Global ETD Search

31	Pathological implications of the interaction between neurexins and alpha-synuclein in synucleinopathies Fallon, Aurélie 11 1900 (has links) 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
32	Utilisation de l’intelligence artificielle pour identifier les marqueurs de la démence dans le trouble comportemental en sommeil paradoxal Mekki Berrada, Loubna 08 1900 (has links) La démence à corps de Lewy (DCL) et la maladie de Parkinson (MP) sont des maladies neurodégénératives touchant des milliers de Canadiens et leur prévalence croît avec l’âge. La MP et la DCL partagent la même pathophysiologie, mais se distinguent par l’ordre de manifestation des symptômes : la DCL se caractérise d’abord par l’apparition d’un trouble neurocognitif majeur (démence), tandis que la MP se manifeste initialement par un parkinsonisme. De plus, jusqu’à 80% des patients avec la MP développeront une démence (MPD). Il est désormais établi que le trouble comportemental en sommeil paradoxal idiopathique (TCSPi) constitue un puissant prédicteur de la DCL et la MP. En effet, cette parasomnie, marquée par des comportements indésirables durant le sommeil, est considérée comme un stade prodromal des synucléinopathies, telles que la MP, la DCL et l'atrophie multisystémique (AMS). Ainsi, la majorité des patients atteints d’un TCSPi développeront une synucléinopathie. Malgré les avancées scientifiques, les causes du TCSPi, de la MP et de la DCL demeurent inconnues et aucun traitement ne parvient à freiner ou à arrêter la neurodégénérescence. De plus, ces pathologies présentent une grande hétérogénéité dans l’apparition et la progression des divers symptômes. Face à ces défis, la recherche vise à mieux cerner les phases précoces/initiales et les trajectoires évolutives de ces maladies neurodégénératives afin d’intervenir le plus précocement possible dans leur développement. C’est pourquoi le TCSPi suscite un intérêt majeur en tant que fenêtre d'opportunités pour tester l’efficacité des thérapies neuroprotectrices contre les synucléinopathies, permettant d'agir avant que la perte neuronale ne devienne irréversible. Le TCSPi offre ainsi une occasion unique d'améliorer la détection de la démence et le suivi des individus à haut risque de déclin cognitif. D'où l'importance cruciale de pouvoir généraliser les résultats issus de la recherche sur de petites cohortes à l'ensemble de la population. Sur le plan de la cognition, les études longitudinales sur le TCSPi ont montré que les atteintes des fonctions exécutives, de la mémoire verbale et de l'attention sont les plus discriminantes pour différencier les individus qui développeront une démence de ceux qui resteront idiopathiques. De plus, un grand nombre de patients TCSPi souffrent d’un trouble neurocognitif mineur ou trouble cognitif léger (TCL), généralement considéré comme un stade précurseur de la démence. Les recherches actuelles sur les données cognitives chez cette population offrent des perspectives prometteuses, mais reposent sur des approches statistiques classiques qui limitent leur validation et généralisation. Bien qu'elles offrent une précision élevée (80 à 85%) pour détecter les patients à risque de déclin cognitif, une amélioration est nécessaire pour étendre l'utilisation de ces marqueurs à une plus large échelle. Depuis les années 2000, l'accroissement de la puissance de calcul et l'accès à davantage de ressources de mémoire ont suscité un intérêt accru pour les algorithmes d'apprentissage machine (AM). Ces derniers visent à généraliser les résultats à une population plus vaste en entraînant des modèles sur une partie des données et en les testant sur une autre, validant ainsi leur application clinique. Jusqu'à présent, aucune étude n'a évalué les apports de l'AM pour la prédiction de l'évolution des synucléinopathies en se penchant sur le potentiel de généralisation, et donc d'application clinique, à travers l'usage d'outils non invasifs et accessibles ainsi que de techniques de validation de modèles (model validation). De plus, aucune étude n'a exploré l'utilisation de l'AM associée à des méthodes de généralisation sur des données neuropsychologiques longitudinales pour élaborer un modèle prédictif de la progression des déficits cognitifs dans le TCSPi. L’objectif général de cette thèse est d’étudier l’apport de l’AM pour analyser l’évolution du profil cognitif de patients