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121	Interaction de la Cytogaligine avec l’α-Synucléine et les protéines d’autophagie. Perturbation de l’expression des gènes d’autophagie dans le sang périphérique de patients atteints de la maladie de Parkinson / Interaction of Cytogaligin with α-Synuclein and autophagy proteins. Disruption of autophagy genes expression in the peripheral blood of patients with Parkinson's disease El Haddad, Saïd 21 December 2017 (has links) Le gène GALIG produit deux protéines, la Mitogaligine et la Cytogaligine. Son expression conduit à la mort cellulaire par un processus encore mal défini. Dans ce cadre, nous nous sommes intéressés principalement à la Cytogaligine et avons précisé qu’elle est localisée dans le cytoplasme et le noyau mais également dans la mitochondrie au niveau de la membrane interne. Un test de complémentation montre que la Cytogaligine interagit avec la Mitogaligine. Cette interaction pourrait être un facteur important dans la mise en place de la voie d’apoptose médiée par l’expression de GALIG. D‘autres protéines interagissant avec la Cytogaligine ont été identifiées, notamment l’α-Synucléine, protéine centrale dans la maladie de Parkinson (MP), qui est connue pour s’agréger dans les cellules et induire la fragmentation des mitochondries. Dans la mesure où la surexpression de l’α-Synucléine conduit à des défauts de l’autophagie et du système Ubiquitine-protéasome dans la MP, nous avons recherché d’éventuels partenaires de la Cytogaligine associés à ces fonctions. De fait, la Cytogaligine interagit, en autre, avec les protéines de l’autophagie LC3B, GABARAP, p62/SQSTM1, la protéine chaperon Hsc70 ainsi que les protéines du système UPS, HUWE1 et UBQLN4. Ces résultats ouvrent de nouvelles pistes sur les conséquences fonctionnelles de l’expression de la Cytogaligine. Dans une deuxième partie, nous avons réalisé une étude clinique visant à évaluer le profil d’expression des gènes précédemment étudiés dans les cellules mononuclées du sang périphérique de patients atteints de la MP. Si l’expression du gène GALIG ne présente pas de variations entre les patients et les contrôles, une dérégulation de l’expression de différents gènes associés au processus de l’autophagie est mise en évidence. Parmi ces données, celles combinant l’expression du couple de gènes LC3B et GAPDH pourraient représenter un marqueur potentiel de la maladie dans le cadre d’un test diagnostic non invasif. / The GALIG gene produces two proteins, Mitogaligin and Cytogaligin. GALIG expression induces cell death by a still poorly defined process. In this context, we focused mainly on Cytogaligin and specified that it is localized in cytoplasm and nucleus but also in mitochondria close to the inner membrane. A functional complementation test showed that Cytogaligin interacted with Mitogaligin. This interaction could be an important factor in the establishment of the apoptosis pathway mediated by GALIG expression. Other proteins interacting with Cytogaligin have been identified, including α-Synuclein, a central protein in Parkinson's disease (PD), which is known to aggregate in cells and induce fragmentation of mitochondria. Since overexpression of α-synuclein leads to autophagy and Ubiquitin-proteasome system disruptions, we have looked for potential Cytogaligin partners associated with these functions. Cytogaligin interacted with the autophagy proteins LC3B, GABARAP, p62/SQSTM1, the chaperone protein Hsc70 as well as the UPS system proteins HUWE1 and UBQLN4. These results open perspectives regarding the functional consequences of the expression of Cytogaligin. In a second part, we carried out a clinical study aimed at evaluating the expression profile of the previously studied genes in the peripheral blood mononuclear cells of PD patients. If the expression of the GALIG gene does not show variations between PD patients and controls, deregulation of the expression of genes associated with autophagy was highlighted. Among these data, those combining the expression of the two genes LC3B and GAPDH could represent a potential marker of the disease as a non-invasive diagnostic test. GALIG Cytogaligine Α-Synucléine Autophagie Apoptose Maladie de Parkinson GALIG Cytogaligin Α-Synuclein Autophagy Apoptosis Parkinson’s disease 571.6
