Global ETD Search

31	Comparative analysis of Anopheles gambiae L-tyrosine decarboxylase and L-DOPA decarboxylase Aljabri, Hareb Mohammed 14 September 2010 (has links) A major pathway of tyramine and dopamine synthesis in insects is through the decarboxylation of tyrosine and DOPA, respectively. Although tyrosine decarboxylase (TDC) has been mentioned in some reports, it has never been critically analyzed. The high sequence identity shared by tyrosine decarboxylase and DOPA decarboxylase in insects, and the similar structures of the substrates, tyrosine and DOPA, raise the possibility that both tyrosine decarboxylase and DOPA decarboxylase (DDC) have activities to tyrosine and DOPA. In this study, after tyrosine decarboxylase and DOPA decarboxylase enzymes of Anopheles gambiae were expressed, their substrate specificities and biochemical properties were critically analyzed. My results provide clear biochemical evidence establishing that the mosquito tyrosine decarboxylase functions primarily on the production of tyramine with low activity to DOPA. In contrast, mosquito DOPA decarboxylase is highly specific to DOPA with essentially no activity to tyrosine. / Master of Science in Life Sciences Tyrosine DOPA decarboxylase (DDC) Tyrosine decarboxylase (TDC) Tyramine Dopamine
32	Serotonin- and Dopamine-mediated Neurotransmission in the Pathophysiology and Treatment of Parkinson’s Disease Huot, Philippe 20 March 2014 (has links) Dopamine deficiency in the striatum is a central feature of Parkinson’s disease (PD). Symptomatic therapy with L-3,4-dihydroxyphenylalanine (L-DOPA) aims at restoring physiological dopaminergic neurotransmission within the brain. Unfortunately, current treatment paradigms fail to achieve this goal, which leads to the emergence of motor complications, secondary to long term L-DOPA administration, including dyskinesia and wearing-OFF, and non-motor symptoms related to disease progression, including neuropsychiatric symptoms such as psychosis. However, degenerative changes in PD are not limited to the dopaminergic system, but also affect the serotonergic system. There is increasing evidence suggesting an involvement of the serotonergic system in the pathophysiology of both motor and non-motor complications of PD. The work presented in this Thesis has investigated the serotonergic and dopaminergic systems in PD, by performing post mortem studies in the brains of PD patients and of parkinsonian non-human primates (NHPs), and by performing behavioural studies in the parkinsonian rat and NHP models of PD. The main conclusions presented are that: 1) serotonergic type 1A (5-HT1A) and 2A (5-HT2A) levels are altered in the brains of dyskinetic parkinsonian NHPs, suggesting abnormal 5-HT1A- and 5-HT2A-mediated neurotransmission in dyskinesia; 2) 5-HT2A receptor levels are altered in the brains of PD patients with visual hallucinations (VH), suggesting abnormal 5-HT2A-mediated neurotransmission in VH; 3) some of the anti-dyskinetic actions attributed to stimulating 5-HT1A or antagonising 5-HT2A receptors might in fact be due to an antagonist action at D4 receptors, as antagonising D4 receptors significantly alleviates L-DOPA-induced dyskinesia in rat and NHP models of PD; 4) concurrent inhibition of the serotonin and dopamine transporters (SERT and DAT, respectively) enhances duration of L-DOPA-induced ON-time in the parkinsonian NHP. However, the ratio of SERT/ DAT inhibition appears crucial in determining the quality of this extra ON-time; SERT > DAT inhibition exacerbates the severity of L-DOPA-induced dyskinesia, whereas SERT = DAT and DAT > SERT inhibition do not worsen the severity of L-DOPA-induced dyskinesia. Together these data extend our knowledge of the interaction between serotonin and dopamine, specifically as they relate to symptoms and side effects of dopamine replacement therapy in PD and highlight potential novel therapeutic approaches to PD. Parkinson's disease MPTP-lesioned non-human primate L-DOPA-induced dyskinesia L-DOPA-induced non-motor complications 0317 0419
33	Serotonin- and Dopamine-mediated Neurotransmission in the Pathophysiology and Treatment of Parkinson’s Disease Huot, Philippe 20 March 2014 (has links) Dopamine deficiency in the striatum is a central feature of Parkinson’s disease (PD). Symptomatic therapy with L-3,4-dihydroxyphenylalanine (L-DOPA) aims at restoring physiological dopaminergic neurotransmission within the brain. Unfortunately, current treatment paradigms fail to achieve this goal, which leads to the emergence of motor complications, secondary to long term L-DOPA administration, including dyskinesia and wearing-OFF, and non-motor symptoms related to disease progression, including neuropsychiatric symptoms such as psychosis. However, degenerative changes in PD are not limited to the dopaminergic system, but also affect the serotonergic system. There is increasing evidence suggesting an involvement of the serotonergic system in the pathophysiology of both motor and non-motor complications of PD. The work presented in this Thesis has investigated the serotonergic and dopaminergic