Environmental Risk Factors for Parkinson's Disease

Gartner, Coral E.

Unknown Date

Parkinson’s disease (PD) is a progressive, degenerative, neurological disease. The progressive disability associated with PD results in substantial burdens for those with the condition, their families and society in terms of increased health resource use, earnings loss of affected individuals and family caregivers, poorer quality of life, caregiver burden, disrupted family relationships, decreased social and leisure activities, and deteriorating emotional well-being. Currently, no cure is available and the efficacy of available treatments, such as medication and surgical interventions, decreases with longer duration of the disease. Whilst the cause of PD is unknown, genetic and environmental factors are believed to contribute to its aetiology. Descriptive and analytical epidemiological studies have been conducted in a number of countries in an effort to elucidate the cause, or causes, of PD. Rural residency, farming, well water consumption, pesticide exposure, metals and solvents have been implicated as potential risk factors for PD in some previous epidemiological studies. However, there is substantial disagreement between the results of existing studies. Therefore, the role of environmental exposures in the aetiology of PD remains unclear. The main component of this thesis consists of a case-control study that assessed the contribution of environmental exposures to the risk of developing PD. An existing, previously unanalysed, dataset from a local case-control study was analysed to inform the design of the new case-control study. The analysis results suggested that regular exposure to pesticides and head injury were important risk factors for PD. However, due to the substantial limitations of this existing study, further confirmation of these results was desirable with a more robustly designed epidemiological study. A new exposure measurement instrument (a structured interviewer-delivered questionnaire) was developed for the new case-control study to obtain data on demographic, lifestyle, environmental and medical factors. Prior to its use in the case-control study, the questionnaire was assessed for test-retest repeatability in a series of 32 PD cases and 29 healthy sex-, age- and residential suburb-matched electoral roll controls. High repeatability was demonstrated for lifestyle exposures, such as smoking and coffee/tea consumption (kappas 0.70-1.00). The majority of environmental exposures, including use of pesticides, solvents and exposure to metal dusts and fumes, also showed high repeatability (kappas >0.78). A consecutive series of 163 PD case participants was recruited from a neurology clinic in Brisbane. One hundred and fifty-one (151) control participants were randomly selected from the Australian Commonwealth Electoral Roll and individually matched to the PD cases on age (± 2 years), sex and current residential suburb. Participants ranged in age from 40-89 years (mean age 67 years). Exposure data were collected in face-to-face interviews. Odds ratios and 95% confidence intervals were calculated using conditional logistic regression for matched sets in SAS version 9.1. Consistent with previous studies, ever having been a regular smoker or coffee drinker was inversely associated with PD with dose-response relationships evident for packyears smoked and number of cups of coffee drunk per day. Passive smoking from ever having lived with a smoker or worked in a smoky workplace was also inversely related to PD. Ever having been a regular tea drinker was associated with decreased odds of PD. Hobby gardening was inversely associated with PD. However, use of fungicides in the home garden or occupationally was associated with increased odds of PD. Exposure to welding fumes, cleaning solvents, or thinners occupationally was associated with increased odds of PD. Ever having resided in a rural or remote area was inversely associated with PD. Ever having resided on a farm was only associated with moderately increased odds of PD. Whilst the current study’s results suggest that environmental exposures on their own are only modest contributors to overall PD risk, the possibility that interaction with genetic factors may additively or synergistically increase risk should be considered. The results of this research support the theory that PD has a multifactorial aetiology and that environmental exposures are some of a number of factors to contribute to PD risk. There was also evidence of interaction between some factors (eg smoking and welding) to moderate PD risk.