122	Tradução e validação de conteúdo em português do questionário para avaliação de distúrbios impulsivo-compulsivos na doença de Parkinson - Parkinson's Disease Impulsive-Compulsive Disorders Questionnaire – Current Short (QUIP-CS) Krieger, Débora Mascella January 2016 (has links) Base teórica: A doença de Parkinson (DP) é a segunda enfermidade neurodegenerativa mais frequente, crescendo proporcionalmente com o aumento da idade. É uma doença de comprometimento motor e não motor. Levodopa e agonistas dopaminérgicos (AD) são usados no tratamento da DP, permitindo um controle ótimo dos sintomas nos primeiros anos. Entretanto, em 5 anos, metade dos pacientes terão complicações motoras e nãomotoras induzidas pelo uso de antiparkinsonianos. Manifestações neuropsiquiátricas são frequentes, entre elas depressão, ansiedade, prejuízos cognitivos, sintomas psicóticos e transtorno de descontrole dos impulsos(DI). O DI é uma condição caracterizada pela falência em resistir a impulsos ou tentação de executar atos. O DI está associado ao uso de antiparkinsonianos, em especial, os agonistas dopaminérgicos A identificação desta condição é primordial para seu tratamento e estudo adequados. Na literatura atual, o questionário padrão-ouro foi validado na língua inglesa (QUIP), não existindo uma validação para língua portuguesa. Objetivo: Traduzir e validar o questionário QUIP-CS, em sua versão curta e aplicável no momento presente da DP, para lingua Portuguesa do Brasil Métodos: A versão curta da QUIP (QUIP-CS) foi traduzida para o Português por tradutor juramentado. Após, esta foi avaliada por 5 especialistas em DP no Brasil, sendo sugeridas pequenas correções. A versão corrigida em português foi retrotraduzida para o inglês por 2 tradutores juramentados nativos na língua original da escala (inglês), que compararam suas versões posteriormente, chegando-se a uma nova versão final neste idioma. Esta foi enviada ao autor da escala original, que concordou com esta versão, ou seja, foram mantidas as propriedades semânticas do instrumento. Após, a versão final em Português foi auto-aplicada em 65 indivíduos com diagnóstico de DP em tratamento no ambulatório especializado no HCPA, sendo que, de forma aleatória, para 30 foi aplicado um questionário de avaliação sobre o grau de dificuldade de compreensão de suas perguntas. Resultados: Em uma escala de 1 a 5 pontos, onde 1 era nenhuma compreensão das perguntas e 5, clara compreensão, a média de entendimento pelos pacientes foi de 4,06 +/- 0,69 DP. Conclusão: A avaliação desta versão foi considerada de fácil compreensão pelos próprios pacientes. O artigo para validação da tradução do conteúdo da versão em Português da QUIP-CS está em fase de revisão para publicação. / Background: Parkinson’s disease (PD) is the second most often neurodegenerative disease and proportionally growing with people aging. PD is a disease with motor and nonmotor clinical features. Levodopa and dopaminergic agonists (DA) are used for PD treatment, allowing an exquisite control of the motor symptoms during the first years. However, in five years, half patients will present motor or non-motor complications induced by cronic use of these medications. Neuropsychiatric symptoms are often, for example, depression, anxiety, cognitive impairment, psychotic symptoms and impulse control disorders (ICD). The ICD is characterized by failure on resisting an impulse or on performing an specific act. Identification of the PD affected patients is crucial for proper management and study of this condition. There is an already validated self-reported questionnaire for this purpose, the Parkinson's Disease Impulsive-Compulsive Disorders Questionnaire (QUIP), without equivalent in portuguese language. Objective: To translate and to validate the Portuguese short version of the gold-standard questionnaire for identifying ICDs PD affected patients, applicable at the current moment of PD Methods: QUIP-CS was first translated to Portuguese by a professional translator. This translated version was shown to 5 PD neurologist specialists. in Brazil, being suggested minor modifications on it. This new Portuguese revised version was back translated to English by two independent native English speakers. They were both asked to compare the version one another and checked for differences. Then, they contacted each other and got a final back translated version. This one was sent for the original author, that approved its new version comparing to his original and validated one, with no loss of it’s original properties. The Portuguese corrected version was applied to 65 patients in a random way at PD’s ambulatory at HCPA. From these, 30 were asked to answer a number that would represent their level of QUIP-CS questions’ comprehension. Results: In a 1 to 5 point scale, being 1 no comprehension and 5, total comprehension, the average was 4,06 +/- 0,69 DP. Conclusion: Our results on Portuguese version of QUIP-CS show that QUIP-CS translated and corrected version was easily understood and easily self-applied. The article is under revision to be submitted for publication. Doença de Parkinson Inquéritos e questionários Parkinson’s Disease Impulse control disorders Self-Reported questionnaire Cross-cultural adaption
