detected in the juvenile male rat STR. We also observed increases in D1R expression in adolescent male rats in the NAC, OT, STR, and in the OT of adolescent female rats. Together, these results demonstrate that chronic Pb²⁺ exposure alters DA receptor levels in a manner characteristic of a hyperactive DAergic state. The observations presented in this work suggest that a hyperactive DAergic system underlies the heightened sensitization to cocaine we previously observed in Pb²⁺-exposed animals. This work builds upon the current understanding of how Pb²⁺ modulates the DAergic system and provides some elucidation of the mechanisms underlying increased drug sensitization our laboratory has previously observed in rats exposed to Pb²⁺. Lead--Toxicology Lead--Environmental aspects Lead poisoning Dopamine--Antagonists Homovanillic acid Lead Environmental health Toxicology Neurosciences
592	Contributions of COMT and DAT to regulation of phasic dopamine release and reward-guided behaviour Korn, Clio January 2016 (has links) Fine temporal regulation of dopamine transmission is critical to its effects on behaviour. Dopamine can be cleared from the synapse either by recycling via the dopamine transporter (DAT) or by enzymatic degradation involving catechol-O-methyltransferase (COMT). DAT recycling predominates in striatum and contributes to dopaminergic regulation of reward-guided behaviour, while COMT degradation predominates in cortex and modulates executive functions. However, human functional imaging studies demonstrate interactive effects of DAT and COMT genotype, suggesting that the traditional division between DAT and COMT is not so clear-cut. Given the interdependence of mesolimbic and mesocortical circuitry and the presence of COMT in the striatum, it is possible that DAT and COMT interact to a greater extent than previously thought. We investigated the contributions of DAT and COMT to regulation of dopamine transmission and reward-guided behaviour by combining in vivo electrochemical recording, pharmacology, and behavioural testing in mice. Using fast scan cyclic voltammetry to record evoked dopamine release in anaesthetised animals, we found that systemic DAT blockade increased the size of dopamine transients in the nucleus accumbens (NAc) but not in the medial frontal cortex (MFC), demonstrating that DAT regulates phasic striatal dopamine release and confirming that DAT makes little contribution to regulation of cortical dopamine transmission. Unexpectedly, COMT inhibition did not affect evoked dopamine transients in either the NAc or the MFC. In agreement with these findings, systemic administration of a DAT blocker, but not of a COMT inhibitor, increased motivation to work for reward in a progressive ratio paradigm. COMT inhibition also had little effect on reinforcement learning (RL) strategies during reward-guided decision making. Intriguingly, however, we found that DAT blockade both decreased the influence of model-free RL and increased the influence of model-based RL on behaviour. Our study confirms that DAT regulates dopamine transmission in striatum but not in cortex and indicates that sub-second changes in dopamine transmission in both regions are largely insensitive to COMT. However, our behavioural data reveal the importance of striatal dopamine in multiple components of reward-guided behaviour, including both motivational aspects traditionally associated with striatum as well as cognitive aspects heretofore mainly associated with cortical function. Together, these findings emphasise that reward processing occurs across corticostriatal circuits and contribute to our understanding of how striatal dopamine transmission regulates reward-guided behaviours. 616.89