atteints d’un TCSPi. Le premier chapitre de cette thèse présente le cadre théorique qui a guidé l’élaboration des objectifs et hypothèses de recherche. Le deuxième chapitre est à deux volets (articles). Le premier vise à fournir une vue d'ensemble de la littérature des études ayant utilisé l'AM (avec des méthodes de généralisation) pour prédire l'évolution des synucléinopathies vers une démence, ainsi que les lacunes à combler. Le deuxième volet vise à explorer et utiliser pour la première fois l'AM sur des données cliniques et cognitifs pour prédire la progression vers la démence dans le TCSPi, dans un devis longitudinal. Enfin, le dernier chapitre de la thèse présente une discussion et une conclusion générale, comprenant un résumé des deux articles, ainsi que les implications théoriques, les forces, les limites et les orientations futures. / Lewy body dementia (LBD) and Parkinson's disease (PD) are neurodegenerative diseases affecting thousands of Canadians, and their prevalence increases with age. PD and DLB share the same pathophysiology, but differ in the order of symptom manifestation: DLB is characterized first by the onset of a major neurocognitive disorder (dementia), whereas PD initially manifests as parkinsonism. Moreover, up to 80% of PD patients will go on to develop dementia (PDD). It is established that idiopathic REM sleep behavior disorder (iRBD) is a powerful predictor of DLB and PD. Indeed, this parasomnia, marked by undesirable behaviors during sleep, is considered a prodromal stage of synucleinopathies, such as PD, DLB and multisystem atrophy (MSA). Therefore, the majority of patients with iRBD will develop synucleinopathy. Despite scientific advancements, the causes of iRBD, PD, and DLB remain unknown and no treatment has been able to slow or halt neurodegeneration. Furthermore, these pathologies display great heterogeneity in the onset and progression of various symptoms. Faced with these challenges, research aims to better understand the early/initial stages and the progressive trajectories of these neurodegenerative diseases in order to intervene as early as possible in their development. This is why iRBD garners major interest as a window of opportunities to test the effectiveness of neuroprotective therapies against synucleinopathies, enabling action to be taken before neuronal loss becomes irreversible. iRBD thus provides a unique opportunity to improve dementia detection and monitoring of individuals at high risk of cognitive decline. Hence the crucial importance of being able to generalize results of research on small cohorts to the entire population. In terms of cognition, longitudinal studies on iRBD have shown that impairments in executive functions, verbal memory, and attention are the most discriminating in differencing between individuals who will develop dementia from those who will remain idiopathic. In addition, many iRBD patients suffer from a mild neurocognitive disorder or mild cognitive impairment (MCI), generally considered as a precursor stage of dementia. Current research on cognitive data in this population offers promising prospects, but relies on traditional statistical approaches that limit their validation and generalizability. While they provide high accuracy (80 to 85%) for detecting patients at risk of cognitive decline, improvement is needed to extend the use of these markers to a larger scale. Since the 2000s, increased computational power and access to more memory resources have sparked growing interest in machine learning (ML) algorithms. These aim to generalize results to a broader population by training models on a subset of data and testing them on another, thus validating their clinical application. To date, no study has assessed the contributions of ML for predicting the progression of synucleinopathies, focusing on the potential for generalization, and hence clinical application, through the use of non-invasive, accessible tools and model validation techniques. Moreover, no study has explored the use of ML in conjunction with generalization methods on longitudinal neuropsychological data to develop a predictive model of cognitive deficit progression in iRBD. The general objective of this thesis is to study the contribution of ML in analyzing the evolution of the cognitive profile of patients with iRBD. The first chapter of this thesis presents the theoretical framework