123	Evaluating the potential for neurodegenerative disease models in juvenile Drosophila melanogaster Ferlito, Valentina Claudia January 2017 (has links) With 9.9 million new dementia cases each year, Alzheimer’s and Parkinson’s disease (AD and PD) are the most prevalent form of neurodegenerative disorder (NDG) affecting the aging population. Despite years of pharmaceutical research, no cure is yet available. Most neuropathological aspects of these diseases are extremely complex but the study of the rare genetic cases allowed to model these diseases in animals and uncover key pathophysiological processes. Transgenic Drosophila NDG models have been used for in vivo studies for many years with a range of relevant phenotypes. The cellular and molecular biology of the Central Nervous System, as well as the mechanisms underlying neurodegeneration, are well conserved between Drosophila and Humans (with a 75% of human disease-related genes having homologs in flies). Most NDG studies are performed in the aging flies. However, there are reports of measurable phenotypes for a variety of AD and PD models in juvenile Drosophila melanogaster (larval stage) with an unexploited considerable potential for drug discovery and screening for this outstanding model. Here I sought to develop a new assay for research into NDGs that focus on the earliest phenotypes. During this Ph.D. project a customized crawling assay apparatus was developed, for the assessment of locomotor ability in humanised larval Drosophila (overexpressing human proteins/peptides linked to AD and PD). A locomotor phenotype was identified in larvae overexpressing different variation of Amyloid-β42, tau and α-Synuclein pan neutrally: these animals crawl on agarose surface at a reduced mean speed when compared to controls. The defect was proven partially rescuable by administration of Tacrine and Methylene Blue, renewing the importance of such models for future applications in drug discovery and screening. The motor impairment supports the hypothesis of a neurotoxic effect of the protein/peptide. Thus, to test this further, the overexpression of the human transgenes was restricted to neurons involved in larval olfaction (olfactory impairment is often the earliest symptom in PD and AD) and odour associated learning tasks (both PD and AD are characterized by severe cognitive dysfunction). Interestingly, larvae overexpressing the Amyloid-β42 ARC peptide in the Olfactory Sensory Neurons showed a subtle navigation defect during chemotaxis (in 1-Hexanol odour gradient) that could possibly be addressed to premature neural habituation to the olfactory stimulus. Furthermore, the overexpression of the peptide in the larval Mushroom Bodies influenced the performances of the animals in associative learning tasks. Lastly, using immunohistochemistry and confocal imaging techniques I showed that the gross morphology of neurons is not altered by the targeted overexpression of the Amyloid-β42 ARC. Even though physiological studies are required to characterize the chemosensory/learning defect shown by the Amyloid-β42 ARC larvae, this Ph.D. work further confirms that the effects of the overexpression of the human transgenes are robust and measurable already at larval stage. These findings may also be relevant to the development of new, fast, and cost-effective compound screening procedures, for applications in early stages of the drug discovery process.
124	Effet de l’activation du récepteur mGluR2 par LY-354,740 sur les dyskinésies chez le modèle parkinsonien de rat lésé à la 6-hydroxydopamine Frouni, Imane 04 1900 (has links) No description available. dyskinésies mGluR2 LY-354,740 maladie de Parkinson L-DOPA Parkinson’s disease dyskinesia
125	Imagerie moléculaire de la neuroinflammation dans la maladie de Parkinson : étude préclinique dans un modèle animal de rat Maia, Serge 16 November 2012 (has links) Bien que les mécanismes moléculaires précis à l’origine de la neurodégénérescence dopaminergique ne soient pas encore totalement connus, un ensemble de preuves épidémiologiques, cliniques et expérimentales indiquent que la neuroinflammation peut avoir un rôle important dans la pathogenèse de la MP. L’étude des liens spatio-temporels entre la neuroinflammation et la neurodégénérescence au cours de la MP pourrait améliorer la compréhension du mécanisme physiopathologique et aussi l'accessibilité à un diagnostic précoce et/ou à de nouvelles approches thérapeutiques anti-inflammatoires. Le développement actuel des méthodes non invasives d'imagerie moléculaire permettant la surveillance directe du processus de neuroinflammation devrait être utile à cet effet. La cible moléculaire de choix dans ce domaine est la protéine de 18 kDa translocateur (TSPO), biomarqueur sensible associée à la neuroinflammation, qui est surexprimé dans les microglies activées. Dans le travail présenté ici nous avons réalisé l'évaluation