Towards Uncovering the Role of Pre-fibrillar Oligomers of á-Synuclein in the Pathogenesis of Parkinson's Disease

Gajula Balija, Madhu Babu

02 July 2010

No description available.

500 Naturwissenschaften

á-Synuclein

Parkinson s Disease

Neurodegeneration

Dopaminergic System

Motor Symptoms and Non-motor Symptoms

Circadian Rhythms and Sleep

Drosophila melanogaster.

á-Synuclein

Parkinson s Disease

Neurodegeneration

Dopaminergic System

Motor Symptoms and Non-motor Symptoms

Circadian Rhythms and Sleep

Drosophila melanogaster.

42.13

WF

Effet de la maladie de Parkinson et de la médication dopaminergique sur les mécanismes de traitement et d'intégration sensorielle et l'adaptation visuomotrice

Mongeon, David

10 1900

L’intégrité de notre système sensorimoteur est essentielle aux interactions adéquates avec notre environnement. Dans la maladie de Parkinson (MP), l’efficacité des interactions quotidiennes entre le corps et l’environnement est fréquemment réduite et diminue la qualité de vie. La MP est une maladie neurodégénérative résultant prioritairement d’une perte neuronale dopaminergique dans les ganglions de la base (GB). Cette dégénérescence altère le fonctionnement normal de la circuiterie associant les GB au cortex cérébral. L’administration de médications dopaminergiques permet d’améliorer les principaux symptômes cliniques moteurs de la MP. Cette thèse porte sur les rôles des GB dans les processus de traitement et d’intégration des informations sensorielles visuelle et proprioceptive et dans les mécanismes d’adaptation visuomotrice. Elle s’intéresse également à l’influence de la médication dopaminergique sur ces fonctions sensorimotrices. Nous avons réalisé trois études comportementales, utilisant l’atteinte manuelle tridimensionnelle comme modèle expérimental. Dans chacune de ces études, nous avons comparé la performance de personnes âgées en santé à celle de personnes souffrant de la MP avec et sans leur médication antiparkinsonienne quotidienne. Ces trois études ont été réalisées à l’aide d’un système d’analyse de mouvement et une station de réalité virtuelle. Dans la première étude, nous avons évalué si les GB sont prioritairement impliqués dans l’intégration sensorimotrice ou le traitement des informations proprioceptives. Pour se faire, nous avons testé la capacité des patients MP à effectuer des atteintes manuelles tridimensionnelles précises dans quatre conditions variant la nature des informations sensorielles (visuelles et/ou proprioceptives) définissant la position de la main et de la cible. Les patients MP ont effectué, en moyenne, de plus grandes erreurs spatiales que les personnes en santé uniquement lorsque les informations proprioceptives étaient la seule source d’information sensorielle disponible. De plus, ces imprécisions spatiales étaient significativement plus grandes que celles des personnes en santé, seulement lorsque les patients étaient testés dans la condition médicamentée. La deuxième étude présentée dans cette thèse a permis de démontrer que les imprécisions spatiales des patients MP dans les conditions proprioceptives étaient le résultat de déficits dans l’utilisation en temps réel des informations proprioceptives pour guider les mouvements. Dans la troisième étude, nous avons évalué si les GB sont prioritairement impliqués dans les mécanismes d’adaptation visuomotrice explicite ou implicite. Pour se faire, nous avons testé les capacités adaptatives des patients MP dans deux tâches variant le décours temporel de l’application d’une perturbation visuomotrice tridimensionnelle. Dans la tâche explicite, la perturbation était introduite soudainement, produisant de grandes erreurs détectées consciemment. Dans la condition implicite, la perturbation était introduite graduellement ce qui engendrait de petites erreurs non détectables. Les résultats montrent que les patients MP dans les conditions médicamentée et non médicamentée présentent des déficits adaptatifs uniquement dans la tâche explicite. Dans l’ensemble, les résultats expérimentaux présentés dans cette thèse montrent que la médication dopaminergique n’améliore pas le traitement des afférences proprioceptives et l’adaptation visuomotrice des personnes souffrant de la MP. Ces observations suggèrent que les dysfonctions dans les circuits dopaminergiques dans les GB ne sont pas les seules responsables des déficits observés dans ces fonctions sensorimotrices. / The integrity of our sensorimotor system is essential for adequate interactions with the environment. In Parkinson’s disease (PD), the efficiency of the daily interactions between the body and the environment is often reduced and interfere with quality of life. PD is a neurodegenerative disease resulting primarily from a dopaminergic neuronal loss in the basal ganglia (BG). This progressive loss of neurons alters the normal functioning of the BG-cortical circuitry. Dopaminergic medication is well known to remediate the major clinical motor symptoms of PD. This thesis investigates the role of the BG in the processing and integration of visual and proprioceptive sensory information and in visuomotor adaptation. This thesis also explores the influence of dopaminergic medication on these sensorimotor functions. We performed three behavioral studies using three-dimensional reaching movements as an experimental model. In each study, we compared the performance of healthy controls and individuals suffering from PD, while in the non-medicated condition and when on their regular daily antiparkinsonian medication. These three studies were performed using a movement analysis system and a virtual reality station. In the first study, we evaluated whether the BG are primarily involved in sensorimotor integration or in the processing of proprioceptive sensory information. We tested the ability of PD patients to perform accurate reaching movements in four conditions in which the sensory signals defining target and hand positions (vision and/or proprioception) varied. On average, PD patients made larger spatial errors than healthy controls when proprioception was the only source of sensory information available. Furthermore, these movement inaccuracies were significantly larger than those of healthy controls only when PD patients where tested in the medicated condition. The second study presented in this thesis demonstrated that the greater movement inaccuracies of PD patients in the proprioceptive conditions resulted mainly from impaired use of proprioceptive information for on-line movement guidance. In the third study, we evaluated whether the BG are primarily involved in explicit or implicit visoumotor adaptation mechanisms. Visuomotor adaptation skills of non-medicated and medicated patients were assessed in two reaching tasks in which the size of spatial errors made during adaptation was manipulated by varying the temporal evolution of a three-dimensional visuomotor perturbation across trials. In the explicit task, the visuomotor perturbation was applied suddenly resulting in large consciously detected initial spatial errors, whereas in the implicit task, the visuomotor perturbation was gradually introduced in small undetectable steps such that subjects never experienced large movement errors. Results indicate that both non- medicated and medicated PD patients showed markedly impaired visuomotor adaptation only in the explicit task. Together, the different experimental data presented in this thesis indicate that dopaminergic medication does not improve proprioceptive processing and visuomotor adaptation skills of PD patients. These observations suggest that dysfunction of dopaminergic circuits within the BG is not solely responsible for the reported sensorimotor deficits.