that guided the formulation of the research objectives and hypotheses. The second chapter is in two parts (articles). The first aims to provide an overview of the literature of studies that have used ML (with generalization methods) to predict the progression of synucleinopathies to dementia, as well as the gaps that need to be filled. The second part aims to explore and use for the first time ML on clinical and cognitive data to predict progression to dementia in iRBD, in a longitudinal design. Finally, the last chapter of the thesis presents a discussion and a general conclusion, including a summary of the two articles, as well as theoretical implications, strengths, limitations, and future directions. Synucléinopathies maladie de Parkinson démence à corps de Lewy cognition apprentissage machine Random Forest généralisation Synucleinopathies Parkinson's Disease Lewy Body Dementia Machine learning Generalization
33	Prognostischer und differenzialdiagnostischer Stellenwert der Liquordiagnostik bei neurodegenerativen Demenzerkrankungen Haußmann, R., Homeyer, P., Brandt, M. D., Donix, M. 16 May 2024 (has links) Die Liquordiagnostik im Rahmen von Demenzerkrankungen ist trotz neuer diagnostischer Möglichkeiten im Bereich der PET(Positronen-Emissions-Tomographie)-Bildgebung weiterhin von hoher klinischer Relevanz. Insbesondere für die Alzheimer-Erkrankung existieren validierte Biomarker, die die Diagnose untermauern und bei der diagnostischen Abgrenzung anderer Demenzätiologien hilfreich sein können.Während unauffällige Liquorbefunde mit negativen Demenz- und Destruktionsmarkern die überwiegende Mehrzahl neurodegenerativer Demenzursachen mit hoher diagnostischer Sicherheit ausschließen, stellen in der klinischen Praxis vor allem überlappende Biomarkerprofile bei primär neurodegenerativen Demenzursachen ein substanzielles Problem bei der Befundinterpretation dar. Deshalb bedarf die Liquorbefundinterpretation stets einer kontextualisierten Betrachtung unter Würdigung der klinischen Symptomatik und Verlaufscharakteristika des entsprechenden demenziellen Syndroms. Außerdem stellen auchMischbefunde eine häufige diagnostische Herausforderung dar, ür deren Interpretation es profunder Kenntnisse im Bereich von Präanalytik, möglicher Liquorbefundkonstellationen und natürlich der verschiedenen in Betracht kommenden Demenzätiologien bedarf. Auch Liquorbiomarker für Synukleinopathien, Tauopathien sowie TDP43(Transactive response DNA binding protein 43 kDa)-Proteinopathien sind Gegenstand aktueller Untersuchungen, wenngleich diese noch nicht den Weg in die klinische Routinediagnostik gefunden haben. info:eu-repo/classification/ddc/610 ddc:610
34	Neurotoxicity and aggregation of β-synuclein and its P123H and V70M mutants associated with dementia with Lewy bodies Psol, Maryna 26 June 2018 (has links) No description available. 570 Biologie (PPN619462639)
35	Cognition and morphological brain changes in Charles Bonnet syndrome Russell, Gregor January 2014 (has links) Charles Bonnet syndrome (CBS) is defined as complex persistent visual hallucinations in the absence of mental disorder. It is associated with advanced age and poor vision. It is common, with prevalence estimates of up to 63% among older people with significant visual impairment. CBS would not be diagnosed in the presence of dementia, but its relationship to milder cognitive impairment is unclear. The few studies that have examined this are underpowered and provide contradictory results. There are 16 case reports of dementia emerging in people with a diagnosis of CBS. These cases raise the possibility of an association between impaired insight at diagnosis of CBS and the subsequent development of dementia. This thesis reports the findings of a prospective cohort study which describes changes in cognitive functioning over one year in patients with CBS and age-matched controls. Participants were recruited from low vision and glaucoma assessment clinics. A clinical assessment was carried out by an old age psychiatrist, and participants had a detailed assessment of visual functioning. This thesis also describes the findings of the first study to use voxel-based morphometry (VBM) to investigate changes in volume of grey and white matter in CBS. Participants were recruited from the same clinics as the cohort study, and underwent MRI scanning on a 1.5T scanner, to a protocol designed to produce 