longitudinale des deux mécanismes physiopathologiques en parallèle avec les modifications de la fonction dopaminergique à plusieurs points au cours du temps après lésion à la 6-OHDA chez le rat, modèle qui imite un stade précoce de la MP. Après l'administration unilatérale, intra-striatale de la 6-OHDA, nous avons quantifié l'évolution temporelle de la TSPO, de l’immunoréactivité TH et du DAT dans le striatum et la SNC de 3 à 56 jours post-lésion (jpl). L’augmentation de la liaison des ligands de la TSPO utilisés, c-à-d [3H]-PK11195 et [125I]-CLINDE, a été observée dans le striatum lésé à 3, 7 et 14 jpl, suivie d'un retour progressif à un niveau basal à 56 jpl. Le profil de liaison dans la SNC a montré une augmentation progressive de la fixation qui débute à 3 jpl, avec un pic à 14 jpl, et diminue progressivement jusqu'à ce que 56 jpl. Dans ce modèle de rongeur de la MP, les processus neuroinflammatoire et neurodégénératif surviennent de façon concomitante. La présence transitoire de l'activation microgliale pourrait être impliquée dans l’apparition et l'installation durable de la perte neuronale dopaminergique. Cette étude confirme donc le lien entre la neuroinflammation et de la neurodégénérescence et met aussi l'accent sur l'intérêt du CLINDE comme traceur potentiel de la neuroinflammation in-vivo en fournissant des informations précieuses pour le diagnostic précoce et le suivi longitudinal de la progression de la maladie, avec des applications potentielles chez l'homme. En effet, la détection précoce de la neuroinflammation, de façon antérieure à une perte neuronale cliniquement significative, pourrait devenir un enjeu majeur dans la prise en charge pré-symptomatique de la MP. Dans ce sens, nous mettons en évidence l’existence d'une fenêtre thérapeutique, survenant juste après la lésion, qui peut être proposé pour l'introduction de traitements anti-inflammatoires qui viseraient à ralentir le processus neurodégénératif. La poursuite de l’exploration des relations entre la neuroinflammation et la neurodégénéréscence in-vivo dans le même modèle animal avec la méthode d’imagerie micro-TEP, transposable à l’homme, en utilisant en parallèle le [18F]-DPA714 pour la TSPO et le [18F]-LBT999 pour le DAT est en cours. / Although the precise molecular mechanisms causing the dopaminergic neurodegeneration are still not totally understood, a body of epidemiological, clinical and experimental evidence indicates that neuroinflammation may have an important role in the pathogenesis of PD. Study of spatio-temporal links between neuroinflammation and neurodegeneration during the course of PD would improve understanding of the physiopathological mechanism and also accessibility to early diagnosis and/or new antiinflammatory therapeutic approaches. The current development of non-invasive molecular imaging methods allowing direct monitoring of the neuroinflammation process should be valuable for this purpose. The molecular target of choice in this field is the 18 kDa translocator protein (TSPO), a sensitive biomarker associated with neuroinflammation, which is over-expressed in activated microglia. In the study presented here we achieved the longitudinal evaluation of both physiopayhological mechanisms in parallel with the modifications of dopaminergic function at several time-points after 6-OHDA lesion in the rat that mimics an early stage of PD. After unilateral intra-striatal 6-OHDA administration, we quantified the temporal evolution of the TSPO, TH immunoreactivity and DAT in the striatum and the SNc from 3 to 56 days post-lesion (dpl). Increased binding of TSPO ligands used, i.e. [3H]PK11195 and [125I]CLINDE, was observed in the lesioned striatum at 3, 7 and 14 dpl, followed by a progressive return to the basal level at 56 dpl. The binding profile in the SNc showed progressive binding beginning at 3 dpl, peaking at 14 dpl, and progressively decreasing until 56 dpl. In this rodent model of PD, the neuroinflammatory and neurodegenerative processes occurred concomitantly. The transitory occurrence of microglial activation could be involved in the advent and the lasting installation of dopaminergic neuron loss. This study supports the link between neuroinflammation and neurodegeneration and emphasizes the interest of CLINDE as potent in vivo tracer of neuroinflammation by providing valuable information for early diagnosis and longitudinal follow-up of disease progression, with potential applications to human patients. Indeed, early detection of neuroinflammation, prior to a clinically significant loss of neurons, could become a major issue in the management of pre-symptomatic PD. To support this idea, we demonstrate the existence of a therapeutic window, occurring just after the lesion, which may be proposed for the introduction of anti-inflammatory treatments that aimed to slow the neurodegenerative process. Further exploration of the relationship between neuroinflammation and neurodegeneration in vivo in the same animal model with the method of micro-PET imaging, transposable to humans, using in parallel the [18F]-DPA714 for TSPO and [18F]-LBT999 for DAT is pending. Microglie TSPO (18 kDa) 6-OHDA Maladie de Parkinson TEMP TEP Microglia TSPO (18 kDa) 6-OHDA Parkinson’s disease SPECT PET