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Ganglions de la base

Parkinson

Médication dopaminergique

Atteinte manuelle

Proprioception

Intégration sensorielle

Contrôle en temps réel

Planification motrice

Adaptation visuomotrice

Basal ganglia

Dopaminergic medication

Reaching

Sensorimotor integration

On-line movement control

Motor planning

Visuomotor adaptation

Modelos experimentais de moradia empobrecida e priva??o do cuidado materno na inf?ncia: efeitos sobre o funcionamento cognitivo, mecanismos moleculares e neuroepigen?ticos

Viola, Thiago Wendt

12 March 2018

Submitted by PPG Pediatria e Sa?de da Crian?a (pediatria-pg@pucrs.br) on 2018-05-17T17:25:42Z No. of bitstreams: 1 TESE Thiago Viola Final.pdf: 3221820 bytes, checksum: 98e6a1c6936e1a12973e6fe2d7d12ce5 (MD5) / Approved for entry into archive by Caroline Xavier (caroline.xavier@pucrs.br) on 2018-05-30T16:45:08Z (GMT) No. of bitstreams: 1 TESE Thiago Viola Final.pdf: 3221820 bytes, checksum: 98e6a1c6936e1a12973e6fe2d7d12ce5 (MD5) / Made available in DSpace on 2018-05-30T16:49:19Z (GMT). No. of bitstreams: 1 TESE Thiago Viola Final.pdf: 3221820 bytes, checksum: 98e6a1c6936e1a12973e6fe2d7d12ce5 (MD5) Previous issue date: 2018-03-12 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior - CAPES / Introduction: Child development in adverse environments and conditions, such as with the lack of economic resources or with parental care deprivation, is considered a major risk factor for neurological and psychiatric diseases. Altered cognitive processing is thought to mediate this relationship, however, the neurobiological mechanisms underlying the effects of early adverse experiences on cognition have not yet been fully revealed. Evidence indicates that dopaminergic neurotransmission and the corticotrophinergic system have important functions in the neurobiology of decision-making and risk assessment, which are cognitive processes associated with the functionality of the cerebral cortex. Similarly, working memory is another cognitive domain that underlies cortical activity, and some studies indicate that alterations in neuroimmunologic signaling may contribute to the decline of these higher order cognitive functions. Objectives: To investigate the effects of impoverished housing conditions during early life on risk assessment processing and its associated cortical neurobiological and epigenetic mechanisms in C57BL/6 adolescent mice. In addition, we investigated the effects maternal care deprivation during early life, and the effects of systemic activation of the toll-type receptor (TLR)-3 on working memory performance, and its associated cortical neurobiological mechanisms in male BALB/c mice. Methods: Two studies with rodent experimental models were proposed. The first study used a model of impoverished housing from the postnatal day (P) 2 to P9. During adolescence, risk assessment was investigated using a behavioral paradigm that explores the conflict between two biologically relevant stimuli: the motivation to consume a sweet and highly palatable solution while being threatened by predatory olfactory cues. The expression of dopaminergic (Drd1, Drd2) and corticotrophinergic (Cfr, Crfr1) genes in the medial prefrontal cortex (mPFC) were investigated by real-time PCR. The accumulation of histone marks (H3K9me3, H3R2me2s) were assessed at the promoter region of genes associated with behavioral outcomes. In addition, plasma corticosterone levels were assessed by ELISA. In the second study, a rodent model of maternal care deprivation from P2 to P15 was applied. During adolescence, animals were injected with a TLR-3 agonist, which is a viral receptor implicated with inflammatory signaling, and then tested in a working memory task. The expression of pro-inflammatory genes (Nfkb1, Il6 and Tnf-?) and the receptor itself (Tlr3), were performed in the mPFC by real-time PCR. Results: In the first study, we found increased anxiety-like behavior, increased HPA axis response to stress and impaired RA processing in female adolescent mice, with no effect in males. These sex-specific effects were associated with increased Crfr1 mRNA expression in the medial prefrontal cortex (mPFC), which correlated with an increase in the occupancy of the histone mark H3R2me2s, a histone modification known to be involved in transcriptional activation and epigenetic priming, within the promoter of the Crfr1 gene. In the second study, we found that systemic administration of a TLR-3 agonist can modulate and exacerbate early life stress induced working memory impairments, and that higher gene expression levels of Nfkb1 in the mPFC was associated a lower working memory performance. Conclusions: The findings of the first study indicated a deleterious effect of impoverished housing exposure on risk assessment processing in females, which could be detrimental for cognitive performance in potentially dangerous situations, and suggest that the epigenetic priming