Global ETD Search

11	Comprehensive Model of G Protein-coupled Receptor Regulation by Protein Kinase C: Insight from Dopamine D1 and D5 Receptor Studies. Plouffe, Bianca January 2012 (has links) Dopamine receptors belong to the G protein-coupled receptor (GPCR) superfamily and are classified into two families: D1-like (D1R and D5R) and D2-like (D2R, D3R and D4R), based on their ability to stimulate or inhibit adenylyl cyclase (AC). Classically, GPCRs (including D2R and D3R) are desensitized by the activation of the serine/threonine protein kinase C (PKC) upon phorbol-12-myristate-13-acetate (PMA) treatment. Previous studies demonstrate that while human D5R (hD5R) is also strongly desensitized upon PMA treatment, the human D1R (hD1R) undergo a robust PMA-induced sensitization. The aim of this PhD thesis was to explore how the canonical PKC- or phorbol ester-linked pathway can control the responsiveness of two similar GPCRs like hD1R and hD5R in an opposite fashion. Our data indicate that hD1R sensitization and hD5R desensitization are not mediated by a direct modulation of AC activity by PKC. Using a chimeric approach, we identified the third intracellular loop (IL3) as the key structural determinant controlling in an opposite manner the PMA-mediated regulation of hD1R and hD5R. To delineate the potential PKC phosphorylation sites, a series of mutation of serine (Ser) and threonine (Thr) located into IL3 of hD1R and hD5R were used. No hD1R mutation decreased the PMA-mediated sensitization. This suggests that hD1R phosphorylation is not required for PMA-induced sensitization. In contrast, our results indicate that PMA-mediated hD5R desensitization occurs through a hierarchical phosphorylation of Ser260, Ser261, Ser271 and Ser274. Notably, these hD5R mutants exhibited a PMA-induced sensitization, reminiscent of the PMA-induced hD1R sensitization. Additionally, using short hairpin RNAs (shRNAs), we showed that PKCε is the potentiating PKC while the desensitizing isoform is δ. Overall, our work suggests the presence or absence of specific Ser residues on IL3 of hD1-like receptors dictate if phosphorylation-dependent desensitization (through PKCδ) or phosphorylation-independent potentiation (via PKCε) will occur. dopamine protein kinase C D1-like dopaminergic receptors D1 receptor D5 receptor desensitization sensitization
12	Supersensitized D1 Receptors Mediate Enhanced Oral Activity After Neonatal 6-OHDA Kostrzewa, Richard M., Gong, Li 01 January 1991 (has links) Enhanced oral responses have been observed in rats that are treated shortly after birth with 6-hydroxydopamine (6-OHDA). A series of studies was conducted to characterize this effect. A dose-response curve demonstrated that the dopamine D1 receptor agonist, SKF 38393, produced a maximal response in 6-OHDA-treated rats at a dose of 0.10 mg/kg (IP). With the D2 receptor antagonist, spiperone, a bell-shaped dose-response curve was seen, with a maximal effect in the 6-OHDA group occurring at 80 μg/kg. There were only slight increases in oral activity with different SKF 38393 or spiperone doses in the saline group, indicating that there was an overt supersensitization of D1 receptors in the 6-OHDA-treated rats. The D1 antagonist SCH 23390 (0.30 mg/kg, IP) attenuated the response to both SKF 38393 and spiperone. The oral response to the D2 agonist, quinpirole (0.10 mg/kg, IP) was not preferentially increased in the 6-OHDA group of rats. These findings indicate that the enhanced oral response in neonatal 6-OHDA-treated rats is mediated by supersensitive dopamine D1 receptors. The persistence of the enhanced oral ersponse in 6-OHDA-treated rats at 8 months demonstrates that this sensitization of D1 receptors is a long-lived phenomenon. 6-Hydroxydopamine D1 receptor D2 receptor dopamine oral dyskinesia supersensitivity Biomedical Sciences