126	The role of p53 in autophagy and apoptosis in response to stress in the nervous system / Rôle de p53 dans la régulation de l’autophagie et de l’apoptose dans le système nerveux en réponse au stress Robin, Marion 17 July 2015 (has links) P53 est un facteur de transcription qui se décline, chez l’homme, la souris ou la drosophile, en plusieurs isoformes. Chez la drosophile deux isoformes ont été caractérisées : la forme canonique Dp53 ; et une forme tronquée, D∆Np53, dont le domaine de transactivation est incomplet. Une des questions encore peu étudiée, concerne les mécanismes par lesquels p53 régule une grande variété de réponses cellulaires lors d’un stress. Pour répondre à cette question, nous avons étudié le rôle des isoformes de p53 dans la régulation de deux mécanismes antagoniste en lien avec la maladie de Parkinson (MP) : l’autophagie et l’apoptose en réponse à un stress délétère et un stress hormétique du système nerveux. Nous avons montré que les drosophiles portant une mutation nulle de p53 sont plus sensibles aux effets du paraquat (fort stress oxydant, modèle chimique de la maladie de Parkinson). En absence de p53, ce stress cause une forte inhibition de l’initiation et du flux de l’autophagie accompagné d’une augmentation des niveaux de caspases et de la mortalité. L’augmentation de la mortalité et des niveaux de caspases est similaire chez des mutants de l’autophagie pour lesquels le flux d’autophagie est constitutivement altéré. D’autre part, nous avons montré que les deux isoformes de p53 (Dp53 et D∆Np53) régulent différemment l’apoptose et l’autophagie dans les neurones photorécepteurs de drosophile : l’isoforme Dp53 présente un flux autophagique fonctionnel retardant la neurodégénérescence, tandis que, l’isoforme D∆Np53 inhibe le flux d’autophagie via l’activation des caspases Dcp1, Drice et Dronc. Enfin, nous avons établi un lien entre p53 et le stress du réticulum endoplasmique (RE). Dans un premier temps nous avons montré qu’un stress modéré du RE (pré-conditionnement) a un effet protecteur dépendant de l’activation de l’autophagie dans différents modèles de la MD. Ensuite, nous avons montré que les trois banches de la réponse au stress du RE (IRE1, Atf6 et PERK) sont impliquées dans cet effet protecteur. Enfin, nous avons montré que les drosophiles mutantes pour p53 perdent l’effet protecteur du pré-conditionnement. L’ensemble de nos résultats apporte de nouveaux éléments sur l’aspect multifonctionnel de p53 en réponse à un stress dans le système nerveux. Via ses multiples isoformes, p53 peut activer deux réponses antagonistes : l’autophagie et l’apoptose, permettant aux cellules une réponse flexible face à une situation de stress. La régulation de l’autophagie par p53 est protectrice et apparait comme étant une fonction ancestrale de p53. / P53 is a tumor suppressor gene, which has been showed to regulate several cellular pathways. Upon stress, p53 triggers multiple cellular pathways including DNA repair system, cell cycle arrest, apoptosis and autophagy. Thus, p53 is involved in both cellular protection and death pathways. One of the major questions is to understand how a single protein can promote so many different pathways. Here I address the putative role of p53 isoforms in the regulation of autophagy and apoptosis and their role in neuron survival in the context of Parkinson’s disease (PD). We show that p53 mutants are more susceptible to paraquat toxicity (chemical model of PD), indicating a protective role for p53. We also found that Atg8 mutant, which display an impaired autophagy, behave similarly to p53 upon paraquat treatment. In addition, we show that p53 is required for the activation of autophagy with a functional autophagy flux upon paraquat treatment and that lack of p53 or Atg8 results in an accumulation of activated caspases after paraquat treatment. Moreover, we found that autophagy and apoptosis were differentially regulated by different p53 isoforms. The Dp53 (p53B) isoform induced protective autophagy, whereas the D∆Np53 (p53A) isoform inhibited autophagy by activating the caspases Dronc, Drice and Dcp-1 in differentiated neurons. Our results demonstrate that a combination of the differential use of p53 isoforms and the antagonism between apoptosis and autophagy favors the generation of an appropriate p53 biological response to stress. In addition, we have defined in