of the Crfr1 gene may represent a critical factor mediating the relationship between early life stress and altered cognitive processing later in life in females. Finally, the findings of the second study demonstrated that the systemic activation of TLR-3 can induce working memory impairments, revealing an important mediating role of the neuroinflammatory signalling in the cerebral cortex associated with the cognitive changes resulting from maternal care deprivation exposure during early in life. / Introdu??o: O desenvolvimento infantil em ambientes e condi??es adversas, como frente a escassez de recursos econ?micos ou de cuidado parental, ? considerado fator de risco para doen?as neurol?gicas e psiqui?tricas. Altera??es em processos cognitivos parecem mediar esta rela??o, contudo, os mecanismos neurobiol?gicos adjacentes aos efeitos de experi?ncias adversas precoces sobre a cogni??o ainda n?o foram completamente revelados. Evid?ncias apontam que a neurotransmiss?o dopamin?rgica e o sistema corticotrofin?rgico possuem importantes fun??es na neurobiologia da tomada de decis?o e avalia??o do risco, que s?o processos cognitivos associados a funcionalidade do c?rtex cerebral. Similarmente, a mem?ria de trabalho ? outro dom?nio cognitivo que envolve atividade cortical, e alguns estudos apontam que altera??es na sinaliza??o neuroimunol?gica podem contribuir para o decl?nio destas fun??es cognitivas superiores. Objetivos: Investigar o efeito da exposi??o a moradia empobrecida na inf?ncia sobre o processamento cognitivo de avalia??o do risco e mecanismos neurobiol?gicos e epigen?ticos corticais associados em camundongos adolescentes da linhagem C57BL/6. Al?m disso, investigar o efeito da priva??o do cuidado materno na inf?ncia e da ativa??o sist?mica do receptor do tipo toll (TLR)-3 sobre a mem?ria de trabalho e mecanismos neurobiol?gicos corticais associados em camundongos machos adolescentes da linhagem BALB/c. M?todos: Foram propostos dois estudos com modelos experimentais murinos. O primeiro estudo utilizou um modelo de moradia empobrecida do dia p?s-natal (P) 2 ao P9. Quando os animais encontravam-se no per?odo da adolesc?ncia, o processamento de avalia??o do risco foi investigado por uma tarefa que explora um conflito entre dois est?mulos biologicamente fundamentais na vida de um roedor, a motiva??o de consumir uma solu??o doce e altamente palat?vel (leite condensado) tendo que se expor a pistas olfativas de um predador natural, o coiote. Os n?veis de express?o de genes dopamin?rgicos (Drd1, Drd2) e corticotrofin?rgicos (Cfr, Crfr1) no c?rtex medial pr?-frontal (mPFC) foram investigados por PCR em tempo real. Os n?veis de altera??es de histonas (H3K9me3, H3R2me2s) foram avaliados na regi?o promotora de genes associados aos desfechos comportamentais. Adicionalmente, os n?veis de corticosterona plasm?tica foram avaliados por ELISA. No segundo estudo, o modelo de adversidade utilizado foi o de priva??o do cuidado materno do P2 ao P15. Similarmente, quando os animais encontravam-se no per?odo da adolesc?ncia, ocorreu a administra??o sist?mica de um agonista de TLR-3, um receptor viral relacionado a sinaliza??o inflamat?ria, e posteriormente os animais foram testados em uma tarefa de mem?ria de trabalho. Os n?veis de express?o g?nica de genes pr?-inflamat?rios (Nfkb1, Il6 e Tnf-?) e do pr?prio receptor (Tlr3), foram avaliados no mPFC por PCR em tempo real. Resultados: no primeiro estudo, observou-se um aumento de comportamentos do tipo ansioso, maior responsividade do eixo Hipot?lamo-Pituit?ria-Adrenal (HPA) e uma diminui??o do processamento de avalia??o do risco nas f?meas expostas a moradia empobrecida, ao passo que n?o ocorreram altera??es nos animais machos. A diminui??o de avalia??o do risco foi associada a um aumento na express?o de Crfr1 no mPFC, o que se correlacionou com um aumento dos n?veis de H3R2me2s na regi?o promotora deste gene. No segundo estudo, observou-se que a ativa??o sist?mica de TLR-3 exacerbou os preju?zos de mem?ria de trabalho decorrentes da exposi??o a priva??o do cuidado materno, e este efeito correlacionou-se aos n?veis de express?o de Nfkb1 no mPFC. Conclus?es: os achados do estudo 1 indicam um efeito delet?rio da exposi??o a moradia prec?ria na inf?ncia sobre o processamento de avalia??o do risco em f?meas, revelando um preju?zo espec?fico referente ao engajamento cognitivo frente a situa??es potencialmente perigosas. Al?m disso, evidenciou-se um efeito a n?vel epigen?tico de regula??o da express?o cortical de Crfr1, indicando um importante papel deste gene sobre a rela??o entre pobreza na inf?ncia e altera??es cognitivas em f?meas adolescentes. Por fim, os achados do estudo 2 demonstraram que a ativa??o sist?mica do TLR-3 pode exacerbar os preju?zos de mem?ria de trabalho induzidos pelo estresse precoce, revelando um papel mediador da sinaliza??o neuroinflamat?ria no c?rtex cerebral relacionada as altera??es cognitivas decorrentes da exposi??o a priva??o do cuidado materno.