13	Potentiation of Spiperone-Induced Oral Activity in Rats After Neonatal 6-Hydroxydopamine Kostrzewa, Richard M., Hamdi, Anwar 01 January 1991 (has links) The influence of central dopaminergic fibers on drug-induced oral activity in rats has not been well studied. Rats were treated 3 days after birth with bilateral intracerebroventricular 6-hydroxydopamine (6-OHDA; 134 ωg total, base form) to destroy dopaminergic fibers in the brain. Control rats received vehicle by the same route. At about 10 weeks of age, a challenge dose of the dopamine D2 receptor antagonist, spiperone (40 ωg/kg, IP), produced an 8-fold increase in the number of oral movements during a 60-minute observation period, vs. the control group. SKF 38393 (3.0 mg/kg, IP), a D1 agonist, produced the same number of oral movements as spiperone in the 6-OHDA group, representing a 2.4-fold increase over the controls. The Bmax and Kd for both D1 and D2 receptors was not changed in rat striatum by neonatal 6-OHDA treatment, even though dopamine content was reduced by 96%. These findings demonstrate that oral activity in rats can be greatly altered, even when there is no change in absolute numbers of D1 and D2 receptors and no change in the ratio of D1:D2 receptors. 6-Hydroxydopamine D1 receptor D2 receptor dopamine oral dyskinesia SKF 38393 spiperone Biomedical Sciences
14	Dopamine D2 Receptor Priming Enhances Dopaminergic Response to Amphetamine in the Nucleus Accumbens: Role of the D1 and D2 Receptors. Huggins, Kimberly Norris 19 December 2009 (has links) (PDF) In past work, we have shown neonatal quinpirole (dopamine D2/D3 agonist) treatment produces a significant increase in dopamine D2 receptor sensitivity, a phenomenon known as D2 receptor priming. Dopamine D2 receptor priming is common in psychosis. Male and female rats were administered quinpirole (1mg/kg) or saline from postnatal days 1-11 and raised to adulthood (P60). As adults, rats were administered d-amphetamine sulfate (1mg/kg) or saline every other day for 14 days. Approximately 10 min before each amphetamine or saline injection, animals were administered the D1 antagonist SCH 23390 (0.1 mg/kg), the D2 antagonist eticlopride (0.1 mg/kg) or saline. After both injections, rats were placed in a locomotor arena and activity was analyzed for a 10-min period. Results indicated that D2-priming enhanced locomotor activation effects to amphetamine in both males and females, with females demonstrating higher levels of behavioral activation. SCH 23390 blocked amphetamine sensitization in both males and females to levels below saline controls, whereas eticlopride was more effective in blocking amphetamine sensitization in males as compared to females, although eticlopride did block elevations of behavioral activation in D2-primed males and females. Seven to 10 days after sensitization, microdialysis was performed and amphetamine produced a five-fold increase in dopamine overflow in the nucleus accumbens compared to non D2-primed rats administered amphetamine. Both D1 and D2 antagonism were effective at blocking amphetamine-induced increases in dopamine overflow. These results show that neonatal quinpirole treatment enhances behavioral activation and dopamine overflow, but there appear to be sex differences in the D2 as compared to D1 response to behavioral activation produced by amphetamine. D1 receptor D2 priming amphetamine D2 receptor Life Sciences Molecular and Cellular Neuroscience Neuroscience and Neurobiology
15	Dynamique et fonction des interactions entre récepteurs du glutamate et de la dopamine / Dynamics and function of glutamate and dopamine receptors interactions Goyet, Elise 27 June 2017 (has links) Dans certaines aires cérébrales, l’action synergique du glutamate et de la dopamine est nécessaire pour induire et maintenir la plasticité synaptique. Un dialogue fonctionnel entre le récepteur métabotropique du glutamate mGlu5 et le récepteur de la dopamine D1 a été mise en évidence. Par ailleurs, de nombreuses études ont démontré que les récepteurs couplés aux protéines G ont la capacité de former des hétéromères créant ainsi de nouvelles entités fonctionnelles. En s’appuyant sur l’hypothèse d’une hétéromérisation des récepteurs, l’objectif de ce projet de thèse était d’étudier les mécanismes moléculaires qui sous-tendent une synergie fonctionnelle entre les récepteurs mGlu5 et D1. Dans la première partie de ce travail, j’ai caractérisé les bénéfices de la Nanoluciférase, une luciférase très lumineuse, pour améliorer la technique de BRET en imagerie (Bioluminescence Resonance Energy Transfer imaging) qui permet d’étudier la dynamique des interactions entre protéines dans les cellules vivantes. Les bénéfices mis en évidence en termes de résolution spatio-temporelle, de stabilité et de sensibilité du signal ont été exploités pour la suite de ce projet. Dans la seconde partie de ce travail, les améliorations techniques