vitro and in vivo experimental conditions in which the activation of the Unfolded Protein Response (UPR) does not induce cell or organism lethality but rather promotes an adaptive response that protects from apoptotic stimuli. We show that this mild activation, known as ER-preconditioning is protective in several models of PD in an autophagy-dependent fashion. We showed that the three branches of the UPR are involved in the protective effect induced by ER-preconditioning. We then demonstrated that p53 is necessary to mediate the protection by ER-preconditioning suggesting that p53 may be a key factor in the integration of stress responses. Together our results reveal new aspects of the multi-functionality of p53. Activation of the antagonist pathways: autophagy and apoptosis by p53 isoforms, leads to flexible and adaptive response to stress. In addition, our results suggest that the regulation of autophagy by p53 is a ancestral protective function of p53. Isoformes de p53 Autophagie Apoptose Caspases Stress du réticulum endoplasmique Maladie de Parkinson P53 isoforms Autophagy Apoptosis Caspases ER stress Parkinson’s disease
127	Development of a system of acquisition and movement analysis : application on Parkinson's disease / Développement d’un système d’acquisition et d’analyse du mouvement : application à la maladie de Parkinson Jalloul, Nahed 12 December 2016 (has links) Le travail présenté dans ce mémoire porte sur le développement d'un système de surveillance ambulatoire pour la détection de la dyskinésie induite par la Levodopa (LID) chez les patients de la maladie de Parkinson (PD). Le système est composé d’unités de mesure inertielle (IMUs) qui recueillent des signaux de mouvement chez des sujets sains et des patients parkinsoniens. Des méthodes différentes sont évaluées pour la détection de LID avec et sans classification des activités. Les données recueillies auprès des sujets sains sont utilisées pour concevoir un classificateur d'activité fiable. Par la suite, un algorithme qui effectue la classification des activités et la détection de la dyskinésie sur les données recueillies auprès de des patients parkinsoniens est proposé. Une nouvelle approche basée sur l'analyse de réseau complexe est également explorée et présente des résultats intéressants. Les méthodes de traitement développées ont été intégrées dans une plateforme complète d’analyse nommée PARADYSE. / The work presented in this thesis is concerned with the development of an ambulatory monitoring system for the detection of Levodopa Induced Dyskinesia (LID) in Parkinson’s disease (PD) patients. The system is composed of Inertial Measurement Units (IMUs) that collect movement signals from healthy individuals and PD patients. Different methods are evaluated which consist of LID detection with and without activity classification. Data collected from healthy individuals is used to design a reliable activity classifier. Following that, an algorithm that performs activity classification and dyskinesia detection on data collected from PD patients is tested. A new approach based on complex network analysis is also explored and presents interesting results. The evaluated analysis methods are incorporated into a platform PARADYSE in order to further advance the system’s capabilities. Traitement du signal Capteurs portables Classification des activités LID Détection La maladie de Parkinson Signal Processing Wearable Sensors Activity Classification LID Detection Parkinson’s Disease
128	Méthodes innovantes de transgenèse chez le rat : application pour la modélisation de la maladie de Parkinson / Innovative methods of transgenesis in rats : application to model Parkinson's disease Chansel-Debordeaux, Lucie 26 October 2017 (has links) Les avancées récentes dans la technique de transgénèse utilisant l’approche AAV ont permis de générer de nouveaux modèles animaux. Depuis quelques années, le développement des modèles de la maladie de Parkinson (MP) a amélioré la compréhension des mécanismes physiopathologiques de ce trouble dégénératif. Cependant, aucun modèle mammifère ne reproduit à ce jour la neurodégénérescence liée à l’âge associée à la pathologie synucléine et la symptomatologie motrice et non motrice. L’objectif de mon travail de thèse fut de développer de nouvelles stratégies de transgénèse chez le rat en utilisant ces vecteurs viraux pour la modélisation de la MP. Le challenge est de parvenir à une infection virale la plus précoce possible afin de transduire un maximum de neurones dopaminergiques. Pour cela, différentes voies d’approche ont été testées pour améliorer le processus de transgénèse : 1) l’injection de vecteurs viraux dans le rete testis de jeunes mâles pour transduire les cellules de la lignée germinale, 2) l’injection dans les embryons pré-implantatoires, 3) l’injection