593	Les récepteurs dopaminergiques D5 du noyau sous-thalamique : implication dans la physiopathologie de la maladie de Parkinson Chetrit, Jonathan 02 December 2009 (has links) L’une des caractéristiques électrophysiologiques majeure de la maladie de Parkinson est l’émergence de bouffées de potentiels d’action au niveau du noyau sous-thalamique (NST). Des travaux récents menés in vitro ont soulevé l’hypothèse de l’implication des récepteurs dopaminergiques D5 (RD5) dans la genèse de cette activité pathologique. Nous avons mis en évidence que les RD5, seuls récepteurs D1-like exprimés au niveau du NST, présentent une activité constitutive in vivo, et que celle-ci est bloquée par l’injection locale d’a-flupentixol. Le blocage de cette activité intrinsèque d’une part, améliore le comportement locomoteur d’animaux rendu hémiparkinsonien, et d’autre part réduit la tendance des neurones du NST à décharger en bouffées in vivo et in vitro, signature physiopathologique de la maladie de Parkinson. L’ensemble de ces données souligne le rôle clé des RD5 dans la physiopathologie de la maladie de Parkinson, ce qui ouvre la voie à de nouvelles approches thérapeutiques… Outre cette propriété d’agoniste inverse des RD5, l’a-flupentixol est connu pour ses propriétés antipsychotiques en tant qu’antagoniste des RD2. C’est pourquoi lorsqu’il est injecté de façon systémique il induit des troubles moteurs et une catalepsie caractérisés de syndrome extrapyramidaux, même chez les animaux contrôles. Les mécanismes électrophysiologiques qui sous-tendent cet état cataleptique n’ayant jamais été étudié auparavant, nous avons mis en évidence que l’administration, par voie intra-péritonéale, d’a- flupentixol induit des changements drastiques de l’activité électrique au sein du réseau des ganglions de la base. En effet, nous avons observé une augmentation de la fréquence de décharge des neurones du globus pallidus et une diminution de celle-ci au niveau du NST et de la substance noire pars reticulata, accompagnée d’une désorganisation de l’activité électrique au niveau de ces deux noyaux. Cette étude offre une vue d’ensemble sur les mécanismes électrophysiologiques à l’origine des effets secondaires extrapyramidaux induits par les antipsychotiques, et souligne le caractère fondamental de la désorganisation de l’activité électrique des ganglions de la base dans les troubles moteurs. / Burst-firing in the subthalamic nucleus (STN) is a hallmark of Parkinson’s disease. Previous in vitro studies have raised the hypothesis of the involvement of dopamine D5 receptor (D5R) in the genesis of this pathological activity. Here we have shown that D5R exert a constitutive activity in vivo, which can be blocked by local application of a-flupentixol. Blockade of this intrinsic activity improved locomotor behaviour in an animal model of Parkinson’s disease and alleviate burst-firing of STN neurons both in vitro and in vivo. Taken together, these results highlight the key role play by local D5R in the pathophysiology of Parkinson’s disease and open the way to new pharmacological treatment of the disease… In addition to this property D5R inverse agonist, a-flupentixol is known for its antipsychotic properties as a D2R antagonist. Therefore, when injected systemically, it induced motor disturbances and catalepsy characterized as extrapyramidal motor side-effects. The electrophysiological mechanisms underlying this cataleptic state had never been studied before. Here we have demonstrated that the intra-peritoneal administration of a-flupentixol induced dramatic changes in the electrical activity of the basal ganglia network. Indeed, we observed an increase in firing rate of globus pallidus neurons and a decrease in both STN and substantia nigra pars reticulata, accompanied by a disorganisation of the electrical activity of these two nuclei. This study provides an overview of the electrophysiological mechanisms underlying extrapyramidal motor side-effects induced by antipsychotics, and stresses the fundamental nature of the disorganisation of the electrical activity in the basal ganglia network as a source of movement disorders. Maladie de Parkinson Antipsychotiques Noyau sous-thalamique Syndromes extrapyramidaux Récepteur D5 Dopamine Parkinson's Disease Subthalamic nucleus Dopamine D5 receptor