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Estresse Precoce

Cogni??o

Marcadores Imunol?gicos

Sistema Dopamin?rgico

Sistema Corticotrofin?rgico

Avalia??o do Risco

Mem?ria de Trabalho

Early Life Sress

Cognition

Immunological Markers

Dopaminergic System

Corticotrophinergic System

Risk Assessment

Working Memory

CIENCIAS DA SAUDE::MEDICINA

MEDICINA::SAUDE MATERNO-INFANTIL

Modèle progressif de la maladie de parkinson après dysfonctionnement aigu des transporteurs du glutamate dans la substance noire chez le rat.

Assous, Maxime

15 July 2013

La caractéristique neuropathologique majeure de la maladie de Parkinson (MP) est la perte progressive des neurones dopaminergiques (DA) de la substance noire (SN). Nous avons examiné si un dysfonctionnement aigu des EAATs pourrait contribuer au cercle vicieux entretenant la progression des pertes DA. Les effets du PDC, un inhibiteur substrat des EAATs, ont été analysés chez le rat. L'analyse cinétique (4-120 jours) des effets d'une seule injection intranigrale de PDC montre une perte progressive spécifique des neurones DA, avec une évolution unilatérale vers bilatérale et caudo-rostrale. Le processus dégénératif associe déplétion en glutathion et augmentation de l'activité de la γ-glutamyltranspeptidase, stress oxydatif, processus excitotoxiques, autophagie et réactivités gliales. L'antioxydant N-acétylcystéine et les antagonistes des récepteurs NMDA ifenprodil et mémantine exercent un effet neuroprotecteur. Des effets compensatoires transitoires au niveau de marqueurs de la fonction DA dans la SN et le striatum accompagnent la perte cellulaire et des dystrophies axonales. Des troubles moteurs apparaissent de façon tardive lorsque la perte neuronale ipsilatérale avoisine les 50%. Ces résultats montrent un lien fonctionnel entre dysfonctionnement des EAATs et plusieurs mécanismes pathogéniques ainsi que des caractéristiques neuropathologiques majeures de la MP, et fournissent le premier modèle progressif de la maladie induit de façon aiguë. / Parkinson's disease (PD) is characterized by the progressive degeneration of substantia nigra (SN) dopaminergic neurons. Central players in PD pathogenesis, including mitochondrial dysfunction and oxidative stress, might affect the function of excitatory amino acid transporters (EAATs). Here, we investigated whether acute EAATs dysfunction might in turn contribute to the vicious cycles sustaining the progression of dopamine neuron degeneration. PDC application on nigral slices triggered sustained glutamate-mediated excitation selectively in dopamine neurons. In vivo time-course study (4-120 days) revealed that a single intranigral PDC injection triggers progressive degeneration of exclusively dopamine neurons with unilateral to bilateral and caudorostral evolution. This degenerative process associates GSH depletion and specific increase in γ-glutamyltranspeptidase activity, oxidative stress, excitotoxicity, autophagy and glial reaction. The anti-oxidant N-acetylcysteine and the NMDA receptor antagonists ifenprodil and memantine provided significant neuroprotection Transient compensatory changes in dopamine function markers in SN and striatum accompanied cell loss and axonal dystrophy. Motor abnormalities (hypolocomotion and forelimb akinesia) showed late onset, when ipsilateral neuronal loss exceeded 50%. These findings outline a functional link between EAATs dysfunction and several PD pathogenic mechanisms and pathological hallmarks, and provide the first acutely-triggered rodent model of progressive parkinsonism.

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Maladie de Parkinson

Modèle animal

Substance noire

Neurones dopaminergiques

Transporteurs du glutamate

Neuroprotection

Stress oxydatif

Excitotoxicité

Parkinson's disease

Animal model

Substantia nigra

Dopaminergic neurons

Glutamate transporters

Neuroprotection

Oxidative stress

Excitotoxicity

612

Dérégulation de la dopamine et maladies du repos : maladie de Willis-Ekbom et Maladie de Parkinson / Dopaminergic dysregulation and sleep-related disorders : Willis-Ekbom's and Parkinson's diseases

Hyacinthe, Carole

16 October 2013

A travers ce projet de recherche nous avons exploré différents aspects d’une dérégulation du système dopaminergique sur les troubles du repos, en prenant pour exemple deux maladies neurologiques : la maladie de Willis-Ekbom (MWE) et la maladie de Parkinson (MP). La MWE est une maladie neurologique sensorimotrice caractérisée par des douleurs dans les membres inférieurs, s’accompagnant d’un besoin irrépressible de bouger et ce, suivant un profil circadien. Ainsi, le premier volet de ces travaux s’est appliqué à reproduire chez le macaque, les principales altérations du métabolisme du fer et de celui de la dopamine reportées dans la MWE. Tout d’abord, nous avons établit les bases physiologiques des variations circadiennes des concentrations du fer et de ses biomarqueurs au niveau central et périphérique. Puis, nous avons développé un protocole simple, uniquement basé sur des prélèvements sanguins répétés, permettant d’induire efficacement une déplétion en fer sérique et de ses protéines associées. Finalement, ce protocole nous a permis d’explorer les liens entre l’altération de l’homéostasie du fer au niveau du système nerveux central, les perturbations neurochimiques dans différentes structures cérébrales ainsi que les modifications locomotrices qui en résultent. Le second volet de cette thèse a testé l’impact des agonistes des récepteurs dopaminergiques de type D1 (SKF38393) et D2 (quinpirole), sur les troubles du sommeil dans un modèle macaque de la MP, à l’aide d’enregistrements polysomnographiques. Pour cela, nous avons évalué les effets de ces agents pharmacologiques sur l’émergence de la somnolence diurne et sur l’altération du sommeil paradoxal, induits par une intoxication au MPTP. Nos résultats mettent en évidence que le quinpirole est inefficace pour restaurer les niveaux de base de ces deux paramètres. En revanche, le SKF38393 permet une diminution notable de la somnolence diurne ainsi qu’une restauration du sommeil paradoxal. Finalement, les perturbations monoaminergiques liées à la déplétion en fer ouvrent de multiples perspectives de recherche sur la physiopathologie de la MWE. De même, l’amélioration des troubles veille-sommeil par l’agoniste des récepteurs D1, offre de nouvelles pistes thérapeutiques quant à la prise en charge des troubles du repos dans la MP. L’ensemble de nos résultats apporte un niveau de compréhension supplémentaire quant au rôle de la dopamine dans les altérations du repos. / During this thesis project we explored several aspects of the impact of a dopaminergic system dysregulation on the rest alterations, through two neurological diseases: the Willis-Ekbom’s disease (WED) and Parkinson’s diseases (PD). The WED is a neurological sensorimotor disorder mainly characterized by pain in lower limbs. It preferentially appears in the evening and transiently and partially is alleviated by motor activity. Thus, the first part of this work aimed at reproducing the main dysfunctions of the iron and dopaminergic metabolisms observed in WED, in the macaque monkey. We first established the circadian variations of iron-indicator concentrations in serum and cerebrospinal fluid. Then we developed a rapid protocol based on repeated blood withdrawals, allowing to efficiently induce serum iron depletion. Finally, this protocol enabled us to investigate the relationship between iron metabolism dysfunctions, neurochemical alterations and the subsequent locomotor behavioural changes. In the second part, of this research project we examined the impact of selective D1 (SKF38393) and D2 (quinpirole) receptor agonists on the sleep impairments in a macaque model of PD using the polysomnographic recording technique. Thus we investigated the effects of these two pharmacological compounds on the daytime sleepiness and on the paradoxical sleep induced by MPTP intoxication. Our results demonstrated the inefficacy of quinpirole to restore these two altered sleep parameters. By contrast, SKF38393 significantly decreased daytime napping and substantially restored paradoxical sleep. Finally, the monoaminergic dysregulations, induced by iron depletion, may offer multiple perspectives to unravel the WED pathophysiology. In the same line, the beneficial effects exhibited by the D1 receptor agonist bring new therapeutic avenues to treat sleep-wake disorders in PD. Together, the global results bring new insights in the underlying mechanisms of sleep impairment involving dopamine.

