Heart-Fatty Acid Binding Protein und α-Synuklein im Serum als mögliche Markerkandidaten für Parkinson und Demenz / Heart-fatty acid binding protein and α-synuclein in blood serum as possible biomarker candidates for Parkinson's disease and dementia

Willner, Markus

07 March 2018

No description available.

610

Heart-Fatty Acid Binding Protein

α-Synuklein

Morbus Parkinson

Demenz

Biomarker im Blutserum

Heart-fatty acid binding protein

α-synuclein

blood serum

Parkinson's disease

dementia

biomarkers in blood serum

Medizin (PPN619874732)

Pathological implications of the interaction between neurexins and alpha-synuclein in synucleinopathies

Fallon, Aurélie

11 1900

La maladie de Parkinson (PD) et la démence à corps de Lewy (DLB) sont les deuxième et troisième maladies neurodégénératives les plus communes et font partie d’une classe de maladies appelées synucléinopathies. Les synucléinopathies sont associées à une pathologie liée à l’α-synucléine (α-syn) laquelle se caractérise par une accumulation de cette protéine dans les neurones, formant ainsi les corps de Lewy. L’α-syn pathologique se retrouve aussi sous forme d’oligomères et de fibrilles, qui sont toxiques pour les neurones et leurs synapses. L’une des premières anomalies observables chez les patients atteints de synucléinopathies est la dysfonction synaptique, souvent combinée à une perte de synapses. Il a été rapporté que les oligomères d’α-syn retrouvés au niveau des synapses précèdent la formation de corps de Lewy dans les neurones et leur transmission semble être associée à la progression des symptômes. Pourtant, les mécanismes moléculaires sous-jacents la dysfonction synaptique causée par l’α-syn restent inconnus. D’autre part, le fonctionnement normal des synapses est fortement régulé par une famille de protéines appelées organisateurs synaptiques. Les organisateurs synaptiques, incluant la protéine neurexine, sont des molécules d’adhésion cellulaire qui régulent la synaptogenèse, la plasticité, la libération des neurotransmetteurs et les fonctions cognitives. De plus, nous avons préliminairement montré que l’α-syn interagit avec l’isoforme β des neurexines (NRXs) (β-NRXs). Mon projet avait donc pour but de caractériser l’interaction α-syn/β-NRX et d’évaluer comment celle-ci contribue à la pathologie liée à l’α-syn. Nous avons émis l’hypothèse que cette interaction affecte la fonction synaptogénique liée aux NRXs et son trafic. Dans un premier temps, pour tester notre hypothèse, l’interaction α-syn/β-NRX a été évaluée grâce à des analyses de liaison à la surface cellulaire. Il a été constaté que les oligomères d’α-syn se lient fortement à NRX1,2β de manière dépendante du domaine riche en histidine (HRD), caractéristique de l’isoforme β, et cela sans perturber sa liaison à ses ligands endogènes postsynaptiques, neuroligine 1 (NLG1) et « leucine rich repeat transmembrane neuronal 2 » (LRRTM2). De plus, à travers des essais d’internalisation, nous avons observé que les oligomères d’α-syn altèrent le trafic de NRX1β en augmentant son internalisation de façon dépendante au HRD et altèrent également la différenciation NRX-dépendante de la synapse en synapse inhibitrice. Par conséquent, nous suggérons que cette internalisation accrue pourrait affecter la fonction synaptogénique associée aux NRXs. Ce travail contribue à une meilleure compréhension sur la façon dont l’α-syn provoque un dysfonctionnement synaptique, fournissant de nouvelles perspectives moléculaires et pharmacologiques sur les synucléinopathies. / Parkinson’s disease (PD) and dementia with Lewy bodies (DLB) are the second and the third most common neurodegenerative disorders and are part of a class of diseases called synucleinopathies. Synucleinopathies are associated with an α-synuclein (α-syn) pathology which shows an accumulation of α-syn in neurons, forming Lewy bodies. This pathological α-syn can form oligomers and fibrils, which are toxic for neurons and their synapses. One of the first changes to occur in patients’ brain with synucleinopathies is synaptic dysfunction often combined with synapse loss. Synaptic α-syn oligomers were revealed to precede the formation of Lewy bodies, and their transmission to other neurons to correlate with the progression of the symptoms. Yet, the molecular mechanisms underlying how α-syn leads to synaptic dysfunction are unknown. Synaptic function is highly regulated by a protein family called synaptic organizers. Synaptic organizers are cell adhesion molecules that regulate synaptogenesis, plasticity, neurotransmitter release, synaptic plasticity and cognitive functions. Of this family, we have found that α-syn interacts with the β-isoforms of the neurexins (NRXs) family members (β-NRXs). My project aimed to characterize α-syn/β-NRX interaction and to evaluate how this interaction contributes to α-syn pathology. We hypothesized that this interaction affects NRX trafficking and its synaptic function. Firstly, to test our hypothesis, the α-syn/β-NRX interaction was characterized by performing cell surface binding assays. I found that α-syn oligomers strongly bind to NRX1,2β in a histidine rich domain (HRD)-dependent manner, without disrupting NRX binding to its postsynaptic binding partners, neuroligin 1 (NLG1) and leucine rich repeat transmembrane neuronal 2 (LRRTM2). Moreover, using internalization assays, we discovered that α-syn oligomers impair NRX trafficking by increasing NRX1β internalization in an HRD-dependent manner and impair NRX-dependent inhibitory presynaptic differentiation. Thereby, we suggest that this increased internalization affects the inhibitory synaptogenic function of NRX-based synaptic organizing complexes. This work contributes to a better understanding of how α-syn causes synaptic dysfunction, providing promising new molecular mechanisms and pharmacological insights into synucleinopathies.