594	Contrôle dopaminergique de la motricité au niveau cortical et striatal / Dopaminergic control of motor function in the cortex and the striatum Vitrac, Clément 24 September 2014 (has links) Le cortex moteur primaire et le striatum permettent la planification et la sélection de mouvements. La dopamine régule l'activité des neurones dans ces deux structures. La perte des neurones à dopamine projetant de la substance noire compacte vers le striatum est à l'origine de troubles moteurs observés dans la maladie de Parkinson. Nous avons caractérisé le contrôle par la dopamine des neurones du cortex moteur primaire chez la souris et avons démontré que les fibres dopaminergiques innervent préférentiellement la représentation des membres antérieurs dans les couches corticales profondes. Nous avons montré que la dopamine module localement l’activité électrophysiologique des neurones cortico-striataux via les récepteurs D2. Ces résultats montrent que la dopamine peut exercer un contrôle direct sur la motricité au niveau des neurones du cortex moteur primaire. Nous avons par la suite déterminé le potentiel des thérapies cellulaires dans un modèle animal de la maladie de Parkinson. Les approches actuelles privilégient la greffe ectopique de neurones à dopamine dans la région cible, le striatum. Nous avons choisi une approche alternative consistant à pratiquer la greffe au niveau de la région lésée, la substance noire compacte. Nous avons montré chez la souris que la lésion des neurones dopaminergiques altère les propriétés électrophysiologiques des neurones du striatum et que la greffe homotopique de neurones entraîne une meilleure récupération de ces caractéristiques électrophysiologiques que la greffe ectopique dans le striatum.Ces résultats ouvrent des perspectives d'étude des effets de la greffe homotopique sur l'activité des autres structures contrôlant la motricité. / Primary motor cortex and striatum are involved in movement planification and selection. Dopamine regulates the neuronal activity of these two structures. The motor impairments observed in Parkinson's disease originates from the loss of dopamine neurons projecting from the substantia nigra pars compacta to the striatum.We characterized the dopaminergic control of the neurons of primary motor cortex in mice and we demonstrated that dopaminergic fibers preferentially innervate the forelimb representation map in the deep cortical layers. Furthermore, we demonstrated that dopamine locally modulates the electrophysiological activity of the cortico-striatal neurons through D2 receptors. These results show that dopamine can directly control motor function by influencing neuronal activity in primary motor cortex.Thereafter, we determined the potential of cell replacement therapies in an animal model of Parkinson's disease. In most studies, the transplanted dopamine neurons have been placed within the striatum. We have chosen an alternative approach by grafting neurons into the lesioned nucleus, substantia nigra. We showed in mice that the lesion of dopaminergic neurons impaired the electrophysiological properties of the striatal neurons. Whereas these properties are not fully restored with an intra-striatal transplant, all the electrophysiological characteristics are recovered with an intra-nigral graft. This result opens new perspectives to study the homotopic graft effects on the activity of the other structures controlling motor function. Cortex moteur primaire Striatum Dopamine Parkinson Électrophysiologie in vivo Primary motor cortex Striatum Dopamine Parkinson In vivo electrophysiology 612.804 2
595	Importance de la neurotransmission dopaminergique et des récepteurs D3 dans les déficits motivationnels observés dans la maladie de Parkinson : approche expérimentale chez le rat / Involvment of dopaminergic neurotransmission and D3 receptors in Parkinson's disease-related motivational deficits : experimental study in rat Favier, Mathieu 05 June 2014 (has links) Au delà des symptômes moteurs classiques de la maladie de Parkinson (MP), d'autres troubles comportementaux, émotionnels, ou cognitifs sont fréquemment observés chez le patient parkinsonien. L'apathie, définie comme une réduction des comportements motivés, est l'un des troubles neuropsychiatriques les plus souvent rapportés en clinique, en particulier chez les patients traités par stimulation haute fréquence du noyau sous-thalamique. De nombreuses données récentes ont permis de suggérer que la résurgence de l'état apathique chez ces patients stimulés pourrait être liée à la diminution du traitement dopaminergique. Plus précisément, il semble que ce déficit motivationnel puisse s'expliquer, au moins en partie, par un hypofonctionnement affectant le système dopaminergique. En se basant sur des approches de lésions sélectives, partielles et bilatérales des neurones dopaminergiques du mésencéphale, notre