320000 Medical and Health Sciences

321202 Epidemiology

environmental exposures

exposure assessment

environmental health

Parkinson's disease

case-control study

neurodegenerative disease

Layered Double Hydroxide (LDH) Nanoparticle-Based Nucleic Acid Delivery System

Yunyi Wong

Unknown Date

There has been much interest in the use of therapeutics based on ribonucleic acid interference(RNAi) to inhibit synthesis of mutant proteins ever since Elbashir et al. (Elbashir, S. M., Harborth, J., Lendeckel, W., Yalcin, A., Weber, K. and Tuschl, T., 2001. Duplexes of 21-nucleotide RNAs mediate RNA interference in cultured mammalian cells. Nature. 411, 494-498.) found that synthetic double stranded small interfering ribonucleic acids (siRNAs) can initiate this evolutionarily conserved process in mammalian cells. Since RNAi is able to target single genes and therefore mitigate the underlying molecular pathology of diseases, RNAi-based therapeutics will most likely benefit monogenic neurodegenerative diseases such as Huntington’s disease. It is however particularly difficult to deliver exogenous materials such as siRNAs into neurons in vivo as the blood-brain barrier (BBB) isolates the brain from the vascular system and prevents permeation of most materials. Neurons also do not take up exogenous materials readily. Therefore, effective delivery of siRNAs into the brain remains one of the biggest challenges impeding their use as a potential neurotherapeutic. Layered double hydroxide (LDH) nanoparticles are a class of anionic clay materials that have demonstrated great potential as a DNA (deoxyribonucleic acid) delivery system for a variety of mammalian cell lines due to their unique physiochemical properties. This thesis examined the feasibility of LDH as a siRNA delivery system for cultured neurons and demonstrated that the delivered siRNAs are able to effectively down-regulate synthesis of a target protein with minimal toxicity. Experiments were conducted using double stranded DNAs (dsDNAs) initially, and siRNAs were then used to verify these results. It was shown that nucleic acids(dsDNAs and siRNAs) could successfully intercalate into pristine LDHs to form nucleic acid-LDH complexes that had properties suitable for use as a delivery system in mammalian cells. These studies established that LDHs and nucleic acid-LDH complexes were biocompatible with neurons isolated from embryonic day 17.5 mouse cerebral cortex, suggesting that LDH can be used for nucleic acid delivery into cultured neurons. LDHs were also shown to successfully deliver nucleic acids into a non-neural mammalian cell line (NIH 3T3 cells). Finally, this thesis demonstrated for the first time that LDHs were able to deliver siRNAs into neurons, providing encouraging preliminary evidence that sequence specific gene silencing of the Mus Musculus Deleted in Colorectal Cancer (DCC) gene had occurred. However, down-regulation of the DCC protein did not occur consistently, suggesting that further optimisation is needed to improve the efficacy of siRNA-LDH complexes to inhibit expression of target protein in neurons. In future, LDHs should be further developed as an efficient siRNA delivery system for therapeutic gene silencing in the central nervous system using a neurodegenerative disease model such as the Huntington’s disease mouse model, which closely phenocopies the human disease. This model will allow the in vivo efficacy of these nanoparticles to be tested and subsequently improved in order to deliver siRNAs locally and systematically into the brain.

Layered Double Hydroxide (LDH)

Nanoparticles

Cellular uptake

Neurons

Neurodegenerative disease

Nonviral delivery system

RNAi

dsDNA-LDH

siRNA-LDH

Vieillissement et maladies neurodégénératives : nouvelles contraintes apportées par la métallomique / Aging and Neurodegenerative Diseases : New Constraints from the Metallomic

Sauzéat, Lucie

18 April 2018

Caractérisé par le déclin progressif et irréversible des fonctions biologiques vitales, le vieillissement est un processus biologique complexe qui s’accompagne souvent par l’apparition de maladies neurodégénératives. D’ici 2050, plus de 1.5 milliards de personnes dans le monde seront définies comme vieillissantes. L'amélioration de la qualité de vie des personnes âgées constitue donc un enjeu majeur pour notre société. Encore mal connue, la dégradation progressive du métallome est associée au vieillissement et à l’apparition de maladies neurodégénératives et en est probablement l’une des causes. L’objectif de cette étude est de mieux caractériser l'évolution du métallome chez deux modèles animaux au cours du temps i.e. la souris et le vers ainsi que chez l’humain atteint de sclérose latérale amyotrophique (SLA). Pour ce faire, nous avons analysé une vingtaine d'éléments traces et majeurs ainsi que les compositions isotopiques du cuivre (δ65Cu) et du zinc (δ66Zn) d’organes de souris, de différentes souches de nématodes, et de liquides céphalo-rachidiens (LCRs) humains. L’analyse des organes de souris montre que d’importants dérèglements chimiques et isotopiques se développent dans l’organisme avec l’âge, chaque organe ayant sa propre signature élémentaire et isotopique. On observe par exemple une hausse de la concentration en Cu dans le cerveau associée à une diminution de δ65Cu dans le foie au cours du vieillissement. Grâce à l’analyse métabolomique et à l’utilisation de mélanges isotopiques, nous montrons que ces variations pourraient s’expliquer par des dysfonctionnements physiologiques et métaboliques majeurs comme des dérèglements de flux hépatique et/ou la dégradation de la barrière hémato-encéphalique avec l’âge. Cela suggère que l’analyse temporelle du métallome pourrait être un marqueur de l’âge biologique. L’analyse de nématodes a révélée qu’un animal génétiquement modifié pour vivre plus longtemps se distinguait des autres nématodes à plus courte durée de vie par une baisse de sa concentration et de sa composition isotopique en Cu dès son plus jeune âge. Le suivi temporel de ces biomarqueurs devrait permettre de détecter un vieillissement précoce. Finalement, l’analyse de LCRs de patients atteints de SLA, une maladie neurodégénérative sévère pour laquelle il n’existe aucun biomarqueur ni traitement, montre qu’une personne atteinte de SLA se distingue de sujets sains et de patients touchés par la maladie d’Alzheimer par des compositions isotopiques en Cu plus positives. Cette spécificité, laissant entrevoir de nouvelles perspectives concernant l’identification de biomarqueurs spécifiques de la SLA, pourrait s'expliquer par la formation d’agrégats protéiques toxiques dans le cerveau. / Characterized by the progressive and irreversible decline of vital biological functions, ageing is a complex biological process that often comes with neurodegenerative disorders. In 2050, more than 1.5 billion elderly are expected in the world. Improve the quality of life of these ageing people is therefore a major challenge for our society. Still poorly known, the progressive degradation of the metallome is asscociated with ageing and neurodegenerative diseases development and is probably one of their causes. The objective of this study is to better characterize the metallome evolution in two animal models over time i.e. the mouse and the worm as well as in human affected by amyotrophic lateral sclerosis (ALS). To do this, we analyzed twenty trace and major elements as well as the isotopic compositions of copper (δ65Cu) and zinc (δ66Zn) of mouse organs, different strains of nematodes, and human cerebrospinal fluid (CSFs).The analysis of mouse organs shows that important chemical and isotopic changes develop in the body over time, each organ having its own elemental and isotopic signature. For example, we observe an increase of the Cu concentration in the brain associated with a decrease of the δ65Cu in the liver over time. Based on the analysis of metabolomic parameters and the use of isotopic mixings, we show that these variations may be explained by major physiological and metabolic dysfunctions, such as the deregulation of hepatic fluxes and/or the degradation of the blood-brain barrier with age. This suggests that the temporal analysis of the metallome could be used as a potential marker of the biological age.The analysis of nematodes revealed that long-lived animals differ from short-lived nematodes by an early-age decrease in their Cu isotopic composition and Cu concentration. The temporal monitoring of these biomarkers could therefore be used to detect premature ageing conditions.Finally, the analysis of CSFs of patients with amyotrophic lateral sclerosis (ALS), a severe neurodegenerative disease for which there is currently no reliable biomarker or treatment, shows that ALS patients have a higher δ65Cu compared to healthy subjects and Alzheimer’s disease patients. This feature, offering new perspectives to identify ALS-specific biomarkers, may be explained by the formation of toxic protein aggregates in the brain.