Alpha-synucléine

Alpha-synuclein

Neurexines

Neurexins

Synucléinopathies

Synucleinopathies

Maladie de Parkinson

Parkinson's disease

Démence à corps de Lewy

Lewy body dementias

Organisateurs synaptiques

Synaptic organizers

Dysfonction synaptique

Synaptic dysfunction

Toxicité synaptique

Synaptic toxicity

α-synuclein disrupts neuron network rhythmic activity when overexpressed in cultured neurons

Leite, Kristian

07 February 2022

Synuclein, Parkinson's disease, network activity, neuron, tau protein, neurodegeneration, connectivity, cAMP,

570

Synuclein

Parkinson's disease

Tau protein

Network bursts

Network activity

Neurodegeneration

Connectivity

cAMP

P123H

Rhythmic activity

Automated analysis of neuronal activity

ImageJ analysis

AAV viruses

Calcium imaging

Fluorescence microscopy

Neuronal cell culture

Biologie (PPN619462639)

Estudo dos grânulos de lipofucsina e das sinapses do córtex temporal durante o envelhecimento / Study of lipofuscin granules and synapses in the temporal cortex during aging.

Merlo, Suélen

14 April 2011

Alterações morfológicas e funcionais ocorrem durante o envelhecimento, período da vida com maior incidência de doenças neurodegenerativas. No presente trabalho acompanhou-se a evolução dos grânulos de lipofucsina durante o envelhecimento para investigar alterações sinápticas, assim como proteínas associadas com doenças neurodegenerativas (alfa-sinucleína) e com o sistema ubiquitina-proteossoma em indivíduos de diferentes idades. No córtex temporal humano e de ratos determinou-se, nos diferentes grupos etários, seguindo a área, o número e as características dos grânulos de lipofucsina, o número de sinapses excitatórias, inibitórias e elétricas, os locais de contatos pós-sinápticos, o número de vesículas sinápticas por terminal e a expressão das proteínas alfa-sinucleína e ubiquitina. Amostras de córtex temporal humano de indivíduos com diferentes idades (20 - 28, 37 - 41 e 50 - 55 anos) foram coletadas de pacientes com epilepsia submetidos à lobectomia do lobo temporal. Amostras de ratos de 2, 6, 10 e 12 meses também foram coletadas. Foram utilizadas técnicas de microscopia de luz, eletrônica, confocal e western blots. Os dados obtidos de grânulos de lipofucsina são consistentes com outros estudos que observaram aumento dessa estrutura em mamíferos de maior idade. No entanto, os grânulos parecem crescer em volume, mas não em número, com aumento considerável da fração elétron lúcida (lipídica). Não houve diferença na expressão das proteínas alfa-sinucleína e ubiquitina entre os grupos das idades estudadas. A densidade sináptica foi similar entre os grupos experimentais, assim como o local de contato pós-sináptico. O aumento de vesículas elétron densas em sinapses inibitórias deve estar associado à demanda de neurotransmissores catecolaminérgicos. Estes resultados não expressam totalmente o processo de envelhecimento, pois as faixas etárias de humanos e ratos correspondem a uma idade ainda jovem. A coleta de material humano mais idoso foi impossibilitada pela faixa etária dos doentes submetidos à lobectomia. Os ratos do biotério da FMRP, não sobrevivem mais do que 12 meses em no nosso ambiente, incluindo manutenção dos animais isolados em racks. / Morphological and functional changes occur during the aging, period of life with increased incidence of neurodegenerative diseases. Following the evolution of the lipofuscin granules along three periods of life in humans and rats, the present work investigated synaptic changes, as well as proteins associated with neurodegenerative diseases (alpha-synuclein) and the ubiquitin-proteossoma system in individuals of different ages. The objectives of the study were to analyze the temporal cortex of humans and rats: the number of excitatory, inhibitory, and electric synapses, the site of postsynaptic contacts, the number of synaptic vesicles per terminal, and the expression of the proteins alpha-synuclein and ubiquitin following the size and features of the lipofuscin granules. Samples of temporal cortex of human subjects with different ages (20-28, 37-41 and 50-55 years) were collected from patients with epilepsy who underwent temporal lobectomy. Samples from rats of 2, 6, 10 and 12 months were also collected. Light, confocal, and electron microscopy, and western blots techniques were used as procedures. The data obtained on lipofuscin granules were coincident with other studies that observed a higher area occupied by this structure in older mammals. However, the granules seem to grow in volume, but not in number, with considerable increase of the electron lucid fraction (lipidic). There was no difference in the alpha-synuclein and ubiquitin expressions between the experimental groups. The synaptic densities were similar between the groups, as well as the postsynaptic contacts. Increase of the electron dense vesicles in inhibitory synapses, appeared to be associated with the demand of catecholamines. These results do not express totally the aging process, because the range of age used in humans, and rats belong to a young age. The human samples from older ages was difficult because, in general, of the age of the patients submitted to lobotomy. The rats of the FMRP bioterium do not survived more that 12 months in our environment, even in controlled conditions.

alfa-sinucleína

alpha-synuclein

and electron microscopy

confocal

contatos sinápticos

córtex temporal humano e de ratos

grânulos de lipofucsina

human and rat temporal cortex

light

lipofuscin granules

microscopia confocal

microscopia de luz

microscopia eletrônica

sinapses

synapses

synaptic contacts

synaptic vesicles

ubiquitin

ubiquitina

vesículas sinápticas

western blots.

western blots.

Multiple system atrophy : a translational approach Characterization of the insulin/IGF-1 signaling pathway / L'atrophie multisystématisée : une approche translationnelle