systems in PD, by performing post mortem studies in the brains of PD patients and of parkinsonian non-human primates (NHPs), and by performing behavioural studies in the parkinsonian rat and NHP models of PD. The main conclusions presented are that: 1) serotonergic type 1A (5-HT1A) and 2A (5-HT2A) levels are altered in the brains of dyskinetic parkinsonian NHPs, suggesting abnormal 5-HT1A- and 5-HT2A-mediated neurotransmission in dyskinesia; 2) 5-HT2A receptor levels are altered in the brains of PD patients with visual hallucinations (VH), suggesting abnormal 5-HT2A-mediated neurotransmission in VH; 3) some of the anti-dyskinetic actions attributed to stimulating 5-HT1A or antagonising 5-HT2A receptors might in fact be due to an antagonist action at D4 receptors, as antagonising D4 receptors significantly alleviates L-DOPA-induced dyskinesia in rat and NHP models of PD; 4) concurrent inhibition of the serotonin and dopamine transporters (SERT and DAT, respectively) enhances duration of L-DOPA-induced ON-time in the parkinsonian NHP. However, the ratio of SERT/ DAT inhibition appears crucial in determining the quality of this extra ON-time; SERT > DAT inhibition exacerbates the severity of L-DOPA-induced dyskinesia, whereas SERT = DAT and DAT > SERT inhibition do not worsen the severity of L-DOPA-induced dyskinesia. Together these data extend our knowledge of the interaction between serotonin and dopamine, specifically as they relate to symptoms and side effects of dopamine replacement therapy in PD and highlight potential novel therapeutic approaches to PD. Parkinson's disease MPTP-lesioned non-human primate L-DOPA-induced dyskinesia L-DOPA-induced non-motor complications 0317 0419
34	Personalizing functional Magnetic Resonance Protocols for Studying Neural Substrates of Motor Deficits in Parkinson’s Disease Holiga, Štefan 05 September 2013 (has links) Parkinson’s disease (PD) is a progressive neurodegenerative movement disorder characterized by a large number of motor and non-motor deficits, which significantly contribute to reduced quality of life. Despite the definition of the broad spectrum of clinical characteristics, mechanisms triggering illness, the nature of its progression and a character of therapeutic effects still remain unknown. The enormous advances in magnetic resonance imaging (MRI) in the last decades have significantly affected the research attempts to uncover the functional and structural abnormalities in PD and have helped to develop and monitor various treatment strategies, of which dopamine replacement strategies, mainly in form of levodopa, has been the gold standard since the late seventies and eighties. Motor, task-related functional MRI (fMRI) has been extensively used to assess the pathological state of the motor circuitry in PD. Several studies employed motor paradigms and fMRI to review the functional brain responses of participants to levodopa treatment. Interestingly, they provided conflicting results. Wide spectrum of symptoms, variability and asymmetry of the disease presentation, several treatment approaches and their divergent outcomes make PD enormously heterogeneous. In this work we hypothesized that not considering the disease heterogeneity might have been an adequate cause for the discrepant results in aforementioned studies. We show that not accounting for the disease variability might indeed compromise the results and invalidate the consequent interpretations. Accordingly, we propose and formalize a statistical approach to account for the intra and inter subject variability. This might help to minimize this bias in future motor fMRI studies revealing the functional brain dysfunction and contribute to the understanding of still unknown pathophysiological mechanisms underlying PD. info:eu-repo/classification/ddc/610 ddc:610 Parkinson, MRT, fMRI, levodopa, L-DOPA Parkinson, MRI, fMRI, levodopa, L-DOPA
35	Développement et caractérisation fonctionnelle d' un modèle d'ablation génétiquement ciblée des neurones striatonigraux. Revy, Delphine 26 October 2012 (has links) Les ganglions de la base (GB) sont un ensemble de structures sous-corticales interconnectées impliquées dans l'apprentissage et le contrôle moteur mais aussi dans des processus motivationnels. Le fonctionnement des GB est fortement dépendant de l'équilibre d'activité entre les voies directe (striatonigrale) et indirecte (striatopallidale) par lesquelles le striatum, la principale structure d'entrée du réseau, contrôle les structures de sortie. L'objectif de ce travail était de développer et caractériser un modèle d'ablation sélective des neurones de la voie directe pour appréhender leur rôle dans les comportements impliquant les GB. Ce modèle repose sur l'expression, par transgénèse additive, du récepteur humain à la toxine diphtérique (DT) couplé à la GFP sous le contrôle du promoteur du gène slc35d3 exprimé dans les neurones striatonigraux et pas dans les striatopallidaux. La caractérisation cellulaire a été réalisée 15 jours après injection unilatérale de DT dans le striatum dorsal. La spécificité de l'atteinte est vérifiée par