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Maladie de Willis-Ekbom

Maladie de Parkinson

Primate non-humain

Fer

Dopamine

Sérotonine

Troubles du Sommeil

Somnolence Diurne Excessive

Sommeil Paradoxal

MPTP

Récepteurs Dopaminergiques

Willis-Ekbom’s disease

Parkinson’s disease

Non-Human Primate

Iron

Dopamine

Serotonin

Sleep disorders

Excessive Daytime Sleepiness

Paradoxical Sleep

MPTP

Dopaminergic Receptors

Rôle de Spen dans la survie cellulaire - Apoptose Développementale et processus neurodégénératifs / Role of Spen in cell survival - Developmental apoptosis and neurodegenerative process

Querenet, Matthieu

03 October 2014

Le gène split end (spen) est impliqué dans de nombreuses voies de signalisation et processus biologiques. Durant ma thèse j'ai étudié le rôle de spen dans la mort cellulaire au cours du développement de la rétine de la Drosophile. L'œil de Drosophile est composé de centaines d'unités appelées ommatidies. Chaque ommatidie est composée de huit photorécepteurs entourés de cellules accessoires comprenant quatre cellules cônes et deux cellules pigmentaires primaires, ainsi que douze cellules interommatidiales. Les cellules interommatidiales adoptent une structure hexagonale parfaitement régulière. Des cellules interommatidiales en excès doivent être éliminées par apoptose au cours du développement. J'ai montré que la modulation de spen modifiait radicalement le patron des cellules interommatidiales. L'inactivation de spen conduit à un défaut de cellules interommatidiales alors que sa surexpression entraîne un excès de ces cellules. Ces résultats témoignent d’un rôle anti-apoptotique de spen. Nous avons aussi montré que la perte des cellules interommatidiales dans un contexte mutant pour spen pouvait être entièrement sauvée en exprimant la protéine p35 connue pour bloquer l'activité des caspases. Comme spen est exprimé de manière ubiquitaire, nous avons cherché à déterminer dans quelles cellules spen jouait son rôle de régulateur de la mort cellulaire. Grâce à une analyse clonale, nous avons pu montrer que c'est au niveau des cellules cônes que spen agit. L'inactivation de spen dans les autres cellules accessoires de l'œil n'influence pas la mort des cellules interommatidiales. Nous avons en outre, montré que spen avait un rôle dans la formation des soies de chaque ommatidie. Ces travaux mettent en évidence un rôle de spen dans le contrôle de la mort cellulaire des cellules interommatidiales dans les cellules cônes. Nos résultats montrent, par ailleurs, que spen serait requis pour le relarguage du facteur de survie Spitz (le ligand activateur de la voie EGF) à partir des cellules cônes. En parallèle, nous avons étudiés le rôle de survie de spen dans un modèle neurodégénératif. Nous avons montré que spen était nécessaire dans les cellules gliales pour la résistance au stress oxydatif. De manière intéressante, nous avons trouvé que l'inactivation de spen dans la glie diminuait l'activité de la voie de signalisation NOTCH. Cette résistance pourrait se faire via la modulation de gènes antioxydants. De manière générale, nos travaux démontrent un rôle du gène split ends dans la survie cellulaire. Ce facteur agit de manière non-autonome à partir des cellules supports de différents organes. / In metazoan, the successful development of many organs requires the elimination of supernumerary cells by apoptosis. For example, the elimination of about two thousand interommatidial cells (IOCs) during Drosophila eye development allows the precise rearrangement of ommatidia in a perfect hexagonal array. Maximal apoptosis occurs during pupal life and the remaining IOCs differentiate into secondary and tertiary pigment cells. The precise removal of unwanted IOCs requires coordinated activation of Notch (pro-death) and EGF (pro-survival) pathways. IOCs undergoing apoptosis express the IAP inhibitor Hid, which leads to the activation of initiator and effector caspases. However, the mechanisms that coordinate the death and survival pathways for timed and precise IOC removal are poorly understood.Here, we report that spen encodes a nuclear protein expressed in the pupal eye that is required for IOC survival. We showed that the inhibition of spen, by either RNAi or in spen mutant clones resulted in disorganized ommatidia with missing IOCs. Moreover, overexpression of spen leads to extra IOCs. These results indicate that spen expression promotes IOC survival during eye development. Importantly blocking apoptosis prevents the loss of IOC in a spen mutant retina. Spen is a protein known to be ubiquitous in tissue during development. Indeed, we have shown using an enhancer trap line that spen is expressed in all the cells in the eye pupal disk. To better understand where spen is acting from in this tissue to regulate cell death, we performed a clonal analysis. We found that the inactivation of spen in the cone cells was causing the loss of IOC, indicating that spen is required non-autonomously in cone cell for IOC survival. In parallel we have shown that the inactivation of spen was disrupting eye bristles morphology. Even if studies discuss the role of bristles in the regulation of developmental apoptosis in this context, our clonal analysis excluded this possibility. Furthermore, we found that spitz, the EGFR ligand, accumulate in cone cells upon spen inactivation. Our current hypothesis is that spen is likely to be required for the release of Spitz from the cone cells in order to active the survival signaling pathway EGFR in the IOCs. Also, we examined the protective role of spen in a chemical model of Parkinson disease (paraquat treatment). We showed that the glial expression of spen is protective in this context, which suggest against that spen acts non-autonomously. Interestingly we found that the inactivation of spen in glia downregulates the Notch signaling pathway. Spen is likely to be a key factor integrating cues from different signaling pathways to promote cell survival.