Bassil, Fares

02 September 2015

Ce travail porte sur des approches translationnelles dans les synucléinopathies notamment l’atrophie multisystématisée (AMS). Au-delà de leur rôle dans la régulation du glucose, l’insulin et l’insulin like growth factor-1 (IGF-1) ont des propriétés neurotrophiques. Des études ont montrées que la signalisation de l’insuline/IGF-1 est altérée dans la maladie d'Alzheimer et des données suggèrent l’altération de l’insuline/IGF-1 dans la maladie de Parkinson (MP) et l’AMS. Nous avons mis en évidence une résistance à l’insuline dans les neurones des patients MP et AMS ainsi que dans les oligodendrocytes chez les patients AMS.Mon travail a également consisté à cibler la troncation de l’α-synuclein (α-syn) comme cible thérapeutique. Nous avons démontré dans un modèle murin d’AMS que la diminution de l’α-syn tronquée permettait de réduire l’agrégation d’α-syn et la dégénérescence des neurones dopaminergiques.Enfin, nous avons étudié l’implication dans l’AMS des métalloprotéinases matricielles (MMP), des enzymes impliquées dans remodelage de la matrice, la démyélinisation, la troncation de l’α-syn et la perméabilité de la barrière hémato-encéphalique. Ce travail nous a permis de montrer une augmentation de l’expression et de l’activité de MMPs chez les patients AMS. Nous avons également montré que les cellules gliales sont la source de cette augmentation et que la MMP-2 est retrouvée dans les agrégats des patients AMS.Nous montrons ici de caractéristiques distinctes de l’AMS comme des altérations qui se produisent dans les oligodendrocytes. Nous présentons aussi VX-765 comme un candidat prometteur pour ralentir la progression de la pathologie dans un contexte de synucléinopathie. / This work focused on translational approaches in synucleinopathies and more specifically in multiple system atrophy (MSA). Beyond their role in glucose homeostasis, insulin/IGF-1 are neurotrophic factors in the brain. Studies have shown altered insulin/IGF-1 signalling in Alzheimer’s disease and data suggest impaired insulin signaling/IGF-1 in Parkinson's disease (PD) and MSA. The aim of my work was to characterize insulin/IGF-1 signalling in MSA and PD brain tissue. Both groups showed neuronal insulin resistance. Oligodendrocytes in MSA patients were also insulin resistant.In line with the translational approach, we also targeted α-synuclein (α-syn) truncation pharmacologically in MSA transgenic mice, which led to reduced α-syn aggregation and the protection of dopaminergic neurons.We also assessed the activity and distribution of matrix metalloproteinases (MMPs) in the brain of MSA patients compared to healthy controls. MMPs are involved in the remodelling of the extracellular matrix, demyelination, α-syn truncation and blood brain barrier permeability. We showed altered expression and activity of MMPs in two distinct structures in MSA brains. We were also able to show that glial cells were the source of increased MMPs and show a unique expression of MMPs in α-syn aggregates of MSA patients compared to PD, evidence that might hint at a mechanism that is differently altered between PD and MSA.We here show distinct pathological features of MSA such as key alterations occurring in oligodendrocytes, further supporting MSA as a primary oligodendrogliopathy. We also present VX-765 as a candidate drug for disease modification in synucleinopathies.

Synucléine

Résistance à l'insuline

Métalloprotéinases matricielles

Atrophie multisystématisée

Parkinson

Insuline

Insulin like growth factor-1

Glucagon like peptide-1

Inclusions cytoplasmiques gliales

Synuclein

Insulin resistance

Matrix metalloproteinase

Multiple system atrophy

Parkinson’s disease

Insulininsulin like growth factor-1

Glucagon like peptide-1

Glial cytoplasmic inclusions

Postmortem human brain study

Analysis of Neuronal Diseases in the Model Organism <i>Aspergillus nidulans</i> / Die Analyse neuronaler Krankheiten im Modellorganismus <i>Aspergillus nidulans</i>

Laubinger, Karen

29 October 2008

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

Aspergillus nidulans

α-Synuklein

NUDC

NUDF

Parkinson

Lissenzephalie

Aspergillus nidulans

α-synuclein

NUDC

NUDF

Parkinson

42.13

42.15

42.20

42.30

42.51

WF 200: Molekularbiologie

WJD 300: Mutationen {Biologie, Genetik}

WUV 000: Angewandte Mikrobiologie

Charakterisierung der myopathologischen Veränderungen bei der Kamptokormie des Morbus Parkinson / Characterization of the myopathological alterations in camptocormia of Parkinson's disease

Wrede, Arne

29 February 2012

No description available.