la diminution sélective (70%) de l'expression génique du précurseur de la substance P, marqueur de la voie directe, sans changement de celle du précurseur des enképhalines, marqueur de la voie indirecte. Les populations d'interneurones sont préservées à l'exception des interneurones cholinergiques dont le nombre est réduit de 50%. Un faisceau d'arguments démontre que cette baisse ne serait pas due à un effet direct de la DT sur les interneurones cholinergiques mais serait secondaire à la perte des neurones striatonigraux, mettant en évidence un lien étroit entre ces deux populations. / The basal ganglia (BG) are a set of subcortical structures implicated in motor learning and motor function as well as in motivational processes. BG functioning is thought to be highly dependent on the balanced activity between the direct (striatonigral) and indirect (striatopallidal) pathways by which the striatum, the main input station of the network, controls the output structures. This study aimed at developing and characterizing a model of selective ablation of the direct pathway to decipher its specific role in BG-related functions and disorders. The promoter of the slc35d3 gene, which is enriched in the striatonigral neurons, has been used to drive expression of the human diphtheria toxin (DT) receptor coupled to GFP selectively in these neurons by additive transgenesis. The cellular characterization has been performed 15 days after unilateral DT injection in the dorsal striatum. The ablation specificity is demonstrated by the selective decrease (70%) in substance P precursor mRNA levels, a marker of the direct pathway, with no change in enkephalin precursor gene expression, a marker of the indirect pathway. Striatal interneuron populations are spared, except the cholinergic population, which is reduced by about 50%. Evidence is provided that this loss may not be a direct effect of DT but a consequence of striatonigral neuron loss, revealing their crucial role for cholinergic interneuron viability. Then, we analyzed the functional consequences of the bilateral lesion of the striatonigral pathway (50-60% neuronal loss) either in the dorsal striatum or in the nucleus accumbens (NAc). Ganglions de la base Toxine diphtérique Souris transgéniques Voie striatonigrale Cocaïne L-dopa Basal ganglia Diphtheria toxin Transgenic mice Striatonigral pathway Cocaine L-dopa
36	Análise de fatores inflamatórios na discinesia induzida por L-DOPA em modelo de camundongos: caracterização da enzima ciclooxigenase-2 / Analysis of inflammatory factors in L-DOPA-induced dyskinesia in a mouse model: characterization of the enzyme cyclooxygenase 2 Maurício dos Santos Pereira 27 October 2017 (has links) A doença de Parkinson (DP) é a segunda doença neurodegenerativa que mais atinge a população mundial. O desenvolvimento dos prejuízos motores decorrentes da doença está relacionado a sua fisiopatologia, que promove principalmente a neurodegeneração dos neurônios dopaminérgicos da substância negra pars compacta. Estudos sugerem o envolvimento de vias inflamatórias exacerbando a morte celular na fisiopatologia da DP. O fenômeno neuroinflamatório é caracterizado pela ativação de diversas células do sistema nervoso central, como neurônios, micróglia e astrócitos, além dos principais mediadores pró- inflamatórios, que são a enzima ciclooxigenase-2 (COX-2), o fator de necrose tumoral-alfa (TNF-?), a interleucina 1? (IL-1?) e a interleucina 6 (IL-6), entre outros. Estes fatores estão presentes em estruturas neuroanatômicas como o estriado e substância negra pars compacta de indivíduos com a DP. O tratamento crônico com L-DOPA, o precursor do neurotransmissor dopamina, inicialmente gera uma redução da manifestação dos sintomas motores na maioria dos pacientes. Porém, após certo tempo de tratamento, ocorre o surgimento de complicações motoras, como a discinesia induzida por L-DOPA (LID - LDOPA-induced dyskinesia). O desenvolvimento e a manifestação da LID também podem acompanhar uma resposta inflamatória anormal. Dados do grupo sugerem a enzima COX-2 e as células gliais como mediadores da LID. Estudos apontam que fármacos que reduzem a LID modulam a expressão de COX-2. Nosso objetivo, portanto, foi caracterizar a presença de fatores/mecanismos pró-inflamatórios no estriado lesionado de camundongos tratados com LDOPA. Nossos resultados serão apresentados em três capítulos. No primeiro capítulo, empregamos o modelo de camundongos hemiparkinsonianos (lesionados com 6- hidroxidopamina) e tratamos com L-DOPA por diferentes períodos de tempo (1, 7, 14 e 21 dias) para analisarmos o surgimento de fatores inflamatórios no estriado, como a enzima COX-2, o fator nuclear kappa-B (NF-?B) e a expressão e atividade dos astrócitos e micróglia. No segundo capítulo, demonstramos o potencial destas células gliais em produzir citocinas e/ou glutamato após estímulo com os principais neurotransmissores envolvidos com a LID, a DA (ou seu precursor L-DOPA) e glutamato. No terceiro capítulo, demonstramos o potencial terapêutico de drogas usadas na clínica - com propriedades anti-inflamatórias - de reduzirem