Isotopes

Vieillissement

Maladies neurodégénératives

Sclérose latérale amyotrophique

Cuivre

Zinc

Isotopes

Aging

Neurodegenerative diseases

Amyotrophic lateral sclerosis

Copper

Zinc

Mitochondriální dysfunkce a neurodegenerativní onemocnění / Mitochondrial dysfunction and neurodegenerative diseases

Novotná, Veronika

January 2018

Charles University in Prague Faculty of Pharmacy in Hradec Králové Department of Biological and Medical Sciences Author: Bc. Veronika Novotná Supervisor: doc. MUDr. Josef Herink, DrSc. Title of diploma thesis: Mitochondrial dysfunction and neurodegenerative diseases The diploma thesis deals with mitochondrial dysfunction and neurodegenerative diseases and it is divided into two main parts. The first part summarized the classification of neurodegenerative diseases and general charakteristic of mitochondria.Then a describe of the processes of oxidative stress, excitotoxicity, apoptosis and briefly decribe the nervous system. The second part deals with description of mitochondrial dysfunction in selected nerodegenerative diseases. The recent studies refer to connection between mitochondrial dysfunctions and formation of neurodegenerative diseases. Keywords: excitotoxicity, mitochondrial dysfunction, neurodegenerative disorders, neuronal cell death, oxidative damage

Análise de produtos derivados da oxidação e glicoxidação mediada por cobre em peptídeos derivados da Albumina Sérica Humana (HSA)

Marques, Caroline Martins Sandanielo

January 2016

Orientador: Prof. Dr. Hueder Paulo Moisés de Oliveira / Dissertação (mestrado) - Universidade Federal do ABC. Programa de Pós-Graduação em Ciência e Tecnologia/Química, 2016. / As propriedades fotofísicas e fotoquímica de quatro ftalocianinas comerciais (parte A) foram investigadas em DMSO, DMSO80%/THF20%, DMSO60%/THF40%, DMSO40%/THF60%, DMSO20%/THF80% e THF (v/v). Quatro ftalocianinas foram sintetizadas (parte B), sendo elas a metil ftalocianina de zinco (MetZnPc), metil ftalocianina de cloro-alumínio (MetAlClPc), terc-butil ftalocianina de zinco (TbutZnPc) e terc-butil ftalocianina de cloro-alumínio (TbutAlClPc). Suas propriedades fotofísicas e fotoquímica também foram estudadas em diferentes solventes, sendo eles THF, DMF, DMSO, CHCl3 e MeOH. Para o estudo dos tempos de vida, foi utilizada a técnica de tempo correlacionado de contagem de único fóton (TCSPC). Nas ftalocianinas comerciais, o método indireto utilizando DPBF foi utilizado para demonstrar a geração de espécies reativas de oxigênio dos compostos. O método direto, que analisa as curvas de decaimento de fosforescência do oxigênio singlete em 1270 nm, também foi empregado, tanto para as ftalocianinas comercias quanto para as ftalocianinas sintetizadas. A influência do metal central nas propriedades fotofísicas, fotoquímica e o efeito do solvente foram discutidos em todos os compostos estudados, tanto da parte A quanto da parte B. Para os compostos sintetizados, o estudo do efeito da agregação foi investigado em THF. Verificou-se o efeito dos ligantes periféricos e axiais, bem como o efeito dos metais complexados em todas as propriedades estudadas. / Photophysical and photochemical properties of four commercial phthalocyanines (part A) were investigated in DMSO, DMSO80%/THF20%, DMSO60%/THF40%, DMSO40%/THF60%, DMSO20%/THF80% and THF. Four phthalocyanines were synthesized (part B), they are methyl zinc phthalocyanine (MetZnPc), methyl aluminum-chloride phthalocyanine (MetAlClPc), tert-butyl zinc phthalocyanine (TbutZnPc) and tert-butyl aluminum-chloride phthalocyanine (TbutAlClPc). Their photophysical and photochemical properties have also been studied in different solvents, THF, DMF, DMSO, CHCl3 and MeOH. Fluorescence lifetimes were recorded using a time correlated single photon counting setup (TCSPC) technique. In commercial phthalocyanines, the chemical method, using DPBF as a quencher, was employed in order to demonstrate the generation of reactive oxygen species. Direct method, which analyzes phosphorescence decay curves of singlet oxygen at 1270 nm, was also employed, both for commercial phthalocyanines and for the synthesized phthalocyanines. The influence of central metal ions on the photophysical and photochemical properties and the influence of media were discussed in all studied compounds, both in part A and part B. For the synthesized compounds, the aggregation effect study was investigated in THF. The effect of peripheral and axial ligands as well as the effect of the complexed metal ion in all the studied properties were investigated.