610 Medizin, Gesundheit

Medicine

Kamptokormie

M. Parkinson

Myopathie

PET-blot

α-Synuklein

axiale Dystonie

Haltungsinstabilität

bent spine

paraspinale / autochthone Muskulatur

Camptocormia

Parkinson´s disease

myopathy

PET-blot

α-synuclein

axial dystonia

postural instability

bent spine

paraspinal / autochthonic muscles

44.47 Pathologie

MED 391: Pathologie {Medizin}

Molecular chaperones in the assembly of α-Synuclein and Parkinson's Disease

Pemberton, Samantha

09 December 2011

The formation and deposition of α-Synuclein fibrils in the human brain is at the origin of Parkinson's disease. The objective of my thesis was to document the role of two molecular chaperones on the assembly of α-Syn into fibrils: Hsc70, a constitutively expressed human heat shock protein, and Ssa1p, its yeast equivalent. The aim was to expand the catalogue of known effects of molecular chaperones on the PD implicated protein, which could have therapeutic significance. We showed that Hsc70 inhibits the assembly of α-Syn into fibrils, by binding with high affinity to the soluble form of α-Syn. We documented that Hsc70 binds preferentially to α-Syn fibrils and that this binding has a cytoprotective effect, as it renders the fibrils less toxic to cultured mammalian cells. Similarly to Hsc70, Ssa1p inhibits the assembly of α-Syn into fibrils, and has a higher affinity for fibrils than for the soluble form of α-Syn. On the other hand, binding of Ssa1p to α-Syn fibrils does not have a cytoprotective effect, almost certainly due to differences in the amino acid sequences of the peptide binding sites of the two molecular chaperones, which mean that Ssa1p has a lower affinity than Hsc70 for α-Syn fibrils. We stabilized the complex between Ssa1p and α-Syn using chemical cross-linkers, to then map the interaction site between the two proteins. This is indispensable if a "mini" Ssa1p, comprised of only what is necessary and sufficient of Ssa1p, is to be used as a therapeutic agent to decrease the toxicity of α-Syn fibrils. A therapeutic agent based on exogenous protein Ssa1p is less likely to trigger an autoimmune response than for example the endogenous protein Hsc70.

Molecular chaperones

Co-chaperones

Heat shock protein

Parkinson's disease

Protein assembly

Protein folding

Αlpha-synuclein

Fibrils

Hsc70

Oligomers

Ssa1p

Estudo dos grânulos de lipofucsina e das sinapses do córtex temporal durante o envelhecimento / Study of lipofuscin granules and synapses in the temporal cortex during aging.

Suélen Merlo

14 April 2011

Alterações morfológicas e funcionais ocorrem durante o envelhecimento, período da vida com maior incidência de doenças neurodegenerativas. No presente trabalho acompanhou-se a evolução dos grânulos de lipofucsina durante o envelhecimento para investigar alterações sinápticas, assim como proteínas associadas com doenças neurodegenerativas (alfa-sinucleína) e com o sistema ubiquitina-proteossoma em indivíduos de diferentes idades. No córtex temporal humano e de ratos determinou-se, nos diferentes grupos etários, seguindo a área, o número e as características dos grânulos de lipofucsina, o número de sinapses excitatórias, inibitórias e elétricas, os locais de contatos pós-sinápticos, o número de vesículas sinápticas por terminal e a expressão das proteínas alfa-sinucleína e ubiquitina. Amostras de córtex temporal humano de indivíduos com diferentes