a LID previamente estabelecida. Para tal, utilizamos o canabidiol (princípio ativo da Cannabis, usado no tratamento para epilepsia, entre outros) e o celecoxibe (inibidor específico da atividade enzimática da COX-2). Este estudo corrobora a existência de um processo inflamatório no estriado lesionado de camundongos parkinsonianos, exacerbado pelo tratamento com L-DOPA. A enzima COX-2 pode ter um papel fundamental no desenvolvimento da LID. Adicionalmente, este trabalho sugere que drogas utilizadas clinicamente com ação anti-inflamatória podem se tornar possíveis ferramentas terapêuticas para a redução desta desordem. Desta forma, relacionamos a produção de fatores inflamatórios e a ativação de células gliais à perpetuação de uma atividade pós-sináptica estriatal anormal que ocasionam a \"má plasticidade\" típica da LID. / Parkinson\'s disease (PD) is the second most common neurodegenerative disease in world population. The development of motor impairments related to this disease occurs due to its pathophysiology, which mainly promotes the neurodegeneration of the dopaminergic neurons in the substantia nigra pars compacta. Studies suggest the involvement of inflammatory pathways that exacerbate cell death in the pathophysiology of PD. The neuroinflammatory phenomenon is characterized by the activation of central nervous system cells, such as neurons, microglia and astrocytes, in addition to proinflammatory mediators that are elevated in patients with PD, such as the enzyme cyclooxygenase-2 (COX-2), tumor necrosis factoralpha (TNF-?), interleukin 1? (IL-1?) and interleukin-6 (IL-6), among others. These factors are present in neuroanatomic structures such as striatum and substantia nigra pars compacta. Chronic treatment with L-DOPA, the precursor of the neurotransmitter dopamine, initially generates a reduction in the manifestation of motor symptoms in the vast majority of patients, but after a certain time of treatment, motor complications begin to appear, such as L-DOPAinduced dyskinesia (LID). The development and manifestation of LID may also accompany an abnormal inflammatory response. Data from our group suggest the enzyme COX-2 as one of the mediators of LID. Studies also point out that drugs that reduce LID are able to modulate COX-2 expression. Our objective, therefore, was to characterize the presence of proinflammatory factors/mechanisms in the injured striatum of mice treated with L-DOPA. For this purpose, the present study will be divided into three chapters. In the first chapter, we used the hemiparkinsonian mice model (lesioned with 6-hydroxydopamine) treated with LDOPA for different time periods (1, 7, 14 and 21 days) to observe the appearance of inflammatory factors in the striatum, such as the COX-2 enzyme, nuclear factor kappa-B (NF- ?B) and the expression and activity of glial cells, represented by astrocytes and microglia. In the second chapter, we demonstrated the potential of glial cells to produce cytokines and/or glutamate after stimulation with the major neurotransmitters involved with LID, dopamine (or its precursor L-DOPA) and glutamate. Finally, in the third chapter, we demonstrate the therapeutic potential of drugs used in the clinic with anti-inflammatory properties to reduce previously established LID. For this, we used cannabidiol (the active constituent of Cannabis, used for the treatment of epilepsy, among others) and celecoxib (a specific COX-2 activity inhibitor). The present study corroborates the existence of an inflammatory process in the injured striatum of parkinsonian mice, exacerbated by treatment with L-DOPA. The COX-2 enzyme may play a key role in the development of LID. Additionally, this work suggests that drugs clinically used with anti-inflammatory action may become possible therapeutic tools for the reduction of this disorder. In this way, we relate the production of inflammatory factors and the activation of glial cells to the perpetuation of an abnormal striatal postsynaptic activity that causes the \"maladaptative plasticity\" typical of LID. Citocinas COX-2 Discinesia induzida por L-DOPA Doença de Parkinson Neuroinflamação NF-kB COX-2 L-DOPA-induced dyskinesia Neuroinflammation NF-kB Parkinson's disease, Cytokines
37	Impact d'une lésion sérotoninergique sur la symptomatologie parkinsonienne : approches multiples chez le singe MPTP-MDMA / Impact of a serotonergic lesion on parkinsonian symptomatology : multiple approaches in the MPTP-MDMA monkey Beaudoin, Maude 07 September 2015 (has links) La maladie de Parkinson (MP) est caractérisée par une dégénérescence progressive et irréversible des neurones dopaminergiques (DA) de la substance noire. Lorsque la perte DA atteint 60 à 80%, les patients vont développer des symptômes. Les traitements DA permettent de contrecarrer l'expression de ces symptômes mais induisent également à long terme l'apparition de complications invalidantes. De plus les patients développent également des symptômes non- moteurs pouvant émerger avant, pendant ou après l'apparition des symptômes moteurs. Parallèlement à la dégénérescence DA, les patients parkinsoniens