DOENÇAS NEURODEGENERATIVAS

GLICOXIDAÇÃO

ALBUMINA SÉRICA HUMANA

NEURODEGENERATIVE DISEASES

GLYCOXIDATION

DAMAGE

Atividade antioxidante, anticolinesterásica e perfil metabolômico de diferentes tipos de pimentas: Implicações na doença de Alzheimer / Antioxidant, anticholinesterase activity and metabolomic profile of different types of peppers: implications in Alzheimer\'s disease

Fuvia de Oliveira Biazotto

06 October 2014

A principal forma de tratamento da doença de Alzheimer é através de inibidores sintéticos de acetilcolinesterase. Os inibidores existentes no mercado além, de terem um custo elevado e apresentarem efeitos colaterais não previnem ou curam a doença de Alzheimer, apenas retardam o seu desenvolvimento. A baixa efetividade dos tratamentos existentes e a ausência de prognóstico positivo impulsionaram no mercado uma demanda por novas formas de tratamento e/ou prevenção da doença. Neste cenário, investigar a atividade anticolinesterásica em pimentas do reino e pimenta rosa, bem como seu potencial antioxidante e composição fitoquímica são maneiras de promover tanto o conhecimento sobre estas especiarias como beneficiar o panorama de saúde pública, seja no combate a doença de Alzheimer e/ou outras pandemias existentes. Com o objetivo de avaliar o potencial destas especiarias, extratos metanólicos de pimenta preta, verde, branca e rosa foram avaliados segundo o teor de fenólicos totais, atividade antioxidante pelo método DPPH, ABTS e FRAP e atividade anticolinesterásica. Posteriormente o perfil metabolômico dos grãos e extratos de pimenta foi analisado por cromatografia líquida acoplada à espectrometria de massa. As amostras foram ionizadas por -eletrospray? operando em modo negativo e positivo. O extrato de pimenta rosa apresentou o maior teor de compostos fenólicos totais e a melhor atividade antioxidante e anticolinesterásica em comparação aos demais extratos. Dentre as pimentas do reino, a pimenta verde destacou-se com os maiores teores de compostos fenólicos e atividade antioxidante pelo método DPPH e ABTS. Já a pimenta preta mostrou os melhores resultados para as análises de atividade anticolinesterásica e atividade antioxidante pelo método FRAP. Quanto ao perfil metabolômico as amostras de pimenta foram significativamente distintas entre si. Os espectros obtidos para as amostras de grãos de pimenta foram mais ricos em metabólitos em relação às amostras de extrato em ambos os modos operacionais. O processamento das pimentas do reino induziu modificações quantitativas e qualitativas sobre a composição fitoquímica deste condimento. A pimenta rosa não apresentou nenhum possível metabólito com alto potencial discriminatório, dentre os 15 íons investigados. Em modo operacional negativo, os metabólitos presentes no extrato de pimenta verde, exceto íon de m/z 329,2081, foram responsáveis por todas as contribuições mais significativas entre os perfis metabolômicos gerados. A partir dos resultados obtidos no presente trabalho é possível afirmar que a pimenta rosa apresenta o maior potencial na redução de risco da doença de Alzheimer, dentre as pimentas investigadas. / Synthetic inhibitors of cholinesterase are the main drugs used in the treatment for Alzheimer\'s disease and besides the high cost and side effects, the current drugs available in the market do not prevent or cure Alzheimer, only retard its development. The absence of positive prognosis and limited effectiveness of existing drugs enhance the demand for new forms of the disease\'s treatment and/or prevention. In this scenario, investigating Piper nigrum and Schinus terebinthifolius peppercorns for its acetylcholinesterase and antioxidant activity, as well as its phytochemical composition, are ways to promote both knowledge about these spices and the perspective of health, either in combat of Alzheimer\'s disease and/or other existing pandemics. In order to evaluate the potential of these spices, black, green, white and pink peppers methanolic extracts were evaluated according to the total phenolic content, antioxidant activity by DPPH, ABTS and FRAP assay and anticholinesterase activity. Subsequently the metabolomic profile of the extracts and peppercorns were analyzed by mass spectrometry coupled to liquid chromatography. Samples were ionized by electrospray operating in negative and positive modes. The pink pepper (Schinus terebinthifolius) extract showed the highest content of total phenolic compounds and the best antioxidant and anticholinesterase activity compared to the other extracts. Among Piper nigrum peppercorns, green pepper stood out as the highest levels of phenolic compounds and antioxidant activity by DPPH and ABTS methods. Black pepper obtained the best results for the analysis of acetylcholinesterase activity and antioxidant activity by FRAP method. Regarding the metabolomic profiles, pepper samples are significantly different from each other. The spectrum obtained for peppercorn\'s samples were richer in metabolites compared to extract\'s samples in both operating modes. The processing induced quantitative and qualitative changes on the phytochemical composition of the peppercorns. The pink pepper did not show any possible metabolite with high discriminatory potential, of the 15 ions investigated. In the negative operating mode, the metabolites present in the extracts of green pepper, excluding m/z 329.2081 ion, were responsible for all of the most significant contributions between metabolomic profiles generated. From the results obtained in this study it is possible to affirm that pink pepper has the greatest potential to reduce Alzheimer\'s disease risk, among peppers investigated.