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Drosophile

Rétine

Apoptose

Développement

Notch

EGFR

Stress oxydatif

Split ends

Cellules gliales

Neurones dopaminergiques

Maladie de Parkinson

Drosophila

Retina

Apoptosis

Development

Notch

EGFR

Oxidative stress

Split ends

Glial cells

Dopaminergic neurons

Parkinson disease

Molecular guidance of dopaminergic cells transplanted in a mouse model of Parkinson's disease / Étude du guidage axonal de cellules dopaminergiques greffées dans un modèle animal de la maladie de Parkinson

Kalaani, Joanna

22 January 2016

La maladie de Parkinson (MP) est caractérisée par une dégénérescence des neurones dopaminergiques de la voie nigrostriée. La thérapie cellulaire, par transplantation intranigrale de cellules fœtales issues de mésencéphale ventral (MV), assure un rétablissement anatomique et fonctionnel de cette voie. Des molécules de guidage axonal (MGA) joueraient ainsi un rôle dans la reconnexion axonale des cellules transplantées. Pour tester cette hypothèse, nous avons étudié l'expression de MGA dans le cerveau adulte intact et dans des cellules destinées à la transplantation, ainsi que dans le cerveau adulte d'un modèle murin de la MP après transplantation. Dans le tissu intact, nous avons montré que semaphorin7A (Sema7A) et Sema3A et leurs récepteurs, plexinC1 et neuropilin1, conservent leur expression protéique. De plus, grâce à l'utilisation de puces à ADN, nous avons montré que les récepteurs Robo2, neuropilin1, neuropilin2, EphA5 et DCC sont exprimés de manière différentielle dans les deux populations cellulaires utilisées pour la transplantation. Ceci suggère que ces molécules seraient impliquées dans la restauration fonctionnelle observée. Enfin, dans le tissu lésé, nous avons observé, par RT-qPCR, des variations d'expression de l'ARNm de ces MGA après transplantation intranigrale des cellules fœtales du MV, suggérant plus particulièrement l'implication de Sema3A, Sema3F et Sema7A dans la reconstruction de la voie. Ce travail met en lumière l'action de sémaphorines dans le guidage axonal des cellules transplantées. L'intégration de ces MGA dans les procédures de transplantation pourrait aider à optimiser les procédures de thérapie cellulaire dans la MP. / Parkinson's disease (PD) is characterised by the degeneration of the dopaminergic nigrostriatal pathway. Cell therapy using intranigral transplantation of foetal ventral mesencephalon (VM) cells in a mouse model of PD results in anatomical and functional reconstruction of the pathway. This suggests a role for axon guidance molecules (GMs) in reconnecting transplanted cells to their striatal target. To test this hypothesis, we studied the expression of axon GMs in the intact adult brain, on cells used for transplantation and in a mouse model of PD after cell therapy. In the intact brain, we showed that GMs as semaphorin7A (Sema7A) and Sema3A and their corresponding receptors, plexinC1 and neuropilin1, retain an expression at the protein level, therefore showing a possible role for these guidance cues in the adult brain. Moreover, using microarray, we studied GM receptor expression profiles in two types of cells used for transplantation and exhibiting different functional ameliorations. Robo2, neuropilin1, neuropilin2, EphA5 and DCC receptors showed differential expression between the two cellular populations, indicating their possible contribution to the different functional outcomes observed. In the lesioned mouse brain, we observed, using RT-qPCR, variations of mRNA expression of these axon GMs after intranigral transplantation of foetal VM derived cells, thus suggesting the implication of Sema3A, Sema3F, and Sema7A in the reconstruction of the pathway. Overall, this work highlights particular importance of semaphorins in the nigrostriatal pathway reconstruction. Integrating these cues in transplantation procedures can possibly optimize cell therapy for PD patients.

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Maladie de Parkinson

Thérapie cellulaire

Molécules de guidage axonal

Voie dopaminergique nigro-Striée

PCR quantitative

Immunohistochimie

Puces à ADN

Culture organotypique

Parkinson's disease

Cell therapy

Axon guidance molecules

Nigrostriatal dopaminergic pathway

Quantitative PCR

Immunohistochemistry

Gene chip microarray

Organotypic tissue culture

616.833

Organotypic brain slice co-cultures of the dopaminergic system - A model for the identification of neuroregenerative substances and cell populations / Organotypische Co-Kulturen dopaminerger Projektionssysteme- Modelle zur Identifizierung neuroregenerativer Substanzen und Zellpopulationen

Sygnecka, Katja

19 November 2015

The development of new therapeutical approaches, devised to foster the regeneration of neuronal circuits after injury and/or in neurodegenerative diseases, is of great importance. The impairment of dopaminergic projections is especially severe, because these projections are involved in crucial brain functions such as motor control, reward and cognition. In the work presented here, organotypic brain slice co-cultures of (a) the mesostriatal and (b) the mesocortical dopaminergic projection systems consisting of tissue sections of the ventral tegmental area/substantia nigra (VTA/SN), in combination with the target regions of (a) the striatum (STR) or (b) the prefrontal cortex (PFC), respectively, were used to evaluate different approaches to stimulate neurite outgrowth: (i) inhibition of cAMP/cGMP turnover with 3’,5’ cyclic nucleotide phosphodiesterase inhibitors (PDE-Is), (ii) blockade of calcium currents with nimodipine, and (iii) the co-cultivation with bone marrow-derived mesenchymal stromal/stem cells (BM-MSCs). The neurite growth-promoting properties of the tested substances and cell populations were analyzed by neurite density quantification in the border region between the two brain slices, using biocytin tracing or tyrosine hydroxylase labeling and automated image processing procedures. In addition, toxicological tests and gene expression analyses were conducted. (i) PDE-Is were applied to VTA/SN+STR rat co-cultures. The quantification of neurite density after both biocytin tracing and tyrosine hydroxylase labeling revealed a growth promoting effect of the PDE2A-Is BAY60-7550 and ND7001. The application of the PDE10-I MP-10 did not alter neurite density in comparison to the vehicle control. (ii) The effects of nimodipine were evaluated in VTA/SN+PFC rat co-cultures. A neurite growth-promoting effect of 0.1 µM and 1 µM nimodipine was demonstrated in a projection system of the CNS. In contrast, the application of 10 µM nimodipine did not alter neurite density, compared to the vehicle control, but induced the activation of the apoptosis marker caspase 3. The expression levels of the investigated genes, including Ca2+ binding proteins (Pvalb, S100b), immediate early genes (Arc, Egr1, Egr2, Egr4, Fos and JunB), glial fibrillary acidic protein, and myelin components (Mal, Mog, Plp1) were not significantly changed (with the exception of Egr4) by the treatment with 0.1 µM and 1 µM nimodipine. (iii) Bulk BM-MSCs that were classically isolated by plastic adhesion were compared to the subpopulation Sca-1+Lin-CD45--derived MSCs (SL45-MSCs). The neurite growth-promoting properties of both MSC populations were quantified in VTA/SN+PFC mouse co-cultures. For this purpose, the MSCs were seeded on glass slides that were placed underneath the co-cultures. A significantly enhanced neurite density within the co-cultures was induced by both bulk BM-MSCs and SL45-MSCs. SL45-MSCs increased neurite density to a higher degree. The characterization of both MSC populations revealed that the frequency of fibroblast colony forming units (CFU-f ) is 105-fold higher in SL45-MSCs. SL45-MSCs were morphologically more homogeneous and expressed higher levels of nestin, BDNF and FGF2 compared to bulk BM-MSCs. Thus, this work emphasizes the vast potential for molecular targeting with respect to the development of therapeutic strategies in the enhancement of neurite regrowth.