présentent des altérations du système sérotoninergique (5-HT) qui ont été mises en évidence en post-mortem et plus récemment par imagerie par tomographie à émission de positons (TEP). Des corrélations ont également été démontrées entre l'altération du système 5-HT et la sévérité de certains symptômes parkinsoniens. Cependant, à ce jour, aucune étude n'a mis en évidence de lien causal direct entre l'altération 5-HT et l'expression des symptômes parkinsoniens. Il était donc crucial de clarifier le rôle exact de la 5-HT dans le développement des symptômes parkinsoniens ainsi que dans la réponse aux traitements dopaminergiques. Dans ce contexte, nous avons développé un nouveau modèle de la MP. Ce modèle nous a permis d'étudier l'impact de la lésion 5-HT sur la symptomatologie parkinsonienne. Ce travail a permis de démontrer l'implication du système sérotoninergique dans l'expression de la rigidité parkinsonienne. Par ailleurs, ce travail a également permis de démontrer le rôle causal des fibres 5-HT dans le développement de complications induites par un traitement chronique à la L- DOPA / Parkinson's disease (PD) is characterized by a progressive and irreversible degeneration of dopaminergic (DA) neurons localized in the substantia nigra, leading to the loss of dopamine within the target structures (mainly the striatum). When the DA loss reaches 60 to 80%, PD patients develop motor symptoms (rigidity, tremor, akinesia/bradykinesia). DA treatments allow counteracting symptoms expression but also induce after a certain time the appearance of disabling complications. Moreover, patients also develop non-motor symptoms that can emerge before, during or after the appearance of motor symptoms. ln addition to DA degeneration, PD patients present serotoninergic (5-HT) alteration evidenced in post-mortem and more recently by position emission tomography (PET) imaging. Correlations have been shown between the 5-HT alteration and the severity of some motor and non-motor symptoms as well as L-DOPA-induced dyskinesia. However, to date, none study evidenced a direct causal link between the 5-HT alteration and the expression of parkinsonian symptoms. lt was crucial to clarify the exact role of 5-HT in the development of parkinsonian symptoms. ln this context, we have developed a new model of PD. This model has allowed studying the impact of the 5-HT lesion on the parkinsonian symptomatology. We have evidenced the involvement of the 5-HT system in the expression of parkinsonian rigidity. Moreover, we have demonstrated the causal role of the 5-HT fibers in the development of complications induced by the L-DOPA treatment Maladie de Parkinson Primate non-humain MPTP MDMA Dyskinésie L-DOPA Dopamine Sérotonine Parkinson's disease Non-human primate MPTP MDMA Dyskinesia L-DOPA Dopamine Serotonin 612.8
38	Análise de fatores inflamatórios na discinesia induzida por L-DOPA em modelo de camundongos: caracterização da enzima ciclooxigenase-2 / Analysis of inflammatory factors in L-DOPA-induced dyskinesia in a mouse model: characterization of the enzyme cyclooxygenase 2 Pereira, Maurício dos Santos 27 October 2017 (has links) A doença de Parkinson (DP) é a segunda doença neurodegenerativa que mais atinge a população mundial. O desenvolvimento dos prejuízos motores decorrentes da doença está relacionado a sua fisiopatologia, que promove principalmente a neurodegeneração dos neurônios dopaminérgicos da substância negra pars compacta. Estudos sugerem o envolvimento de vias inflamatórias exacerbando a morte celular na fisiopatologia da DP. O fenômeno neuroinflamatório é caracterizado pela ativação de diversas células do sistema nervoso central, como neurônios, micróglia e astrócitos, além dos principais mediadores pró- inflamatórios, que são a enzima ciclooxigenase-2 (COX-2), o fator de necrose tumoral-alfa (TNF-?), a interleucina 1? (IL-1?) e a interleucina 6 (IL-6), entre outros. Estes fatores estão presentes em estruturas neuroanatômicas como o estriado e substância negra pars compacta de indivíduos com a DP. O tratamento crônico com L-DOPA, o precursor do neurotransmissor dopamina, inicialmente gera uma redução da manifestação dos sintomas motores na maioria dos pacientes. Porém, após certo tempo de tratamento, ocorre o surgimento de complicações motoras, como a discinesia induzida por L-DOPA (LID - LDOPA-induced dyskinesia). O desenvolvimento e a manifestação da LID também podem acompanhar uma resposta inflamatória anormal. Dados do grupo sugerem a enzima COX-2 e as células gliais como mediadores da LID. Estudos apontam que fármacos que reduzem a LID modulam a expressão de COX-2. Nosso objetivo, portanto, foi caracterizar a presença de fatores/mecanismos pró-inflamatórios no estriado lesionado de camundongos tratados com LDOPA. Nossos resultados serão apresentados em três capítulos. No primeiro capítulo, empregamos o modelo de camundongos hemiparkinsonianos (lesionados com 6- hidroxidopamina) e tratamos com L-DOPA por diferentes períodos de tempo (1, 7, 14 e 21 dias) para analisarmos o surgimento de fatores inflamatórios no estriado, como a enzima COX-2, o