in utero intracérébroventriculaire et enfin 4) l’injection intracardiaque au premier jour de vie des animaux. Parmi elles, les injections in utero et intracardiaques ont permis d’aboutir à une transduction importante d’un grand nombre de structures cérébrales avec un tropisme neuronal. Ces techniques ouvrent la voie à la génération de nouveaux modèles animaux de maladies à composante génétique et à la thérapie génique. / Recent advances in the transgenesis technique using the AAV approach have led to the generation of new animal models. In recent years, the development of models of Parkinson's disease (PD) has improved understanding of the pathophysiological mechanisms of this degenerative pathology. However, no mammalian model recapitulates the required age-dependant parkinsonian degeneration, the α-synuclein inclusion pathology and motor and non-motor symptoms. The objective of my Ph.D work was to develop new transgenesis strategies in rats using these viral vectors for modeling PD. The challenge is to achieve a viral infection as early as possible in order to transduce as many dopaminergic neurons as possible. To this end, different strategies have been tested to improve transgenesis efficacy : i) injection in rete testis in young male to transduce germinal cells, ii) injection into early stage embryos, iii) in utero intracerebroventricular injection and iv) intracardiac injection in one day-old animals. Among them, in utero and intracardiac injections led to neuronal transgene expression in most regions of the brain. These techniques pave the way for the generation of new animal models of genetic diseases and offer unique opportunities for gene therapy. Transgenèse Maladie de Parkinson Synucléine Virus adéno-associés Modèles animaux Transgenesis Parkinson’s disease Synuclein Adeno-associated virus Animal models
129	Plasticité anormale et maladie de Parkinson : de l'akinésie à l'hyperkinésie / Deleterious plasticity in Parkinson’s disease from akinesia to hyperkinesia Poisson, Alice 27 November 2014 (has links) Nous avons pris le parti pour cette thèse d'étudier en Imagerie par Résonance Magnétique fonctionnelle deux éléments sémiologiques de la maladie de Parkinson : les mouvements en miroir et l'akinésie. Ces deux phénomènes reflètent une plasticité cérébrale anormale dans cette maladie. Notre première expérience révèle que les mouvements en miroir chez les patients parkinsoniens sont contemporains 1/ d'un défaut d'inhibition, notamment réactive. 2/ de nombreuses hyperactivations, pouvant refléter soit un recrutement compensateur soit une perte délétère de la sélectivité de l'activation corticale. La deuxième expérience s'intéresse à une autre forme d'inhibition, l'inhibition proactive. Nos résultats révèlent que les structures participant au contrôle moteur proactif et notamment le précuneus et les cortex cingulaires postérieur et antérieur sont modulés par le système noradrénergiques chez le sujet sain. Dans une troisième expérience nous avons appliqué ce protocole expérimental à des sujets parkinsoniens. La comparaison avec les données issues de la première expérience révèlent 1/ que les sujets parkinsoniens ont une implémentation anormale du réseau d'inhibition proactive avec une difficulté à se placer en condition de déverrouillage moteur. Ce phénomène pourrait allonger le temps de réaction et participer à l'akinésie. 2/ que l'administration de clonidine renforce encore ce phénomène, en agissant sur les structures antérieures du réseau d'inhibition proactive (cortex cingulaire antérieur et cortex préfrontal dorsomédial). Tous ensembles ces résultats suggèrent une plasticité anormale dans la maladie de Parkinson sousjacente aux mouvements en miroir et à l'akinésie. Celle-ci se traduit 1/ par des défauts d'inhibition, notamment réactive, favorisant l'apparition de mouvements parasites, les mouvements en miroir, 2/ par un renforcement pathologique de l'inhibition proactive qui pourrait participer à l'allongement du temps de réaction et à l'akinésie. La découverte d'une modulation noradrénergique de ce réseau ouvre des portes thérapeutiques nouvelles dans l akinésie parkinsonienne mais également dans l'impulsivité dont certains composants, notamment moteur, semblent être liés à l'inhibition proactive / Mirror movements and akinesia can be both found during Parkinson’s disease. Although very different, they may both reflect an abnormal cerebral plasticity during the disease and the perturbation of the motor inhibitory control. This work reveals that mirror movements are linked to a1/ disruption of the reactive inhibitory control and 2/ to the overactivation of numerous cortical areas. The latter could be the result of a compensatory recruitment aiming at improving the movement. But they could as well reflect a deleterious loss of cerebral