1mm3 voxels. Twelve participants with CBS and ten controls were followed up. Two people in the CBS group developed dementia, while none did in the control group. The CBS group showed a mean change in the score on the Addenbrooke’s cognitive examination (ACE-R) of -3.7 points, compared to a change of +1.4 in the control group. This difference was not statistically significant. The CBS participants performed worse on the verbal fluency item of the ACE-R, a difference which was statistically significant. The VBM analysis was conducted on 11 CBS participants and 11 controls. The CBS group showed an increase in grey matter volume in the right cerebellar hemisphere. This difference retained significance after family-wise error correction, non-stationary correction, and ANCOVA to control for the effects of possible confounders. As far as the author is aware, these are the most methodologically robust studies to date to have investigated cognition and morphological brain changes in CBS. The findings of the cohort study were inconclusive. However, the two cases of dementia in CBS patients add weight to the suspicion that this is a clinically important outcome in the condition, and the finding of abnormalities in frontal lobe testing in participants with CBS fits with a theoretical model of visual hallucination generation. Moreover, this type of research appears to be acceptable to a frail and visually disabled population, and studies powered to investigate this issue more fully would be feasible. The VBM findings report the presence of underlying structural brain abnormalities in CBS, in a region not usually associated with visual hallucinations. Possible links with Lewy body dementia, and implications for theories of visual hallucinations, are discussed. 616.8
36	Alpha-Synuclein Pathology Coincides With Increased Number of Early Stage Neural Progenitors in the Adult Hippocampus Bender, Hannah, Fietz, Simone A., Richter, Franziska, Stanojlovic, Milos 03 April 2023 (has links) Alpha-synuclein pathology driven impairment in adult neurogenesis was proposed as a potential cause of, or at least contributor to, memory impairment observed in both patients and animal models of Parkinson’s disease (PD) and Dementia with Lewy Bodies (DLB). Mice overexpressing wild-type alpha-synuclein under the Thy-1 promoter (Thy1-aSyn, line 61) uniquely replicate early cognitive deficits together with multiple other characteristic motor and non-motor symptoms, alpha-synuclein pathology and dopamine loss. Here we report overt intracellular accumulation of phosphorylated alphasynuclein in the hippocampus of these transgenic mice. To test whether this alters adult neurogenesis and total number of mature neurons, we employed immunohistochemistry and an unbiased stereology approach to quantify the distinct neural progenitor cells and neurons in the hippocampal granule cell layer and subgranular zone of 6 (prodromal stage) and 16-month (dopamine loss) old Thy1-aSyn mice. Surprisingly, we observed an increase in the number of early stage, i.e., Pax6 expressing, progenitors whereas the numbers of late stage, i.e., Tbr2 expressing, progenitors and neurons were not altered. Astroglia marker was increased in the hippocampus of transgenic mice, but this was not specific to the regions where adult neurogenesis takes place, arguing against a commitment of additional early stage progenitors to the astroglia lineage. Together, this uncovers a novel aspect of alpha-synuclein pathology in adult neurogenesis. Studying its mechanisms in Thy1-aSyn mice could lead to discovery of effective therapeutic interventions for cognitive dysfunction in PD and DLB. info:eu-repo/classification/ddc/570 ddc:570
37	Liquorproteomveränderungen bei Patienten mit Lewy-Körperchen Demenz / Cerebrospinal fluid proteome alterations in dementia with Lewy bodies Dieks, Jana-Katharina 22 October 2013 (has links) Die Demenz mit Lewy-Körperchen (DLB) ist eine progrediente neurodegenerative Erkrankung und stellt nach der Alzheimer-Erkrankung eine der häufigsten Ursachen einer Demenz dar. Betroffene leiden neben dem zentralen Merkmal Demenz an Fluktuationen der Kognition, Parkinsonismus und visuellen Halluzinationen. Charakteristische neuropatholgische Kennzeichen der DLB sind α-Synuklein-enthaltende Lewy-Körperchen und -Neuriten, die sich in kortikalen und subkortikalen Hirnregionen finden. Bei der klinischen