Piper nigrum

Schinus terebinthifolius

Alimentos funcionais

Doenças neurodegenerativas

Envelhecimento

Piperina

Piper nigrum

Schinus terebinthifolius

Aging

Functional foods

Neurodegenerative Diseases

Piperine

Maladies à prions : vers le développement d'une thérapie génique et cellulaire / Prions diseases : towards the development of gene and cell therapy.

Le Souder, Cosette

27 November 2017

Les encéphalopathies spongiformes transmissibles sont des maladies neurodégénératives caractérisées par une vacuolisation intense et une perte neuronale associées à l’accumulation d’une protéine prion pathologique : la PrPSc. A cause de la longue période d’incubation silencieuse de ces maladies, les individus souffrant d’une maladie à prions peuvent exposer des patients qui recevraient leur sang ou un de leurs organes à un risque de contamination iatrogène. De plus, lorsque le diagnostic survient, les dommages cérébraux sont souvent massifs, et l’issue toujours fatale. A ce jour, aucun traitement n’est disponible, et l’ensemble des stratégies testées a échoué.L’alternative développée par le laboratoire est celle de la thérapie cellulaire couplée à la thérapie génique, en utilisant des cellules souches embryonnaires (ES) délivrant des molécules anti-prions. Concernant le choix des molécules anti-prions, nous avons choisi les mutants PrP-DN. Notre hypothèse repose sur des études montrant qu’une lysine au codon 219 de la PrP chez l’Homme ou une arginine au codon 171 de la PrP ovine, protègent du développement d’une ESST. L’étude de ces mutants, en cellules infectées ou dans des souris transgéniques, a permis de montrer que les PrP mutées n’étaient pas converties en PrPSc et qu’elles exerçaient un effet protecteur dit « dominant négatif » sur la conversion de la PrPC sauvage en PrPSc.Un des projets du laboratoire avait donc pour objectif d’utiliser les cellules souches exprimant les mutants PrP-DN pour développer une stratégie de thérapie génique et cellulaire des maladies à prions : l’hypothèse étant que les cellules greffées pourraient non seulement réparer le tissu lésé mais que ce dernier serait également protégé de l’infection par les prions.Une première approche de thérapie génique et cellulaire avait été initiée au laboratoire et montrait des résultats plutôt encourageants. En effet, la greffe de cellules souches neurales murines exprimant des PrP-DN et produites à partir de cellules souches embryonnaires murines, conduisait, pour une partie des souris, à un allongement du temps d’incubation de la maladie, ainsi qu’à une diminution de l’astrogliose et de la vacuolisation.Dans ce contexte, le premier objectif de ma thèse a été de valider l’approche thérapeutique en montrant que les cellules greffées délivraient des mutants PrP-DN capables d’inhiber la réplication du prion. Nous avons opté pour un modèle de culture organotypique infectée par des prions murins. En plus de répondre aux exigences éthiques de la directive 2010/63/UE, ce modèle offre l’avantage de pouvoir réaliser plus d’essais, des cinétiques d’accumulation de PrPSc et de visualiser le devenir des cellules greffées. Enfin, opter pour cette stratégie permettait de transposer dans un modèle humanisé des travaux précédemment réalisés et ayant montré des résultats encourageants. Pour cela, il a été nécessaire de mettre en place un modèle prion ex vivo de culture organotypique de tranches de cerveau, dans lequel il était possible de réaliser des greffes et permettant d’évaluer l’effet inhibiteur des mutant-PrP-DN sur la réplication du prion. Par ailleurs, notre groupe fait partie, avec d’autres groupes travaillant avec des cellules souches mésenchymateuses, de l’équipe « Biologie des cellules souches et médecine régénératrice », il nous est apparu pertinent d’évaluer l’effet des MSC sur la pathologie prions dans des modèles prions en culture organotypique et en particulier d’évaluer l’impact de greffes de MSC concomitantes aux greffes de NSC-PrP-DN. En effet, ces cellules sont décrites comme pouvant induire un microenvironnement neuroprotecteur en limitant la prolifération des cellules de la microglie et des astrocytes, et peuvent favoriser la différenciation des NSC. Enfin notre dernier objectif visait à transposer les outils murins vers des outils « humains » en produisant des NSC humaines issues d’ES et exprimant une PrP humaine portant les mutations DN. / Transmissible spongiform encephalopathies are neurodegenerative diseases characterized by a strong vacuolization, a neuronal lost and deposits of prion pathologic protein: PrPSc. This PrPSc accumulation is the result of the conformational conversion of the host encoded endogenous PrPC protein. Although the incidence of these diseases in humans remains low (about one to two cases per million inhabitants per year), these diseases remain a public health problem. Indeed, because of their long and silent incubation period, patients with prion disease may expose people through blood transfusion or organ transplantation with a risk of iatrogenic contamination. In addition, when the diagnosis occurs, brain damage is often massive, and the outcome is always fatal and rapidly occurs. Until now, there is no treatment that could be proposed to patients.The alternative developed by our laboratory for several years, is a strategy of cell therapy coupled with gene therapy. The general objective is to use pluripotent embryonic stem cells (ESC) and graft them as a “medicine” not only to orchestrate a functional recovery of the damaged zones and protect the grafted cells from prion propagation but also to deliver anti-prion molecules.For the anti-prion molecules, we have chosen dominant negative PrP mutants (PrP-DN). Our choice is based on studies showing that a lysine at codon 219 of the human PrP or an arginine at codon 171 of the ovine PrP protect against the development of a TSE. Study of these mutants in infected cells or in transgenic mice showed that the mutated PrPC were not converted into PrPSc. Moreover, they exibit a so-called "dominant negative" protective effect on the conformational conversion of their wild-type PrPC counterparts. A first approach of gene and cell therapy was initiated in the laboratory and has shown encouraging results. Indeed, the graft of murine neural stem cells (NSC) derived from murine embryonic stem cells and expressing anti-prion molecules, has allowed, for some of the mice, to an increase the incubation time of the diseaseas well as to a decrease of astrogliosis and vacuolization.In this context, the first objective of my thesis was to validate the therapeutic approach by showing that the grafted cells were able to inhibit prion replication trough the dominant negative effect of the PrP-DN. To address this point, we have chosen to use an organotypic culture model infected with murine prions (22L strain). In addition to fill the ethical requirements under the European Directive 2010/63 and the 3Rs, organotypic culture models offer the advantage to perform and repeat experiments, kinetic tests, and PrPres analysis. This model also allows to visualize the fate of the grafted cells. Finally, by choosing this strategy, it will be possible to transpose into a humanized model the work previously performed on mouse organotypic cultures.To achieve this task, it was necessary to establish an ex vivo prion model of organotypic culture brain slices, in which it was possible to perform grafts and to evaluate the inhibitory effect of PrP-DN mutants on the prion replication.In addition, as our group is included in the team "Stem cell biology and regenerative medicine" (led by Pr Jorgensen) in which several stem cells are studied (liver stem cells and mesenchymal stem cells (MSC)) and because MSC have been shown to provide protective effects when grafted in the brain of mice with neurological diseases, it was therefore relevant to evaluate the effect of MSC on prion pathology in our prion models and in particular to evaluate the impact of concomitant MSC grafts on NSC-PrP-DN.In a last step, our goal was to transpose the mouse tools (NSC from ES and expressing the PrP-DN mutants) to "human" tools by producing human NSCs derived from human ESC and expressing human PrP-DN, and to characterized the resulted cells.