activation specificity during Parkinson’s disease. The second experience shows that in healthy subject, the proactive inhibitory control is underpinned by the noradrenergic system. Last but not least the third part of this work reveals an abnormal implementation of the proactive inhibitory control in Parkinson’s disease and suggests its involvement in akinesia. Brought together these results suggest that an abnormal plasticity phenomenon underlies the mirror movements and the akinesia in Parkinson’s disease. More precisely, we observed a default of the reactive inhibitory control associated to mirror movements in Parkinson’s disease and an excess of proactive inhibitory control that seems to be linked to akinesia. The finding of an adrenergic modulation of the proactive inhibitory control opens the fields for the development of noradrenergic therapeutics in akinesia Maladie de Parkinson Mouvements en miroir Akinésie Locus coeruleus Noradrénaline IRMf Parkinson’s disease Mirror movements Akinesia Locus coeruleus Noradrenaline FMRI 612.8
130	Biometal-Induced Structural Consequences of α-Synuclein – the Parkinson’s Disease Protein Abeyawardhane, Dinendra L 01 January 2019 (has links) The pre-synaptic protein α-Synuclein (αS) is often linked to the pathology of Parkinson’s disease (PD), an age-related neurodegenerative disorder. Lewy bodies, the cytopathological hallmarks of PD, are found to be rich in aggregates of misfolded αS protein. Metal dyshomeostasis has also been linked to PD due to the accumulation of iron in the substantia nigra pars compacta, and diminished copper levels reported in this same region. Metal dyshomeostasis in the brain coupled with oxidative stress can enhance the aggregation of αS. Recently, it was confirmed that mammalian αS is universally acetylated at the N-terminus, a common post-translational modification in humans. The consequences of this modification have been understudied, and it is believed to impart a functional role under physiological conditions with respect to membrane-interactions and protein folding. In an attempt to elucidate the pathological mechanism behind PD with respect to the structural dynamics of the protein, our investigations were focused on physiologically prevalent, N-terminally acetylated αS (NAcαS) and its interaction with the most prevalent redox-active metal ions in the brain (iron and copper) under both aerobic and/or anaerobic conditions. The structural features associated with metal-bound NAcαS differed depending on the iron oxidation states, where under aerobic conditions Feᴵᴵ stabilized an oligomer-locked, anti-parallel right-twisted β-sheet conformation that could potentially impart toxicity to neurons. In contrast, Feᴵᴵᴵ promoted a fibrillar structure rich in parallel β-sheets. N-terminal capping also altered the Cuᴵᴵ coordination sphere and had a dramatic effect on protein aggregation. Parallel studies on NAcαS variants with different site mutations near the putative copper binding sites (ex: H50Q and F4W) indicated that preferential binding shifts upon changes in the side chain residues. In depth analysis of the electron structure of Cuᴵᴵ-bound NAcαS using electron paramagnetic resonance spectroscopy (EPR) revealed a coordination sphere of N3O1 that includes the H50 residue in the wild-type protein that shifts to an O4 coordination sphere at the C-terminus upon Cuᴵᴵ binding to the disease-relevant H50Q variant. Immunoblotting analyses revealed that copper-induced redox chemistry promoted O2-activation and the subsequent formation of dityrosine crosslinks, a post-translational modification identified as a biomarker of PD. EPR-detection of tyrosyl radical formation in the presence of Cuᴵ-bound NAcαS further supported this radical coupling mechanism. Intermolecular crosslinks within the fibrillar core of NAcαS as well as intramolecular crosslinks within the C-terminal region underpin the role of metal-dioxygen chemistry in PD-related pathology. The unique structural features resulting from iron vs copper coordination to NAcαS inspired studies directed at the synergistic effect of each individual metal species as revealed by photo-initiated crosslinking of NAcαS. C-terminal intramolecular tyrosine interactions were mainly impacted by the presence of both metals, which each have binding sites around the same region. These findings emphasize that protein dynamics, metal binding site conformational changes, as well as aggregation pathways can deviate drastically upon N-terminal acetylation of αS and that protein-metal interactions may play a vital role in PD etiology. α-Synuclein N-terminal Acetylation Parkinson’s Disease Metal-Oxygen Chemistry Protein Structural Dynamics Protein Aggregation Biochemistry Biophysics Inorganic Chemistry

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