Diagnostik dieser Erkrankung sind neben der Beurteilung klinischer Befunde laborchemische, psychometrische, apparative und bildgebende Verfahren von Bedeutung, jedoch ist eine sichere Diagnose nur bioptisch zu stellen. Gegenstand dieser Arbeit war die Untersuchung des Liquorproteomprofils von DLB-Patienten im Vergleich zu neurologisch gesunden Kontrollen und die Identifikation von regulierten Proteinen im Liquor bei der DLB durch Verwendung klassischer Methoden der Proteomik. Nach initialer Depletion von zwölf häufigen Proteinen wurden die Liquorproben mittels zweidimensionaler Gelektrophorese aufgetrennt, die Proteinexpressionsmuster quantitativ verglichen und anschließend insgesamt 23 verschiedene Proteine aus 44 regulierten Gelspots massenspektrometrisch identifiziert. Es fanden sich Proteine involviert in die Immunantwort, den Lipidstoffwechsel, den Glukosestoffwechsel, die Signaltransduktion und die Zellstruktur sowie einige, die sich keiner dieser funktionellen Gruppen zuordnen ließen. Von vier ausgewählten Proteinen - Complement C4a, Transthyretin, Contactin-1 und Chromogranin A - wurden Western Blots angefertigt, wofür Liquor sowohl von DLB-Patienten und gesunden Kontrollen als auch zum weiterführenden Vergleich von Parkinson- und Alzheimer-Patienten verwendet wurde. Die Ergebnisse dieser Arbeit zeigen auf Proteinebene die Vielfalt der biologischen Prozesse, die bei der DLB gestört ist. Zum Teil lassen sich Parallelen zu anderen neurogenerativen Erkrankungen erkennen, einige Proteine konnten jedoch erstmalig und einzig als bei der DLB reguliert nachgewiesen werden. 610 dementia with Lewy bodies biomarker cerebrospinal fluid
38	MOLECULAR PERTURBATIONS IN SYNUCLEINOPATHY DISORDERS: INSIGHTS FROM PRE-CLINICAL TO HUMAN NEUROPATHOLOGY Paola C. Montenegro (5930060) 15 May 2019 (has links) <div><p>Parkinson’s disease (PD) is a devastating neurodegenerative disorder that affects 10 million people worldwide and is characterized by pronounced motor symptoms. Dementia with Lewy Bodies (DLB) involves both cognitive and motor deficits and affects ~1 million people in the United States. To date there is no cure for PD or DLB, and current treatments address only a subset of the symptoms that define these diseases. PD and DLB are ‘synucleinopathies’, defined as disorders involving the accumulation in patients’ brains of Lewy bodies. Lewy bodies are cellular inclusions that consist largely of aggregated species of alpha-synuclein (aSyn), a presynaptic protein that exists as both cytosolic and membrane-bound forms. Pathophysiological findings suggest that aggregated aSyn is involved in neurodegeneration in PD and DLB. However, mechanisms by which aSyn forms neurotoxic aggregates, and neurotoxic processes that distinguish different synucleinopathies such as PD and DLB, are poorly understood. To address these gaps, we have (i) designed a protocol to establish a primary cell culture model that can recapitulate key neuropathological features of PD, (ii) examined effects of expressing aSyn variants in a rat model of PD, and (iii) examined the expression profiles of neuroprotective genes in PD and DLB brain specimens.</p><p> </p><p>In the first part of my thesis, I describe the development of an optimized protocol to prepare primary midbrain and cortical cultures from rat embryonic brains for the study of PD and other synucleinopathies. The establishment of cellular models that simulate specific aspects of neuropathology can enable the characterization of molecular perturbations that lead to dopaminergic (DA) neuronal death. Our primary midbrain mixed culture model provides an outstanding opportunity to explore therapeutic strategies to rescue DA neurons from toxicity elicited by a range of PD-related insults. In addition, our primary cortical mixed cultures can be used to model cortical neuropathology in various CNS disorders including synucleinopathies.