fator nuclear kappa-B (NF-?B) e a expressão e atividade dos astrócitos e micróglia. No segundo capítulo, demonstramos o potencial destas células gliais em produzir citocinas e/ou glutamato após estímulo com os principais neurotransmissores envolvidos com a LID, a DA (ou seu precursor L-DOPA) e glutamato. No terceiro capítulo, demonstramos o potencial terapêutico de drogas usadas na clínica - com propriedades anti-inflamatórias - de reduzirem a LID previamente estabelecida. Para tal, utilizamos o canabidiol (princípio ativo da Cannabis, usado no tratamento para epilepsia, entre outros) e o celecoxibe (inibidor específico da atividade enzimática da COX-2). Este estudo corrobora a existência de um processo inflamatório no estriado lesionado de camundongos parkinsonianos, exacerbado pelo tratamento com L-DOPA. A enzima COX-2 pode ter um papel fundamental no desenvolvimento da LID. Adicionalmente, este trabalho sugere que drogas utilizadas clinicamente com ação anti-inflamatória podem se tornar possíveis ferramentas terapêuticas para a redução desta desordem. Desta forma, relacionamos a produção de fatores inflamatórios e a ativação de células gliais à perpetuação de uma atividade pós-sináptica estriatal anormal que ocasionam a \"má plasticidade\" típica da LID. / Parkinson\'s disease (PD) is the second most common neurodegenerative disease in world population. The development of motor impairments related to this disease occurs due to its pathophysiology, which mainly promotes the neurodegeneration of the dopaminergic neurons in the substantia nigra pars compacta. Studies suggest the involvement of inflammatory pathways that exacerbate cell death in the pathophysiology of PD. The neuroinflammatory phenomenon is characterized by the activation of central nervous system cells, such as neurons, microglia and astrocytes, in addition to proinflammatory mediators that are elevated in patients with PD, such as the enzyme cyclooxygenase-2 (COX-2), tumor necrosis factoralpha (TNF-?), interleukin 1? (IL-1?) and interleukin-6 (IL-6), among others. These factors are present in neuroanatomic structures such as striatum and substantia nigra pars compacta. Chronic treatment with L-DOPA, the precursor of the neurotransmitter dopamine, initially generates a reduction in the manifestation of motor symptoms in the vast majority of patients, but after a certain time of treatment, motor complications begin to appear, such as L-DOPAinduced dyskinesia (LID). The development and manifestation of LID may also accompany an abnormal inflammatory response. Data from our group suggest the enzyme COX-2 as one of the mediators of LID. Studies also point out that drugs that reduce LID are able to modulate COX-2 expression. Our objective, therefore, was to characterize the presence of proinflammatory factors/mechanisms in the injured striatum of mice treated with L-DOPA. For this purpose, the present study will be divided into three chapters. In the first chapter, we used the hemiparkinsonian mice model (lesioned with 6-hydroxydopamine) treated with LDOPA for different time periods (1, 7, 14 and 21 days) to observe the appearance of inflammatory factors in the striatum, such as the COX-2 enzyme, nuclear factor kappa-B (NF- ?B) and the expression and activity of glial cells, represented by astrocytes and microglia. In the second chapter, we demonstrated the potential of glial cells to produce cytokines and/or glutamate after stimulation with the major neurotransmitters involved with LID, dopamine (or its precursor L-DOPA) and glutamate. Finally, in the third chapter, we demonstrate the therapeutic potential of drugs used in the clinic with anti-inflammatory properties to reduce previously established LID. For this, we used cannabidiol (the active constituent of Cannabis, used for the treatment of epilepsy, among others) and celecoxib (a specific COX-2 activity inhibitor). The present study corroborates the existence of an inflammatory process in the injured striatum of parkinsonian mice, exacerbated by treatment with L-DOPA. The COX-2 enzyme may play a key role in the development of LID. Additionally, this work suggests that drugs clinically used with anti-inflammatory action may become possible therapeutic tools for the reduction of this disorder. In this way, we relate the production of inflammatory factors and the activation of glial cells to the perpetuation of an abnormal striatal postsynaptic activity that causes the \"maladaptative plasticity\" typical of LID. Citocinas COX-2 COX-2 Discinesia induzida por L-DOPA Doença de Parkinson L-DOPA-induced dyskinesia Neuroinflamação Neuroinflammation NF-kB NF-kB Parkinson's disease, Cytokines