Cellules souches neurales

Maladies neurodégénératives

Prion

Thérapie cellulaire

Thérapie génique

Brain stem cells

Neurodegenerative disorders

Prion

Cell therapy

Gene therapy

Conception, synthèse et évaluation d'antagonistes des récepteurs A2A / Design, synthesis and evaluation of A2A receptor antagonists

Duroux, Romain

22 September 2017

La maladie d’Alzheimer (MA) est la maladie neurodégénérative touchant le plus de personnes dans le monde. Jusqu’à présent, aucun traitement curatif n’existe pour soigner cette maladie, d’où la nécessité d’identifier et d’étudier de nouvelles cibles thérapeutiques.La découverte des effets bénéfiques de la caféine, antagoniste du récepteur à adénosine A2A (A2AR), conjuguée à une surexpression de ce dernier chez les patients atteints de la MA, font de ce récepteur une cible d’intérêt. En effet, des antagonistes des A2ARs ont montré leur capacité à améliorer les performances cognitives de par une diminution de la charge amyloïde associée à une diminution la phosphorylation de la protéine Tau.Bien que plusieurs antagonistes aient été développés pour le traitement de maladies neurodégénératives, ceux-ci présentent un manque d’efficacité corrélée à de faibles propriétés pharmacocinétiques. Ainsi, à partir d’études de modélisation moléculaire, deux nouvelles familles d’antagonistes présentant un noyau central benzoxazole ou quinazoline ont été conçus, synthétisés et évalués pharmacologiquement. Trois composés ont été sélectionnés et font actuellement l’objet d’études pharmacologiques complémentaires sur modèles animaux. / Alzheimer’s disease (AD) is the most prevalent form of dementia in the aged population. So far, there is no way to halt or slow-down AD. Therefore, there is a constant need of developing novel therapeutic strategies.In recent years, adenosine A2A receptor (A2AR) has attracted a growing interest since it has been proved that this receptor is over-expressed during AD. Also, epidemiological studies showed that people consuming regularly caffeine-based beverages over a lifetime are substantially less likely to develop this disease. Indeed, A2AR antagonists improve memory performance as it reduces β-amyloid deposits and Tau-phosphorylation.Though several antagonists have been developed for the treatment of neurodegenerative diseases, current research efforts are focus on developing new antagonists with relevant ADME properties and a better efficacy. Based on a molecular modeling-guided design, we synthesised new A2AR antagonists with benzoxazole and quinazoline as central scaffold. Three molecules were selected and will be subject to evaluation on animal’s model.