laboratoire a récemment développé un modèle animal chez le rat reproduisant un déficit motivationnel pouvant s'apparenter à l'apathie parkinsonienne. L'objectif de ce travail doctoral a été d'élucider les mécanismes neurobiologiques qui sont à l'origine de l'apparition du déficit motivationnel observé dans ce modèle animal (rat 6-OHDA SNc). Dans une première partie, en utilisant la microdialyse intracérébrale, nous avons analysé les modifications neurochimiques induites par les lésions mésencéphaliques réalisées, au sein de différents territoires cibles (le noyau accumbens ou N.Acc et le striatum dorsolatéral ou DLS) des projections dopaminergiques ascendantes. Nous avons ainsi pu montrer que le DLS est affecté par une situation d'hypodopaminergie chez les rats 6-OHDA SNc. Dans une deuxième partie expérimentale, nous avons étudié les modifications d'expression du transporteur de la dopamine et des récepteurs D1, D2 et D3 (RD3), au niveau du mésencéphale et des territoires de projections dopaminergiques. Cette étude autoradiographique nous a permis de mettre en évidence une diminution d'expression des RD3 qui concerne spécifiquement le DLS chez les rats 6-OHDA SNc. Enfin, dans une troisième partie, nous avons utilisé des approches de micro-injections in situ avec des antagonistes dopaminergiques sélectifs, qui nous ont permis de caractériser le rôle fonctionnel des RD3 au sein du striatum dorsal (DLS et striatum dorsomédian) et du N.Acc dans les comportements motivés. Les données pharmaco-comportementales que nous avons obtenues suggèrent une implication centrale de la neurotransmission médiée par les RD3 dorsostriataux dans les processus motivationnels qui sous-tendent le phénotype apathique observé dans notre modèle animal. Au total, les données obtenues au cours de ce travail doctoral confirment l'implication de la voie dopaminergique nigro-striée, et en particulier du DLS, dans la physiopathologie des troubles apathiques. De plus, cette étude a permis d'identifier les RD3 comme une cible thérapeutique intéressante pour améliorer les troubles motivationnels de la MP. / Beyond the classical motor symptoms of Parkinson's disease (PD), behavioural, emotional or cognitive impairments are also commonly observed in PD patients. Apathy, which is defined as a decrease in motivated behaviours, is one of the most frequently reported neuropsychiatric symptom in PD, especially in patients with high frequency stimulation of the subthalamic nucleus. A growing body of data suggests that the resurgence of an apathetic state in these stimulated patients may be linked, at least in part, to a dopaminergic hypofunction. Through neurotoxic selective, partial and bilateral lesion-based approaches of mesencephalic dopaminergic neurons, we recently developed in the laboratory an experimental model in the rat of motivational deficits that are reminiscent of the Parkinsonian apathy. The aim of this thesis was to better understand the neurobiological mechanisms underlying the motivational deficits observed in this animal model (6-OHDA-SNc rats). In a first part, we have investigated, with intracerebral microdialysis, the neurochemical alterations induced by our lesional approach of the main projection territories of the mesencephalic dopaminergic neurons, namely the nucleus accumbens (N.Acc) and the dorsolateral striatum (DLS). Hence, we have confirmed the presence of a hypodopaminergic state within the DLS, in our 6-OHDA-SNc experimental model. Next, we have studied the modifications of dopamine transporter and D1, D2 and D3 receptors (D3R) expression in different mesencephalic and striatal sub-regions. In this autoradiographic study, we have found a specific decrease in D3R levels within the DLS of 6-OHDA-SNc rats. Lastly, in a third part, we set out to determine the functional implication of D3R in motivated behaviors, with in situ microinjections of selective dopaminergic receptor subtype antagonists within the DLS, the dorsomedial striatum and the N.Acc. The psychopharmacological data obtained, suggest a central role of dorsostriatal D3R-mediated neurotransmission in the motivational processes that underlie the apathetic-like phenotype observed in our model. Finally, the data obtained during this doctoral work confirm the implication of the nigrostriatal dopaminergic pathway, and particularly of the DLS, in the pathophysiology of apathy. Moreover, we identified the D3R as a potential interesting target for treating motivational impairments in PD. Apathie Dopamine 6-hydroxydopamine Microdialyse Maladie de Parkinson Récepteur D3 Apathy Dopamine 6-hydroxydopamine Microdialysis Parkinson's disease D3 receptor 610