mentionnées ci-dessus ont permis de mettre en évidence pour la première fois des hétéromères mGlu5/D1 dans des neurones en culture. En outre, nous avons montré que la co-expression des récepteurs mGlu5 et D1 en système hétérologue favorise la signalisation calcique, d’une part en augmentant l'activité constitutive de mGlu5 et, d’autre part, en créant une voie de libération du calcium intracellulaire atypique induite par l'agoniste D1.Ces résultats apportent de nouveaux éléments de compréhension des bases moléculaires du dialogue fonctionnel glutamate/dopamine dans le contrôle de la communication neuronale en conditions physiologiques et ouvrent la voie à de nouvelles stratégies thérapeutiques capables de moduler sélectivement la fonction des hétéromères. / In some specific brain areas, synergism between glutamate and dopamine transmission is required to induce synaptic plasticity. Metabotropic glutamate receptor mGlu5 and dopamine receptor D1 are both known to control synaptic plasticity. Moreover, multiple lines of evidence converge toward the ability of G-protein coupled receptors to form dynamic heteromers thereby creating new entities with unique properties. Focusing on the hypothesis of receptor heteromerization, my PhD project aimed at investigating the molecular mechanisms underlying a functional interplay between mGlu5 and D1 receptors.To address this issue, a first part of this work consisted in improving single-cell Bioluminescent Resonance Energy Transfer (BRET) imaging, a technology enabling to study real time protein-protein interaction dynamics in living cells. Using the Nanoluciferase, an extremely bright luciferase, we characterized a faster and higher resolution single-cell BRET imaging technique with unprecedented performance in terms of temporal and spatial resolution, duration of signal stability and signal sensitivity. In the second part of this project, we showed that mGlu5 and D1 can form heteromers in heterologous expression system. The above-mentioned improvements of single-cell BRET imaging technique allowed to evidence the occurrence and the dynamics of mGlu5/D1 heteromers in cultured primary neurons. Furthermore, our results showed that the co-expression of mGlu5 and D1 receptors modifies single receptor properties to favor calcium signaling by increasing mGlu5 constitutive activity and creating a D1 agonist-induced activation of Ca2+ release from intracellular stores.These findings advance our knowledge about the molecular basis of the glutamate/dopamine functional dialogue to control neuronal communication in physiological conditions. Further investigation will help the dissection of the mGlu5/D1 heteromer specific signaling pathway with the hope of defining new therapeutics that may selectively modulate heteromer function and thus bypass undesirable side effects. Dopamine Glutamate Hétéromères Imagerie BRET Récepteur D1 Récepteur mGlu5 Dopamine Glutamate Heteromers BRET imaging D1 receptor MGlu5 receptor
16	Signal Transduction: Dopamine D1 receptor-induced signaling cascades in the striatum in Parkinson's disease Maslava, Natallia January 2012 (has links) Parkinsons sjukdom är en av de vanligaste progressiva neurodegenerativa sjukdomer som drabbar upp till tio miljoner människor i världen. Sjukdomen orsakas av död av de nervceller som producerar signalämnet dopamin. För att kompensera bristen på dopamin, får patienter läkemedlet levodopa som är en precursor för dopamin. Men tyvärr leder denna behandling till ett ännu svårare tillstånd – levodopa-inducerad dyskinesi (LID). Dyskinesier innebär onormala ofrivilliga rörelser. För att förstå mekanismer som orsakar LID har djurmodeller utvecklats som simulerar Parkinsons sjukdom. Många studier har påpekat att LID uppstår på grund av ökad fosforylering av extracellulära signalreglerade kinaser 1 och 2 (ERK1/2). Det är viktigt att förstå hur ERK1/2 aktiveras vid Parkinsons sjukdom via dopaminreceptorer på cellmembranet hos nervceller i striatum för att utveckla någon rimlig behandling av LID eller för att förhindra det tillståndet. Syftet med denna studie var att undersöka signalvägar som induceras av dopamin D1-receptorn i vävnadsprov från regionen striatum i hjärnan från lesionerade råttor. Nivån av fosforylation ERK1/2 mättes med hjälp av Western blot. Genom att blockera målmolekyler kunde olika signalvägar blockeras, och resultaten tyder