idades (20 - 28, 37 - 41 e 50 - 55 anos) foram coletadas de pacientes com epilepsia submetidos à lobectomia do lobo temporal. Amostras de ratos de 2, 6, 10 e 12 meses também foram coletadas. Foram utilizadas técnicas de microscopia de luz, eletrônica, confocal e western blots. Os dados obtidos de grânulos de lipofucsina são consistentes com outros estudos que observaram aumento dessa estrutura em mamíferos de maior idade. No entanto, os grânulos parecem crescer em volume, mas não em número, com aumento considerável da fração elétron lúcida (lipídica). Não houve diferença na expressão das proteínas alfa-sinucleína e ubiquitina entre os grupos das idades estudadas. A densidade sináptica foi similar entre os grupos experimentais, assim como o local de contato pós-sináptico. O aumento de vesículas elétron densas em sinapses inibitórias deve estar associado à demanda de neurotransmissores catecolaminérgicos. Estes resultados não expressam totalmente o processo de envelhecimento, pois as faixas etárias de humanos e ratos correspondem a uma idade ainda jovem. A coleta de material humano mais idoso foi impossibilitada pela faixa etária dos doentes submetidos à lobectomia. Os ratos do biotério da FMRP, não sobrevivem mais do que 12 meses em no nosso ambiente, incluindo manutenção dos animais isolados em racks. / Morphological and functional changes occur during the aging, period of life with increased incidence of neurodegenerative diseases. Following the evolution of the lipofuscin granules along three periods of life in humans and rats, the present work investigated synaptic changes, as well as proteins associated with neurodegenerative diseases (alpha-synuclein) and the ubiquitin-proteossoma system in individuals of different ages. The objectives of the study were to analyze the temporal cortex of humans and rats: the number of excitatory, inhibitory, and electric synapses, the site of postsynaptic contacts, the number of synaptic vesicles per terminal, and the expression of the proteins alpha-synuclein and ubiquitin following the size and features of the lipofuscin granules. Samples of temporal cortex of human subjects with different ages (20-28, 37-41 and 50-55 years) were collected from patients with epilepsy who underwent temporal lobectomy. Samples from rats of 2, 6, 10 and 12 months were also collected. Light, confocal, and electron microscopy, and western blots techniques were used as procedures. The data obtained on lipofuscin granules were coincident with other studies that observed a higher area occupied by this structure in older mammals. However, the granules seem to grow in volume, but not in number, with considerable increase of the electron lucid fraction (lipidic). There was no difference in the alpha-synuclein and ubiquitin expressions between the experimental groups. The synaptic densities were similar between the groups, as well as the postsynaptic contacts. Increase of the electron dense vesicles in inhibitory synapses, appeared to be associated with the demand of catecholamines. These results do not express totally the aging process, because the range of age used in humans, and rats belong to a young age. The human samples from older ages was difficult because, in general, of the age of the patients submitted to lobotomy. The rats of the FMRP bioterium do not survived more that 12 months in our environment, even in controlled conditions.