596	Effects of Environmental Enrichment on Nicotine Sensitization in Rats Neonatally Treated with Quinpirole: Analyses of Glial Cell Line-Derived Neurotrophic Factor and Implications towards Schizophrenia Brown, Russell W., Schlitt, Marjorie A., Owens, Alex S., DePreter, Caitlynn C., Cummins, Elizabeth D., Kirby, Seth L., Gill, W. Drew, Burgess, Katherine C. 01 January 2018 (has links) The current study analyzed the effects of environmental enrichment versus isolation housing on the behavioral sensitization to nicotine in the neonatal quinpirole (NQ; dopamine D2-like agonist) model of dopamine D2 receptor supersensitivity, a rodent model of schizophrenia. NQ treatment in rats increases dopamine D2 receptor sensitivity throughout the animal's lifetime, consistent with schizophrenia. Animals were administered NQ (1 mg/kg) or saline (NS) from postnatal day (P)1 to P21, weaned, and immediately placed into enriched housing or isolated in wire cages throughout the experiment. Rats were behaviorally sensitized to nicotine (0.5 mg/kg base) or saline every consecutive day from P38 to P45, and brain tissue was harvested at P46. Results revealed that neither housing condition reduced nicotine sensitization in NQ rats, whereas enrichment reduced sensitization to nicotine in NS-treated animals. The nucleus accumbens (NAcc) was analyzed for glial cell line-derived neurotrophic factor (GDNF), a neurotrophin important in dopamine plasticity. Results were complex, and revealed that NAcc GDNF was increased in animals given nicotine, regardless of housing condition. Further, enrichment increased GDNF in NQ rats regardless of adolescent drug treatment and in NS-treated rats given nicotine, but did not increase GDNF in NS-treated controls compared to the isolated housing condition. This study demonstrates that environmental experience has a prominent impact on the behavioral and the neural plasticity NAcc response to nicotine in adolescence. dopamine dopamine receptor developing brain animal model neurotrophic factor nucleus accumbens schizophrenia Biomedical Sciences Substance Abuse and Addiction
597	The effects of some typical and atypical neuroleptics on gene regulation : implications for the treatment of schizophrenia Chlan-Fourney, Jennifer 01 January 2000 (has links) The mechanisms by which antipsychotics (neuroleptics) produce their therapeutic effects in schizophrenia are largely unknown. Although neuroleptic efficacy is attributed to central dopamine D2 and/or serotonin 5-HT2 receptor antagonism, clinical improvements in schizophrenia are not seen until two or three weeks after daily neuroleptic administration. The mechanisms underlying the neuroleptic response must therefore occur downstream from initial receptor blockade and be a consequence of chronic neurotransmitter receptor blockade. The goal of the present study was to use neuroleptics with varied dopamine vs. serotonergic receptor blocking profiles to elucidate some of these intracellular post receptor mechanisms. Since the final steps of both dopamine and serotonin synthesis require the enzyme aromatic L-amino acid decarboxylase (AADC), the effects of neuroleptics on AADC gene (mRNA) expression were examined in PC12 cells and compared to their effects on the synthetic enzyme tyrosine hydroxylase (TH) and ' c-fos' (an early immediate gene [IEG]) mRNA. The neuroleptics examined did not significantly regulate AADC mRNA in PC12 cells, and only haloperidol upregulated TH and 'c-fos' mRNA. Later studies in rats showed that acute neuroleptic administration increased ' c-fos' mRNA, whereas the immunoreactivity of a related IEG (delta FosB) was increased upon chronic treatment. These studies and a subsequent dose response study demonstrated that upregulation of both 'c-fos' mRNA and delta FosB immunoreactivity was most prominent in dopaminergic projection areas including the striatum and nucleus accumbens. Because it has been suggested that neuroleptic