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Organotypische Hirnschnittkulturen

dopaminerge Projektionen

Neuroregeneration

Substanztestung

Phosphodiesterase-Inhibitoren

Nimodipin

Mesenchymale Stammzellen

Organotypic Brain Slice Co-Cultures

Dopaminergic Projections

Neuroregeneration

Substance Testing

Phosphodiesterase Inhibitors

Nimodipine

Mesenchymal Stem Cells

ddc:570

Effet de la maladie de Parkinson et de la médication dopaminergique sur les mécanismes de traitement et d'intégration sensorielle et l'adaptation visuomotrice

Mongeon, David

10 1900

L’intégrité de notre système sensorimoteur est essentielle aux interactions adéquates avec notre environnement. Dans la maladie de Parkinson (MP), l’efficacité des interactions quotidiennes entre le corps et l’environnement est fréquemment réduite et diminue la qualité de vie. La MP est une maladie neurodégénérative résultant prioritairement d’une perte neuronale dopaminergique dans les ganglions de la base (GB). Cette dégénérescence altère le fonctionnement normal de la circuiterie associant les GB au cortex cérébral. L’administration de médications dopaminergiques permet d’améliorer les principaux symptômes cliniques moteurs de la MP. Cette thèse porte sur les rôles des GB dans les processus de traitement et d’intégration des informations sensorielles visuelle et proprioceptive et dans les mécanismes d’adaptation visuomotrice. Elle s’intéresse également à l’influence de la médication dopaminergique sur ces fonctions sensorimotrices. Nous avons réalisé trois études comportementales, utilisant l’atteinte manuelle tridimensionnelle comme modèle expérimental. Dans chacune de ces études, nous avons comparé la performance de personnes âgées en santé à celle de personnes souffrant de la MP avec et sans leur médication antiparkinsonienne quotidienne. Ces trois études ont été réalisées à l’aide d’un système d’analyse de mouvement et une station de réalité virtuelle. Dans la première étude, nous avons évalué si les GB sont prioritairement impliqués dans l’intégration sensorimotrice ou le traitement des informations proprioceptives. Pour se faire, nous avons testé la capacité des patients MP à effectuer des atteintes manuelles tridimensionnelles précises dans quatre conditions variant la nature des informations sensorielles (visuelles et/ou proprioceptives) définissant la position de la main et de la cible. Les patients MP ont effectué, en moyenne, de plus grandes erreurs spatiales que les personnes en santé uniquement lorsque les informations proprioceptives étaient la seule source d’information sensorielle disponible. De plus, ces imprécisions spatiales étaient significativement plus grandes que celles des personnes en santé, seulement lorsque les patients étaient testés dans la condition médicamentée. La deuxième étude présentée dans cette thèse a permis de démontrer que les imprécisions spatiales des patients MP dans les conditions proprioceptives étaient le résultat de déficits dans l’utilisation en temps réel des informations proprioceptives pour guider les mouvements. Dans la troisième étude, nous avons évalué si les GB sont prioritairement impliqués dans les mécanismes d’adaptation visuomotrice explicite ou implicite. Pour se faire, nous avons testé les capacités adaptatives des patients MP dans deux tâches variant le décours temporel de l’application d’une perturbation visuomotrice tridimensionnelle. Dans la tâche explicite, la perturbation était introduite soudainement, produisant de grandes erreurs détectées consciemment. Dans la condition implicite, la perturbation était introduite graduellement ce qui engendrait de petites erreurs non détectables. Les résultats montrent que les patients MP dans les conditions médicamentée et non médicamentée présentent des déficits adaptatifs uniquement dans la tâche explicite. Dans l’ensemble, les résultats expérimentaux présentés dans cette thèse montrent que la médication dopaminergique n’améliore pas le traitement des afférences proprioceptives et l’adaptation visuomotrice des personnes souffrant de la MP. Ces observations suggèrent que les dysfonctions dans les circuits dopaminergiques dans les GB ne sont pas les seules responsables des déficits observés dans ces fonctions sensorimotrices. / The integrity of our sensorimotor system is essential for adequate interactions with the environment. In Parkinson’s disease (PD), the efficiency of the daily interactions between the body and the environment is often reduced and interfere with quality of life. PD is a neurodegenerative disease resulting primarily from a dopaminergic neuronal loss in the basal ganglia (BG). This progressive loss of neurons alters the normal functioning of the BG-cortical circuitry. Dopaminergic medication is well known to remediate the major clinical motor symptoms of PD. This thesis investigates the role of the BG in the processing and integration of visual and proprioceptive sensory information and in visuomotor adaptation. This thesis also explores the influence of dopaminergic medication on these sensorimotor functions. We performed three behavioral studies using three-dimensional reaching movements as an experimental model. In each study, we compared the performance of healthy controls and individuals suffering from PD, while in the non-medicated condition and when on their regular daily antiparkinsonian medication. These three studies were performed using a movement analysis system and a virtual reality station. In the first study, we evaluated whether the BG are primarily involved in sensorimotor integration or in the processing of proprioceptive sensory information. We tested the ability of PD patients to perform accurate reaching movements in four conditions in which the sensory signals defining target and hand positions (vision and/or proprioception) varied. On average, PD patients made larger spatial errors than healthy controls when proprioception was the only source of sensory information available. Furthermore, these movement inaccuracies were significantly larger than those of healthy controls only when PD patients where tested in the medicated condition. The second study presented in this thesis demonstrated that the greater movement inaccuracies of PD patients in the proprioceptive conditions resulted mainly from impaired use of proprioceptive information for on-line movement guidance. In the third study, we evaluated whether the BG are primarily involved in explicit or implicit visoumotor adaptation mechanisms. Visuomotor adaptation skills of non-medicated and medicated patients were assessed in two reaching tasks in which the size of spatial errors made during adaptation was manipulated by varying the temporal evolution of a three-dimensional visuomotor perturbation across trials. In the explicit task, the visuomotor perturbation was applied suddenly resulting in large consciously detected initial spatial errors, whereas in the implicit task, the visuomotor perturbation was gradually introduced in small undetectable steps such that subjects never experienced large movement errors. Results indicate that both non- medicated and medicated PD patients showed markedly impaired visuomotor adaptation only in the explicit task. Together, the different experimental data presented in this thesis indicate that dopaminergic medication does not improve proprioceptive processing and visuomotor adaptation skills of PD patients. These observations suggest that dysfunction of dopaminergic circuits within the BG is not solely responsible for the reported sensorimotor deficits.