alfa-sinucleína

contatos sinápticos

córtex temporal humano e de ratos

grânulos de lipofucsina

microscopia confocal

microscopia de luz

microscopia eletrônica

sinapses

ubiquitina

vesículas sinápticas

western blots.

alpha-synuclein

and electron microscopy

confocal

human and rat temporal cortex

light

lipofuscin granules

synapses

synaptic contacts

synaptic vesicles

ubiquitin

western blots.

L’α-synucléine : un regard sur les miARN menant à sa surexpression

Salvail-Lacoste, Alix

12 1900

L'α-synucléine est reconnue comme une protéine clé dans la physiopathologie de la maladie de Parkinson ainsi que d'autres troubles neurodégénératifs appelés synucléinopathies. Dans ces maladies, la surexpression de l’α-synucléine entraîne la formation d'agrégats toxiques dans les neurones dopaminergiques (DA). Dans cette thèse, nous avons exploré l’effet de la régulation de microARN (miARN) sur l’expression de l’α-synucléine. Pour se faire, des études ont été menées avec la lignée cellulaire humaine SH-SY5Y qui peut être différenciée pour créer un modèle de neurones DA et ensuite traitée avec une neurotoxine pour induire des caractéristiques cellulaires de la maladie de Parkinson. Des observations importantes ont été supportées dans des modèles cellulaires plus avancés, notamment les neurones induits par reprogrammation directe de fibroblastes humains (iNs) et les neurones DA primaires de souris purifiés. Le premier objectif était de mieux comprendre comment la surexpression aberrante de l'α synucléine dans les synucléinopathies pourrait être due à une dérégulation de la maturation des miARN qui ciblent son ARN messager. Tout d’abord, nous avons sélectionné les miARN les plus susceptibles d'avoir un effet régulateur sur l’expression de l’α-synucléine à partir de recherche de la littérature et d’analyse de bases de données spécialisées. Nous avons observé que l’augmentation de l'expression de l'α-synucléine associée à l’ajout de neurotoxine est accompagnée d’une diminution concomitante de l'expression de plusieurs miARN sélectionnés. Sur la base de ces résultats, l'impact de ces miARN sur l'expression de l'α-synucléine a été évalué dans plusieurs types de cellules humaines, notamment les HEK 293T, les SH-SY5Y différenciées et les iNs. À cette fin, nous avons utilisé des cibles de miARN exogènes pour réprimer l'activité régulatrice des miARN et avons mesuré leur effet sur l'expression de l'α synucléine. Ainsi, nous avons démontré que la répression de miR-7, miR-93, miR-140, miR 153 et miR 214 mène systématiquement à la surexpression de l’α-synucléine dans les différents types de cellules. De plus, nous avons démontré que certains miARN sont régulés de manière post-transcriptionnelle en mesurant les niveaux des formes immatures et matures des miARN dans différents contextes cellulaires. Le deuxième objectif était d’identifier des protéines potentiellement aptes à réguler la maturation post-transcriptionnelle de miARN. Des études de purification par affinité et de spectrométrie de masse ont permis d'identifier les protéines qui s’associent avec la tige-boucle des formes immatures des miARN et régulent potentiellement leur maturation. Quelques protéines candidates ont été sélectionnées sur la base d’analyse informatique pour examiner l’effet de leur surexpression dans différents essais cellulaires. À ce jour, nous avons identifié quatre protéines (MIF, PCBP2, Prohibitin-2, and Tfr1) qui, en plus de répondre à certains critères de bases (lient l’ARN, sont présentes dans le cerveau et impliquées dans des maladies associées au système nerveux), ont un effet sur l’activité et l’expression de miR-153 ainsi que sur l’expression de l’α-synucléine. Ces travaux ont permis d’établir de solides bases dans notre compréhension de la régulation de l'α-synucléine par les miARN et d’ouvrir la voie