treatment might prevent neurodegeneration in schizophrenia, the effects of neuroleptics on the mRNA expression of neuroprotective target genes of delta FosB were examined both ' in vivo' and 'in vitro'. These genes included brain-derived neurotrophic factor (BDNF), the neuroprotective enzyme superoxide dismutase (SOD), and the low affinity nerve growth factor receptor (p75). While dopamine D2 blockade unfavorably regulated BDNF and p75 mRNA, 5-HT 2 blockade either had no effect on or favorably regulated BDNF, SOD, and p75 mRNA. Thus, although little about the contribution of serotonergic blockade in the neuroleptic response was determined, dopaminergic blockade regulated IEG's and several of their target genes. Future studies will be needed to understand the role of 5-HT2 receptor blockade in the neuroleptic response. serotonergic blockade serotonin blocking dopaminergic blockade dopamine blocking serotonin 5-HT2 receptor dopamine D2 receptor neuroleptics schizophrenia neuroprotection neurodegeneration
598	Effects of quetiapine on anhedonia induced by withdrawal from chronic amphetamine administration Zhornitsky, Simon 10 1900 (has links) Contexte: L’anhédonie, un état caractérisé par une capacité réduite d’éprouver du plaisir. Des études cliniques récentes montrent qu’un médicament antipsychotique atypique, la quétiapine, est bénéfique pour le traitement de la toxicomanie qui est supposé d’atténuer les symptômes de sevrage associés à l’usage abusif des drogues psychotropes. Le but de la présente étude était d’étudier les effets de l'administration aiguë de quétiapine sur la récompense chez des animaux en état de sevrage après un traitement chronique avec l’amphétamine. Notre hypothese est que la quetiapine va diminuer l’anhedonie causer par le sevrage. Méthodes: Les expériences ont été effectuées avec des rats mâles de la souche Sprague-Dawley entraînés à produire une réponse opérante pour obtenir une courte stimulation électrique au niveau de l'hypothalamus latéral. Des mesures du seuil de récompense ont été déterminées chez différents groupes de rats avant et pendant quatre jours après le traitement avec des doses croissantes (1 à 10 mg/kg, ip toutes les 8 heures) de d-amphétamine sulfate, ou de son véhicule, au moyen de la méthode du déplacement de la courbe. L’effet de deux doses de quétiapine a été testé 24 h après le sevrage chez des animaux traités avec l’amphétamine ou le véhicule. Résultats: Les animaux traités avec l’amphétamine ont montré une augmentation de 25% du seuil de récompense 24 h après la dernière injection, un effet qui a diminué progressivement entre le jour 1 et le jour 4, mais qui est resté significativement plus élevé en comparaison de celui du groupe contrôle. La quétiapine administrée à 2 et 10 mg/kg pendant la phase de sevrage (à 24 h) a produit une augmentation respective de 10 % et 25 % du seuil de recompense; le meme augmentation du seuil a été observe chez les animaux traitées avec le véhicule. Un augmentation de 25 % du seuil de recompense a aussi été observés chez les animaux en état de sevrage à l'amphétamine. Un test avec une faible dose d’amphétamine (1 mg/kg) avant et après le sevrage a révélé une légère tolérance à l’effet amplificateur de cette drogue sur la récompense, un phénomène qui pourrait expliquer l’effet différent de la quétiapine chez les animaux traités avec le véhicule et ceux traités avec l’amphétamine. Conclusions: Ces résultats reproduisent ceux des études précédentes montrant que la quétiapine produit une légère atténuation de la récompense. Ils montrent également que le sevrage à l’amphétamine engendre un léger état d'anhédonie et que dans cet état, une dose élevée de quetiapine et non pas une dose faible accentue l’état émotionnel négatif. Ils suggèrent qu’un traitement à faibles doses de quétiapine des symptômes de sevrage chez le toxicomane devrait ni aggraver ni améliorer son état émotionnel. / Background: Anhedonia, a condition in which the capacity of experiencing pleasure is reduced, is observed in patients that are under withdrawal from drugs of abuse. Recent clinical studies show that quetiapine may be beneficial in the treatment of substance abuse by alleviating the withdrawal-negative affect stage of addiction. This study investigated the effects of acute quetiapine on