på att det finns tydliga förändringar i dopamin D1-receptor inducerade signalvägar. Aktivering av dopamin D1 receptor inducerade fosforylering av ERK1/2, dopamin D1-receptor inducerad fosforylering av ERK1/2 visade sig att vara beroende av calcium signalering, och det var möjligt att reglera fosforylering av ERK1/2 via signalväg som är inducerad av Grupp 1 metabotropiska glutamatreceptorer. Projektet är inte slutfört och fler målmolekyler behöver testas för att dra definitiva slutsatser om hur signalvägarna interagerar med varandra och hur man på ett effektivt sätt kan reglera dessa. Under arbetets gång hade Western blot-tekniken förbättrats och optimiserats. / Parkinson's disease is one of the most common neurodegenerative diseases affecting up to ten million people worldwide. The disease is caused by the death of neurons that produce the neurotransmitter dopamine. To compensate the lack of dopamine, patients are treated with levodopa, a precursor of dopamine. Levodopa invariably causes a troublesome complication in the form of unwanted involuntary movements known as “levodopa-induced dyskinesia”. Many studies have pointed out that levodopa-induced dyskinesia occurs due to increased phosphorylation of extracellular signal regulated kinases 1 and 2 (ERK1/2). It is important to understand how ERK1/2 is activated in Parkinson's disease by dopamine receptors in order to develop a reasonable treatment for LID or to prevent this condition in levodopa-treatment of Parkinsonian patients. The aim of this study was to investigate the pathways induced by the dopamine D1 receptor in striatal “slices” from parkinsonian rats. The level of phosphorylation of ERK1/2 (pERK 1/2) was measured by Western blot. Along the pathways leading to the activation of pERK 1/2 different target molecules were blocked. The clear alterations in the dopamine D1 induced signaling pathways were observed. Activation of the dopamine D1 receptor induced phosphorylation of ERK1/2, the dopamine D1 receptor-mediated increase of pERK was shown to be dependent on calcium signaling, and the DA D1 receptor-induced phosphorylation of ERK1/2 was possible to modulate via Group 1 metabotropic glutamate receptor pathway. The project is to be continued in the future and more target molecules should be tested in order to draw definite conclusions about how these signaling pathways interact with each other and how to regulate them effectively. During the project, Western blot technique was improved and optimized for the future experiments of the present study. basal ganglia calcium pathway D1 receptor pathway dyskinesia metabotropic glutamate receptors Parkinson’s disease synaptic plasticity Western blot. dopamine basala ganglier kalcium signalväg D1 receptor signalväg dyskinesi metabotropa glutamatreceptorer Parkinsons sjukdom synaptisk plasticitet dopamin Medical and Health Sciences Medicin och hälsovetenskap
17	The Involvement of Ventral Tegmental Area Dopamine and CRF Activity in Mediating the Opponent Motivational Effects of Acute and Chronic Nicotine Grieder, Taryn Elizabeth 12 December 2012 (has links) A fundamental question in the neurobiological study of drug addiction concerns the mechanisms mediating the motivational effects of chronic drug withdrawal. According to one theory, drugs of abuse activate opposing motivational processes after both acute and chronic drug use. The negative experience of withdrawal is the opponent process of chronic drug use that drives relapse to drug-seeking and -taking, making the identification of the neurobiological substrates mediating withdrawal an issue of central importance in addiction research. In this thesis, I identify the involvement of the neurotransmitters dopamine (DA) and corticotropin-releasing factor (CRF) in the opponent motivational a- and b-processes occurring after acute and chronic nicotine administration. I report that acute nicotine stimulates an initial aversive a-process followed by a rewarding opponent b-process, and chronic nicotine stimulates a rewarding a-process followed by an aversive opponent b-process (withdrawal). These responses can be modeled using a place conditioning paradigm. I demonstrate that the acute nicotine a-process is mediated by phasic dopaminergic activity and the DA receptor subtype-1 (D1R) but not by tonic dopaminergic activity and the DA receptor subtype-2 (D2R) or CRF