39	Altérations du système de récompense dans la maladie de Parkinson : relation entre comportement et signatures moléculaires. : Neuropsychopharmacologie. / Alterations of the Reward System in Parkinson's Disease : Relationship between behavior and molecular signatures Loiodice, Simon 07 June 2016 (has links) Dans la maladie de Parkinson (MP), la perte progressive des neurones dopaminergiques (DA) touche principalement la substantia nigra pars compacta (SNc). Les symptômes moteurs sont classiquement gérés par une thérapie dopaminergique de remplacement (TDR). Conjointement à la levodopa, l’utilisation d’agonistes dopaminergiques permet de prévenir les complications motrices mais peut être associée à des troubles du système de récompense. Jusqu’à 14% des patients parkinsoniens sous TRD peuvent souffrir de comportement « addiction-like » tels que le pari pathologique, l’hypersexualité ou une prise compulsive de la médication DA. A ce jour la seule solution thérapeutique consiste à diminuer la TRD ce qui détériore les symptômes moteurs. Les neuroadaptations conduisant à ces troubles du système de récompense demeurent mal comprises. Nous proposons un travail dans lequel nous avons évalué les propriétés appétitives de l’agoniste D2/D3 pramipexole (ppx) après une exposition chronique à la L-dopa dans un modèle de rat parkinsonien alpha-synucléine. Dans une première étude, nous avons évalué l’effet d’une stimulation répétée des récepteurs DA sur la sensibilisation du système de récompense en contexte parkinsonien. Nos résultats montrent un effet récompensant du ppx après administrations chronique de L-dopa et perte DA nigrostriatal induite par surexpression de l’alpha-synucléine. Aucune modification transcriptionnelle n’a été observée pour les récepteurs DA. Cependant, nous avons identifié une association entre lésion/traitement pharmacologique et des changements transcriptionnels potentiellement liés à un contexte d’addiction aux psychostimulants. Cette étude fournit des preuves suggérant fortement la lésion parkinsonienne et la thérapie L-dopa comme des facteurs conjointement impliqués dans le remodelage cérébral sous-tendant une préférence de place conditionnée pour le ppx. Les données moléculaires et pharmacologiques générées ont suggéré un rôle clé de la voie glutamatergique dans cette réponse comportementale. Ce résultat est cohérent avec la littérature décrivant un déséquilibre glutamatergique striatal dans les contextes d’addiction aux psychostimulants et de complications motrices associées à la MP. Ainsi, nous avons conçu une deuxième étude visant à investiguer plus avant le potentiel thérapeutique d’une inhibition des récepteurs glutamatergiques. Une lésion bilatérale de la SNc a été réalisée par surexpression de la protéine alpha-synucléine au moyen d’un vecteur AAV. Suite à cette lésion, un traitement chronique à la L-dopa a été réalisé. L’effet de l’antagoniste des récepteurs mGluR5 (metabotropic glutamate receptor 5) MPEP sur les propriétés renforçatrices du ppx a été évalué dans un paradigme de préférence de place conditionnée. Enfin, une analyse des changements d’expression de protéines d’intérêt a été réalisé afin d’associer changements comportementaux drogue/lésion induits et paramètres moléculaires. L’acquisition et l’expression de la préférence de place ppx-induite a été abolie par le MPEP. De plus, nous avons identifié des réseaux neuraux et des modifications d’expression protéiques sous-tendant les plasticités striatales associées à la réponse comportementale. L’ensemble de ces travaux apporte de nouvelles idées sur le contexte physiopathologique associé aux troubles du système de récompense dans la MP. Des données moléculaires et pharmacologiques convergentes suggèrent fortement le mGluR5 comme une cible thérapeutique prometteuse. / In Parkinson’s Disease (PD), the progressive dopaminergic (DA) cell loss mainly affects the substantia nigra pars compacta (SNc). The motor symptoms are classically managed by DA replacement therapies (DRT). Although adding DA agonists to levodopa treatment may contribute to prevent motor complications, it may be associated with drug‑induced changes in reward related pathways. Up to 14% of PD patients under DRT may suffer from ‘addiction‑like’ behavior such as pathological gambling, hypersexuality or DA medication‑induced substance abuse. To date, the only therapeutic answer consists in lowering the DA medications which deteriorates the motor symptoms. Neuroadaptations leading to reward bias in PD patients under DRT are still poorly understood. To address this challenge, we propose a work in which we have assessed the rewarding effect of the D2/D3 agonist pramipexole (ppx) after chronic exposure to L‑dopa in an alpha-synuclein PD rat model. In a first study, we assessed the effect of repeated DA receptors stimulations on sensitization of the reward system in a parkinsonian context. Our findings demonstrated that ppx had a rewarding effect after chronic L-dopa administrations and alpha-synuclein-mediated nigral loss. No transcriptional changes within DA receptors were highlighted. However, we identified an association between the main drug or lesion and transcriptional changes which were potentially related to the context of psychostimulant addiction. This study provides evidences strongly suggesting that PD-like lesion and L-dopa therapy were concomitant factors involved in striatal remodeling underlying the ppx-induced place preference. Molecular and pharmacological data suggested a key involvement ofthe glutamatergic