</p><p> </p><p>A number of mutations in the gene that codes for aSyn are associated with familial, early-onset forms of PD. A major goal of my thesis research is to characterize neurotoxic effects of a recently discovered familial substitution, A53E. This mutant was chosen based on the rationale that the introduction of a negatively charged residue at position 53 could potentially interfere with aSyn-membrane interactions and favor A53E aggregation, as we described for other familial aSyn mutants. For the first time, we have reproduced the neurotoxicity of A53E seen in human patients by expressing the mutant protein in rat midbrain. Rats injected unilaterally in the substantia nigra (SN) with rAAV encoding A53E and another familial mutant, A53T, but not rAAV encoding WT aSyn or a vector-control (‘stuffer’) virus, exhibited a significant motor impairment. Immunohistochemical analysis at 14 weeks after the viral injection revealed that brain sections from aSyn-expressing rats exhibit key features reminiscent of neuropathology in human PD, including nigral dopaminergic neuron loss (confirmed by unbiased stereology), striatal terminal depletion, and aSyn inclusion formation. In addition, it was determined that WT aSyn and the A53E and A53T mutants invaded the non-injected substantia nigra, implying that expressed aSyn protein can spread throughout the brain in the rat rAAV-aSyn model. These results yield insights into the molecular basis for the neurotoxicity of A53E and shed light on a potential role for membrane-induced aSyn aggregation in PD pathogenesis in vivo, thus setting the stage for developing therapies to slow neurodegeneration in the brains of familial and idiopathic PD patients. </p><p> </p><p>aSyn neurotoxicity varies with the expression of neuroprotective proteins, and misfolded aSyn affects cellular functions and gene expression. These observations suggest that differential gene expression patterns can inform us about similarities and differences in pathogenic mechanisms of different synucleinopathy disorders. A third phase of my thesis research was aimed at determining the expression levels of a panel of candidate neuroprotective genes in post-mortem brain samples from DLB and PD patients and age-matched controls (5 individuals in each group). mRNAs encoding the following proteins were quantified via qRT-PCR in homogenates prepared from the frontal cortex and the BA24 region encompassing the cingulate gyrus: DJ-1, a protein with antioxidant and chaperone activities; PGC1α, a master regulator of mitochondrial biogenesis and oxidative metabolism; MsrA, an antioxidant enzyme responsible for repairing oxidatively damaged proteins; and ATP13A2, a lysosomal protein involved in autophagy. In addition to yielding new insights into differential gene expression patterns in cortex versus cingulate gyrus, the data revealed differences in mRNA expression levels in DLB versus non-DLB cortical tissue. Although levels of all four neuroprotective mRNAs were increased (or showed a trend towards being increased) in DLB cortex, Western blot analysis revealed that only the DJ-1 and PGC1α proteins showed a trend towards being up-regulated, whereas levels of ATP13A2 and MsrA were unchanged. These findings suggest that there is a failure to induce cellular antioxidant responses and lysosomal autophagy at the protein level in DLB cortex, and in turn this failure could contribute to neuropathology. Interestingly, analysis of the same panel of neuroprotective genes in PD cortical samples did not show significant differences in mRNA or protein levels compared to control samples, suggesting that different neuroprotective mechanisms are induced in DLB versus PD cortex. These studies shed light on brain-region specific changes in gene expression associated with different synucleinopathy disorders, and they set the stage for developing new diagnostic tests and therapeutic strategies.</p></div><br> Diseases Cellular Nervous System Central Nervous System Neurosciences not elsewhere classified Synucleopathies Parkinson's disease Dementia with Lewy bodies (DLB) alpha-synuclein toxicity dopaminergic neurons loss striatal terminals neuroprotection.
39	Structural characterization of alpha-synuclein aggregates seeded by patient material Strohäker, Timo 14 December 2018 (has links) No description available. 570 alpha-Synuclein Neurodegeneration Parkinson's disease Multiple system atrophy Dementia with Lewy bodies NMR spectroscopy Hydrogen-deuterium exchange Fluorescent dyes Structural polymorphism Amyloid fibrils Biologie (PPN619462639)
40	A Doctor's Daughter Maggio, Christopher Joseph 07 July 2016 (has links) No description available. Literature iran iranian-american familial conflict fiction novella father-daughter relationships literary fiction immigrant experience trauma self-harm parkinsons lewy body dementia abandonment

Search results