activity, and the opponent b-process is neither DA- nor CRF-mediated. I also demonstrate that the chronic nicotine a-process is DA- but not CRF-mediated, and that withdrawal from chronic nicotine (the b-process) decreases tonic but not phasic DA activity in the ventral tegmental area (VTA), an effect that is D2R- but not D1R-mediated. I show that a specific pattern of signaling at D1Rs and D2Rs mediates the motivational responses to acute nicotine and chronic nicotine withdrawal, respectively, by demonstrating that both increasing or decreasing signaling at these receptors prevents the expression of the conditioned motivational response. Furthermore, I report that the induction of nicotine dependence increases CRF mRNA in VTA DA neurons, and that blocking either the upregulation of CRF mRNA or the activation of VTA CRF receptors prevents the anxiogenic and aversive motivational responses to withdrawal from chronic nicotine. The results described in this thesis provide novel evidence of a VTA DA/CRF system, and demonstrate that both CRF and a specific pattern of tonic DA activity in the VTA are necessary for the aversive motivational experience of nicotine withdrawal. nicotine dopamine withdrawal conditioned place aversion opponent process theory of motivation corticotropin-releasing factor motivation D1 receptor D2 receptor neuropharmacology phasic dopamine drug addiction tonic dopamine ventral tegmental area Neuroscience 0317
18	The Involvement of Ventral Tegmental Area Dopamine and CRF Activity in Mediating the Opponent Motivational Effects of Acute and Chronic Nicotine Grieder, Taryn Elizabeth 12 December 2012 (has links) A fundamental question in the neurobiological study of drug addiction concerns the mechanisms mediating the motivational effects of chronic drug withdrawal. According to one theory, drugs of abuse activate opposing motivational processes after both acute and chronic drug use. The negative experience of withdrawal is the opponent process of chronic drug use that drives relapse to drug-seeking and -taking, making the identification of the neurobiological substrates mediating withdrawal an issue of central importance in addiction research. In this thesis, I identify the involvement of the neurotransmitters dopamine (DA) and corticotropin-releasing factor (CRF) in the opponent motivational a- and b-processes occurring after acute and chronic nicotine administration. I report that acute nicotine stimulates an initial aversive a-process followed by a rewarding opponent b-process, and chronic nicotine stimulates a rewarding a-process followed by an aversive opponent b-process (withdrawal). These responses can be modeled using a place conditioning paradigm. I demonstrate that the acute nicotine a-process is mediated by phasic dopaminergic activity and the DA receptor subtype-1 (D1R) but not by tonic dopaminergic activity and the DA receptor subtype-2 (D2R) or CRF activity, and the opponent b-process is neither DA- nor CRF-mediated. I also demonstrate that the chronic nicotine a-process is DA- but not CRF-mediated, and that withdrawal from chronic nicotine (the b-process) decreases tonic but not phasic DA activity in the ventral tegmental area (VTA), an effect that is D2R- but not D1R-mediated. I show that a specific pattern of signaling at D1Rs and D2Rs mediates the motivational responses to acute nicotine and chronic nicotine withdrawal, respectively, by demonstrating that both increasing or decreasing signaling at these receptors prevents the expression of the conditioned motivational response. Furthermore, I report that the induction of nicotine dependence increases CRF mRNA in VTA DA neurons, and that blocking either the upregulation of CRF mRNA or the activation of VTA CRF receptors prevents the anxiogenic and aversive motivational responses to withdrawal from chronic nicotine. The results described in this thesis provide novel evidence of a VTA DA/CRF system, and demonstrate that both CRF and a specific pattern of tonic DA activity in the VTA are necessary for the aversive motivational experience of nicotine withdrawal. nicotine dopamine withdrawal conditioned place aversion opponent process theory of motivation corticotropin-releasing factor motivation D1 receptor D2 receptor neuropharmacology phasic dopamine drug addiction tonic dopamine ventral tegmental area Neuroscience 0317

Search results