pathway in this behavioral outcome. These data were consistent with literature describing major striatal glutamate imbalance as a common feature of drug addiction and Parkinson’s disease physiopathological contexts. Hence, we designed a second study aiming to further investigate the therapeutic potential of glutamatergic receptors inhibition. A bilateral lesion of the SNc was performed in the rat using AAV-mediated overexpression of the alpha-synuclein. This lesion was followed by chronic L-dopa administrations. Then, the effect of the metabotropic glutamate receptor 5 (mGluR5) antagonist MPEP on ppx reinforcing properties was assessed in a place conditioning paradigm. Finally, analysis at the protein level was conducted to associate drug and lesion induced behavioral changes to molecular endpoints. Acquisition and expression of the ppx-induced place preference was abolished by the MPEP. Furthermore, we identified neural networks and protein changes underlying the striatal remodeling associated with the behavioral outcome. All this work provides new insights into the physiopathological context associated to the PD/DRT related reward bias. Convergent molecular and pharmacological data strongly suggest mGluR5 as a promising therapeutic target. MGluR5 Maladie de Parkinson, Récompense Alpha‑synucléine L-dopa Pramipexole MGluR5 Alpha-synuclein, Reward Impulsive-compulsive disorder Parkinson’s disease L-dopa Pramipexole 616
40	Modification d'expression de NR2B lors de dyskinésies de la patte avant chez le rat induites par traitement chronique à la L-DOPA ou par stimulation à haute fréquence du Noyau Subthalamique / Modification of NR2B expression during forelimb dyskinesia induced by L-DOPA treatment or by high-frequency stimulation of the subthalamic nucleus in rat Quintana, Adrien 08 July 2011 (has links) La stimulation à haute fréquence (SHF) du noyau subthalamique (NST) joue un rôle essentiel chez les patients Parkinsoniens dans l'amélioration des troubles moteurs pour lesquels la dopa-thérapie n'est plus satisfaisante. Tout comme l'administration à long terme de L-DOPA, la SHF du NST, peut aussi, selon l'intensité de stimulation, évoquer des mouvements dyskinétiques. Ces dyskinésies sont considérées comme un phénomène d'apprentissage moteur pathologique, secondaire à une altération de la transmission glutamatergique et sont sous-tendues par des modifications durables d'expression génique, notamment dans le striatum. L'objectif de ce travail de thèse est d'étudier et de comparer les mécanismes moléculaires des dyskinésies induites par la L-DOPA à celles induites par la SHF, en se focalisant plus particulièrement sur la sous unité NR2B des récepteurs NMDA. Dans un premier temps, nous avons montré par immunohistochimie que la sous unité NR2B est hyperphosphorylée dans le NST et l'EP suite à l'induction de dyskinésie par la SHF du NST chez l'animal sain. Ces résultats ont été confirmés par la suite dans un modèle animal de la maladie de Parkinson, le rat 6-OHDA. La comparaison de ces modifications avec celles observées chez le rat 6-OHDA rendus dyskinétique par un traitement chronique à la L-DOPA nous permet de suggérer que l'induction des dyskinésies est associée à une hyperphosphorylation de NR2B au sein d'une voie subthalamo-entopédonculaire alors qu'une activation de NR2B dans le striatum semble être impliquée dans l'expression des dyskinésies. Enfin, nos résultats mettent également en évidence une implication différentielle des deux structures de sorties des ganglions de la base dans les processus akinétiques et dyskinésiogènes. / High frequency stimulation of the subthalamic nucleus (STN-HFS) alleviates parkinsonian motor symptoms and indirectly improves dyskinesia by decreasing L-DOPA requirement. However, inappropriate stimulation can also trigger dyskinetic movements Dyskinesia are thought to be a pathological learning process due to an overactive glutamate transmission within the basal ganglia. Moreover, several molecular changes seem to be involved in this process. The aim of the present study is to compare the molecular mechanisms of dyskinesia induced by L-DOPA and by STN-HFS, by focusing more particularly on the NR2B-containing NMDA receptor. We show by immunohistochemistry that NR2B subunit is hyperphosphorylated within the STN and the EP during a dyskinesiogenic STN-HFS in normal rats. Similar results are obtained from 6-OHDA rats, a model of Parkinson disease. Comparison of these results with those observed in 6-OHDA dyskinetic rats chronically treated with L-DOPA suggest that dyskinesia induction is associated with an hyperphosphorylation of NR2B within a subthalamo-entopeduncular network while activation of NR2B within the striatum seem to be involved in the expression of dyskinesia. A different implication of the two output of the basal ganglia in akinetic and dyskinesiogenic process is also demonstrated. STAR Date de soutenance : 8 juillet 2011 Thèse sur travaux: non Ganglions de la base Dyskinésie L-DOPA NR2B CP-101606 Basal ganglia Dyskinesia L-DOPA NR2B

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