ADME

Maladie d’Alzheimer

Modèles moléculaires

Benzoxazole

Quinazoline

A2ARs

Maladies neurodégénératives

Benzoxazole

Alzheimer’s disease

Quinazoline

Adenosine A2A receptor

Neurodegenerative diseases

New insights into Brain-derived Neurotrophic Factor Dual Signaling : imbalance implications in mechanisms of neuroprotection and neurotoxicity / Nouveaux aspects dans la double signalisation du "Brain-derived Neurotrophic Factor" : implications d'un déséquilibre dans les mécanismes de neuroprotection et neurotoxicité

Yehya, Alaa

28 September 2015

Le « Brain-Derived Neurotrophic Factor » (BDNF) est la neurotrophine la plus abondante et la plus répandue dans le cerveau humain. De nombreuses études se sont intéressées à son rôle dans la survie neuronale, la croissance et la plasticité synaptique. La signalisation BDNF est dépendante de deux récepteurs, le récepteur tyrosine kinase (TrkB) et le récepteur neurotrophine p75 (p75NTR). Il est bien établi que le rôle trophique du BDNF est assuré via son récepteur de haute-affinité TrkB, alors que la forme précurseur proBDNF active p75NTR vers la voie d'apoptose. Cette double signalisation est physiologiquement contrôlée par un équilibre entre les différentes voies. Les résultats obtenus à partir des études cliniques et des modèles animaux suggèrent un rôle de la signalisation BDNF dans les tauopathies, caractérisées par l'existence de dépôts intracérébraux de protéine tau, une caractéristique commune à certaines maladies neurodégénératives, notamment la maladie d'Alzheimer (MA). Cependant, aucune investigation n'a été menée jusqu'à présent sur les modifications que pouvaient induire les tauopathies dans la signalisation BDNF et si une dérégulation de l'expression du BDNF pouvait affecter ses propres récepteurs TrkB et p75NTR.Dans ce travail de thèse, nous avons utilisé une lignée de poisson-zèbre transgénique portant la mutation humaine TAUP301L retrouvée notamment dans le démence fronto-temporale. Nous avons mesuré l'expression de BDNF et de ses deux récepteurs au niveau transcriptionnel et protéique. Nous n'avons observé aucune modification des taux d'expression de BDNF et de TrkB, en revanche, nous avons noté une augmentation significative de p75NTR. A l'aide de la même lignée transgénique, nous avons induit une baisse d'expression de BDNF via la micro-injection de morpholinos. De manière remarquable, la baisse d'expression de BDNF affecte de façon différentielle TrkB et p75NTR. En effet, nous avons observé une diminution de l'expression de TrkB et parallèlement une augmentation de p75NTR. De plus, la baisse d'expression de BDNF aggrave la neurotoxicité associée au développement de la tauopathie ce qui se traduit par une augmentation de la mort neuronale et de l'hyperphosphorylation de tau, cette dernière étant concommittante à une activation de la Glycogen Synthétase Kinase 3 beta (GSK3beta).Une diminution de l'effet neuroprotecteur de BDNF à travers un déséquilibre de ces récepteurs de signalisation a été également montré en étudiant le rôle de BDNF au cours du développement de la ligne latérale postérieure (PLL). Ce système est considéré comme un modèle d'étude particulièrement pertinent pour évaluer différents processus biologiques comme la migration cellulaire collective ou la régénération cellulaire. Nous avons détecté l'expression de BDNF dans plusieurs structures de la PLL. La diminution d'expression de BDNF conduit à un défaut de migration du primordium de la PLL, associé à une augmentation de la mort cellulaire. De plus, nous avons observé une réduction de la prolifération cellulaire et un défaut de repousse axonale du nerf, ce qui conduit à des anomalies de régénération à la fois du nerf de la PLL et des cellules ciliées. Nos résultats suggèrent que le BDNF joue un rôle essentiel au cours du développement de la PLL et démontrent la pertinence du système de la ligne latérale en tant que modèle d'étude des fonctions de BDNF.En conclusion, notre étude représente la première analyse du rôle in vivo de BDNF et de ses 2 récepteurs de signalisation. Nous avons ainsi montré les répercussions d'une dérégulation des voies de signalisation du BDNF. Un équilibre entre ces deux voies est essentiel pour le développement et la survie cellulaire, ce qui fait de BDNF non seulement une cible thérapeutique potentielle, mais également une neurotrophine clé pouvant activer plusieurs circuits de signalisation, potentialisant ainsi son rôle protecteur. / Brain-derived neurotrophic factor (BDNF) is the most abundant secreted and widely distributed neurotrophin in human brain. It has been extensively studied for its role in neuronal survival, growth and synaptic plasticity. BDNF signaling mediated through tryosine receptor kinase B (TrkB) and p75NTR neurotrophin receptor (p75NTR). It is well established that BDNF beneficial actions are mediated by it is high-affinity TrkB, whereas pro-BDNF activates p75NTR towards apoptosis. This diverse dual signaling is normally under a tight balance regulation. Based on clinical and animal studies, it has been suggested that BDNF signaling is involved in tauopathy, which is a pathological hallmark in several neurodegenerative diseases, including Alzheimer's disease (AD). However, what changes tauopathy may induce on BDNF signaling, and whether BDNF deregulation could affect its two signaling receptors (TrkB, p75NTR), and eventually tauopathy pathogenesis, have not been investigated. In this study we used a transgenic zebrafish line for human Tau-P301L tauopathy, and measured transcriptional and protein levels of BDNF and of its two signaling receptors. We found no modification of BDNF and TrkB expression levels, but a significant up-regulation of p75NTR. We then used the same transgenic line to generate BDNF knockdown using morpholino microinjection technique. Interestingly, BDNF knockdown differentially affects TrkB and p75NTR; we observed a reduction of TrkB expression and an increase in p75NTR expression. In addition, BDNF knockdown aggravates tauopathy-associated toxicity; we found an increase in neuronal cell death and tau hyperphosphorylation, the latter was accompanied by an activation of tau glycogen synthase kinase 3beta (GSK3beta). Attenuation of BDNF neuroprotective effects through imbalance of its signaling receptors was further highlighted through studying BDNF role in the development of zebrafish posterior lateral line system (PLL). This system has recently emerged as a powerful tool to study several dynamic biological processes, including collective cell migration and nerve/hair cells regeneration. We detected BDNF expression in different PLL components. BDNF knockdown led to an impairment of the PLL primordium migration due to concomitant increase in cell death rate. In addition, reduced cell proliferation and defect in axonal re-growth were observed , which led to major defects of PLL nerve/hair cells regeneration, respectively. These findings suggest that BDNF has an essential role in PLL development, but more important they introduce PLL as research model to study BDNF functions. This is the first study to provide a detailed in vivo analysis of BDNF and its two signaling receptors. Our findings highlight several implications of BDNF signaling deregulation. Balanced signaling clearly has essential roles in survival and development, in addition to being a therapeutic target, BDNF can itself activate diverse molecular pathways, thus setting up a potential circuitry that could enhance its protective role.