à des études plus élaborées qui permettront d’établir les mécanismes de régulation des niveaux de miARN qui ciblent l’α-synucléine. À plus long terme, cet axe de recherche pourrait fournir des pistes pour le développement d'outils diagnostiques et thérapeutiques pour les synucléinopathies. / Alpha-synuclein is a key protein in the pathophysiology of Parkinson's disease and other neurodegenerative disorders called synucleinopathies. In these diseases, overexpression of α-synuclein leads to the formation of toxic aggregates in dopaminergic (DA) neurons. In this thesis, we explored the effect of microRNA (miRNA) regulation on α-synuclein expression. To do so, studies were conducted with the human SH-SY5Y cell line, which can be differentiated to create a model of DA neurons and then treated with a neurotoxin to induce cellular features of Parkinson's disease. Important observations were supported in more advanced cell models, including neurons induced by direct reprogramming of human fibroblasts (iNs) and purified primary mouse DA neurons. The first objective was to better understand how aberrant overexpression of α-synuclein in synucleinopathies results in the deregulation of the maturation of miRNAs that target its messenger RNA. First, we selected the miRNAs most likely to have a regulatory effect on α-synuclein expression based on literature searches and specialized database analyses. We observed that the increase in α-synuclein expression associated with neurotoxin addition is accompanied by a concomitant decrease in the expression level of several selected miRNAs. Based on these results, the impact of these miRNAs on αsynuclein expression was evaluated in several human cell types, including HEK 293T, differentiated SHSY5Y, and iNs. To this end, we used exogenous miRNA targets to repress miRNA regulatory activity and measured their effect on α-synuclein expression. Thus, we demonstrated that repression of miR-7, miR-93, miR-140, miR-153, and miR-214 consistently leads to overexpression of α-synuclein in different cell types. In addition, we demonstrated that some miRNAs are regulated in a posttranscriptional manner by measuring the levels of immature and mature forms of miRNAs in different cellular contexts. The second objective was to identify proteins potentially able to regulate the post-transcriptional maturation of miRNAs. Affinity purification and mass spectrometry studies were used to identify proteins that associate with the stem-loop of immature forms of miRNAs and potentially regulate their maturation. A few candidate proteins were selected based on computational analysis to examine the effect of their overexpression in different cell-based assays. To date, we have identified four proteins (MIF, PCBP2, Prohibitin-2, and Tfr1) that, in addition, to fitting basic criteria (known to bind RNA, are present in the brain and associated with nervous system-related diseases) affect miR-153 activity and expression as well as α-synuclein expression. This work has established a solid foundation in our understanding of the regulation of α-synuclein by miRNAs and has paved the way for more elaborate studies that will establish the mechanisms of regulation of miRNA levels that target α-synuclein. In the longer term, this line of research could provide avenues for the development of diagnostic and therapeutic tools for synucleinopathies.

miARN

α-synucléine

maturation de miARN

neurones dopaminergiques

purification par affinité

analyse de spectrométrie de masse

protéines liant les miARN

maladie de Parkinson

synucléinopathies

miRNA

α-synuclein

miRNA maturation

miRNA post-transcriptional regulation

Dopaminergic neurons

Affinity purification

Mass spectrometry analysis

miRNA-binding proteins

Parkinson’s disease

Synucleinopathies

Biochemistry / Biochimie (UMI : 0487)