reward in animals under withdrawal from d-amphetamine. Methods: Experiments were performed on male Sprague-Dawley rats trained for intracranial self-stimulation. Measures of reward threshold were determined with the curve-shift method in different groups of rats before, and during four days after treatment with escalating doses (1 to 10 mg/kg, i.p) of d-amphetamine sulphate or its vehicle. At 24h after withdrawal, the effects of two doses of quetiapine (2 and 10 mg/kg ip) were tested in all the animals. Results: Animals treated with d-amphetamine showed 25% reward attenuation at 24h of withdrawal, an effect that decreased over the next three days. Quetiapine administered acutely at 2mg/kg and 10mg/kg on the first day of withdrawal produced 10% and 25% reward attenuation, respectively, in the vehicle-control animals, an effect also observed in the animals under withdrawal from d-amphetamine but only at the high dose. Conclusions: These results show that quetiapine produced a mild attenuation of reward in normohedonic and in anhedonic animals. They suggest that quetiapine should be used at low doses for the treatment of substance abusers under withdrawal from psychostimulant drugs to avoid enhancement of the anhedonic state. Anhédonie Anhedonia Amphétamine Amphetamine Dopamine Dopamine Dysphorie Dysphoria Quétiapine Quetiapine Récompense Reward Tolérance Tolerance
599	Anatomical mapping of dopamine receptor supersensitivity in the rat extended striatum Kaur, Navneet, 1979- January 2008 (has links) The extended striatum is a large, dopamine-innervated forebrain structure comprising the caudate-putamen, nucleus accumbens and olfactory tubercle (OT). The OT remains largely unexplored, despite its potentially important role in behaviour and dopamine (DA)-mediated reward. One method of studying function is examining "supersensitive" behavioural responses to DA agonists in animals after striatal DA loss. We examined whether D1 or D2 receptor supersensitivity occurs in the OT and neighbouring islands of Calleja (ICj), after unilateral 6-hydroxydopamine lesions of the medial forebrain bundle and medial OT (mOT). We also asked if the resulting DA receptor supersensitivity is anatomically heterogeneous. Our results showed D1-like receptor supersensitivity occurring in the OT with several DA agonists, and heterogeneously across the extended striatum. There is evidence of D2-like receptor supersensitivity in the ICj. Our focal mOT lesion failed to show DA receptor supersensitivity. Finally, there is little evidence for D2 supersensitivity as measured by [ 35S]GTPgammaS binding. Receptors, Dopamine -- metabolism. Corpus Striatum -- metabolism. Olfactory Pathways -- metabolism. Islands of Calleja -- metabolism. Dopamine Agonists -- pharmacology. Quinpirole -- pharmacology. Rats.
600	Positron emission tomography of extra-striatal dopamine release Gravel, Paul. January 2008 (has links) Altered dopamine (DA) neurotransmission is implicated in neurological and psychiatric disorders. Positron Emission Tomography (PET) imaging of DA release has mainly been restricted to striatal areas, rich in D2/D 3 receptors, owing to the moderate affinity of the radioligands used. To measure extra-striatal DA release, where D2/D3 receptor concentrations are much smaller, an approach using a high affinity radioligand, such as [18F]Fallypride, is required. The aim of the present study was to investigate in healthy volunteers the suitability of [ 18F]Fallypride to measure variations in D2/D3 receptor occupancy, as a function of amphetamine-induced DA release, in extra-striatal regions. Six healthy male volunteers underwent two 18F-Fallypride PET sessions, following the double-blind oral administration of 0.3 mg/kg of d-amphetamine (Dexedrine) or placebo (lactose), counter-balanced for order. Following amphetamine administration, D2/D3 receptor occupancy of 18F-Fallypride was significantly reduced in striatum, but also in extra-striatal regions, including substantia nigra, amygdala, thalamus, hippocampus, and cortical areas. Receptors, Dopamine D2 -- metabolism. Receptors, Dopamine D3 -- metabolism. Corpus Striatum -- metabolism. Benzamides -- pharmacology. Pyrrolidines -- pharmacology. Positron-Emission Tomography -- methods.

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