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Ganglions de la base

Parkinson

Médication dopaminergique

Atteinte manuelle

Proprioception

Intégration sensorielle

Contrôle en temps réel

Planification motrice

Adaptation visuomotrice

Basal ganglia

Dopaminergic medication

Reaching

Sensorimotor integration

On-line movement control

Motor planning

Visuomotor adaptation

Organotypic brain slice co-cultures of the dopaminergic system - A model for the identification of neuroregenerative substances and cell populations

Sygnecka, Katja

23 October 2015

The development of new therapeutical approaches, devised to foster the regeneration of neuronal circuits after injury and/or in neurodegenerative diseases, is of great importance. The impairment of dopaminergic projections is especially severe, because these projections are involved in crucial brain functions such as motor control, reward and cognition. In the work presented here, organotypic brain slice co-cultures of (a) the mesostriatal and (b) the mesocortical dopaminergic projection systems consisting of tissue sections of the ventral tegmental area/substantia nigra (VTA/SN), in combination with the target regions of (a) the striatum (STR) or (b) the prefrontal cortex (PFC), respectively, were used to evaluate different approaches to stimulate neurite outgrowth: (i) inhibition of cAMP/cGMP turnover with 3’,5’ cyclic nucleotide phosphodiesterase inhibitors (PDE-Is), (ii) blockade of calcium currents with nimodipine, and (iii) the co-cultivation with bone marrow-derived mesenchymal stromal/stem cells (BM-MSCs). The neurite growth-promoting properties of the tested substances and cell populations were analyzed by neurite density quantification in the border region between the two brain slices, using biocytin tracing or tyrosine hydroxylase labeling and automated image processing procedures. In addition, toxicological tests and gene expression analyses were conducted. (i) PDE-Is were applied to VTA/SN+STR rat co-cultures. The quantification of neurite density after both biocytin tracing and tyrosine hydroxylase labeling revealed a growth promoting effect of the PDE2A-Is BAY60-7550 and ND7001. The application of the PDE10-I MP-10 did not alter neurite density in comparison to the vehicle control. (ii) The effects of nimodipine were evaluated in VTA/SN+PFC rat co-cultures. A neurite growth-promoting effect of 0.1 µM and 1 µM nimodipine was demonstrated in a projection system of the CNS. In contrast, the application of 10 µM nimodipine did not alter neurite density, compared to the vehicle control, but induced the activation of the apoptosis marker caspase 3. The expression levels of the investigated genes, including Ca2+ binding proteins (Pvalb, S100b), immediate early genes (Arc, Egr1, Egr2, Egr4, Fos and JunB), glial fibrillary acidic protein, and myelin components (Mal, Mog, Plp1) were not significantly changed (with the exception of Egr4) by the treatment with 0.1 µM and 1 µM nimodipine. (iii) Bulk BM-MSCs that were classically isolated by plastic adhesion were compared to the subpopulation Sca-1+Lin-CD45--derived MSCs (SL45-MSCs). The neurite growth-promoting properties of both MSC populations were quantified in VTA/SN+PFC mouse co-cultures. For this purpose, the MSCs were seeded on glass slides that were placed underneath the co-cultures. A significantly enhanced neurite density within the co-cultures was induced by both bulk BM-MSCs and SL45-MSCs. SL45-MSCs increased neurite density to a higher degree. The characterization of both MSC populations revealed that the frequency of fibroblast colony forming units (CFU-f ) is 105-fold higher in SL45-MSCs. SL45-MSCs were morphologically more homogeneous and expressed higher levels of nestin, BDNF and FGF2 compared to bulk BM-MSCs. Thus, this work emphasizes the vast potential for molecular targeting with respect to the development of therapeutic strategies in the enhancement of neurite regrowth.:Table of contents Abbreviations 1 1. Introduction 2 1.1 The dopaminergic system 2 1.2 Neurite regeneration following mechanical lesions of the CNS 7 1.3 Organotypic brain slice co-cultures 8 1.4 Promising substances and cells to enhance neuroregeneration 10 1.5 The aim of the thesis 14 2. The original research articles 16 2.1 Phosphodiesterase 2 inhibitors promote axonal outgrowth in organotypic slice co-cultures 17 2.2 Nimodipine enhances neurite outgrowth in dopaminergic brain slice co-cultures 35 2.3 Mesenchymal stem cells support neuronal fiber growth in an organotypic brain slice co-culture model 50 3. References 66 Appendices 73 Summary 73 Zusammenfassung 78 Curriculum Vitae 84 Track Record 85 Selbständigkeitserklärung 87 Acknowledgments 88

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info:eu-repo/classification/ddc/570

ddc:570