Système nerveux

Microinjection morpholino

Processus neurodégénératif

Bdnf

Phosphorylation de tau

App

Nervous system

Morpholino microinjection

Neurodegenerative process

Bdnf

Tau phosphorylation

App

The bidirectional gut-brain-microbiota axis as a potential nexus between traumatic brain injury, inflammation, and disease

Sundman, Mark H., Chen, Nan-kuei, Subbian, Vignesh, Chou, Ying-hui

11 1900

As head injuries and their sequelae have become an increasingly salient matter of public health, experts in the field have made great progress elucidating the biological processes occurring within the brain at the moment of injury and throughout the recovery thereafter. Given the extraordinary rate at which our collective knowledge of neurotrauma has grown, new insights may be revealed by examining the existing literature across disciplines with a new perspective. This article will aim to expand the scope of this rapidly evolving field of research beyond the confines of the central nervous system (CNS). Specifically, we will examine the extent to which the bidirectional influence of the gut-brain axis modulates the complex biological processes occurring at the time of traumatic brain injury (TBI) and over the days, months, and years that follow. In addition to local enteric signals originating in the gut, it is well accepted that gastrointestinal (GI) physiology is highly regulated by innervation from the CNS. Conversely, emerging data suggests that the function and health of the CNS is modulated by the interaction between 1) neurotransmitters, immune signaling, hormones, and neuropeptides produced in the gut, 2) the composition of the gut microbiota, and 3) integrity of the intestinal wall serving as a barrier to the external environment. Specific to TBI, existing pre-clinical data indicates that head injuries can cause structural and functional damage to the GI tract, but research directly investigating the neuronal consequences of this intestinal damage is lacking. Despite this void, the proposed mechanisms emanating from a damaged gut are closely implicated in the inflammatory processes known to promote neuropathology in the brain following TBI, which suggests the gut-brain axis may be a therapeutic target to reduce the risk of Chronic Traumatic Encephalopathy and other neurodegenerative diseases following TBI. To better appreciate how various peripheral influences are implicated in the health of the CNS following TBI, this paper will also review the secondary biological injury mechanisms and the dynamic pathophysiological response to neurotrauma. Together, this review article will attempt to connect the dots to reveal novel insights into the bidirectional influence of the gut-brain axis and propose a conceptual model relevant to the recovery from TBI and subsequent risk for future neurological conditions.

Gut-brain axis

Traumatic Brain Injury

Concussion

Gut

Microbiota

Chronic Traumatic Encephalopathy

Neurodegenerative disease

Neuroinflammation

Microglia

Intestinal dysfunction