Global ETD Search

11	Caractérisation des cellules corticales et des neurones sensoriels primaires dérivés des cellules souches pluripotentes induites (iPSC) de patients atteints de l'ataxie de Friedreich, et validation de thérapies potentielles. Hu, Amelie 28 May 2018 (has links) L’Ataxie de Friedreich (AF) est une pathologie à hérédité autosomique récessive caractérisée par des troubles neurologiques progressifs (atteinte des neurones cérébelleux et des neurones sensoriels primaires (PSN, Primary Sensory Neurons), une hypertrophie cardiaque et un risque élevé de diabète. La cause la plus fréquente de cette maladie est la présence d’une hyperexpansion homozygote de triplets nucléotidiques GAA au sein du premier intron du gène de la frataxine (FXN), qui code pour une petite protéine mitochondriale, la frataxine. Cette expansion GAA induit la formation de structures secondaires de l’ADN ainsi que la formation d’hétérochromatine, provoquant une diminution de la transcription du gène FXN. Plusieurs modèles cellulaires et animaux AF ont été développés sans toutefois reproduire l’ensemble des caractéristiques génétiques, épigénétiques et biochimiques de la maladie retrouvé chez le patient AF, à savoir la présence d’une hyperexpansion GAA, au sein du premier intron du gène FXN, accompagnée de la répression du gène FXN conduisant à la diminution de l’expression de la protéine frataxine. Dans la première partie du projet, nous avons généré deux modèles cellulaires, les cellules corticales et les neurones sensoriels primaires dérivés des cellules souches pluripotentes induites (iPSC), générées à partir de biopsies de peau de patients AF. Ces deux modèles cellulaires AF présentent les caractéristiques génétiques, épigénétiques et biochimiques décrites chez les patients AF. D’un point de vue biochimique, nous avons montré que le déficit en frataxine induit une perturbation de l’homéostasie du fer avec un déficit de la biosynthèse des centres [Fe-S] et de l’expression des protéines [Fe-S], qui jouent un rôle au sein de la chaine respiratoire mitochondriale et du cycle de Krebs. De plus, le déficit en frataxine entraine la perturbation des voies antioxydantes sensibilisant les cellules AF au stress oxydatif. Nous avons aussi montré que les cellules corticales AF présentent une sensibilité à l’apoptose pouvant être prévenu par un traitement par la forskoline. Enfin, nous avons étudié l’implication éventuelle de mTOR dans la pathogénèse de l’AF au sein des cellules corticales. Les résultats obtenus n’ont pas permis d’attribuer les désordres de l’homéostasie du fer et du métabolisme lipidique observés au sein des cellules corticales AF, au seul déséquilibre de mTORC1, mais sans doute à la déficience en frataxine elle-même. Ces données font de ces deux modèles cellulaires, dérivés des iPSC, des modèles fiables et robustes dans l’étude de l’AF. Dans la seconde partie du projet, nous avons étudié le potentiel effet thérapeutique d’analogues des incrétines ([D-Ala2]-GIP et exendin-4) et de deux générations d’inhibiteurs des HDAC (iHDAC 109 et iHDAC 69, 71 et 89) sur le niveau d’expression de la frataxine, l’homéostasie du fer, le métabolisme protéique et lipidique ainsi que le stress oxydatif, au sein des cellules corticales AF, des PSN AF et de deux modèles murins de l’AF (les souris Knock-In homozygotes (KIKI) et les souris BAC transgéniques). La nouvelle génération d’iHDAC (69, 71 et 89), se distingue du composé 109 par leur capacité supérieure à traverser la barrière hématoencéphalique et leur courte durée de vie prévenant ainsi l’accumulation du composé cardio-toxique au sein de l’organisme. Nous avons observé que l’ensemble des traitements testé dans ce projet, a eu pour effet d’augmenter l’expression de la frataxine et de restaurer l’homéostasie du fer au sein des cellules corticales AF. De la même façon, l’expression de la frataxine a été augmentée suite à l’administration du composé 109 au sein des PSN AF. De plus, nous avons mis en évidence un effet thérapeutique du composé 89 sur le stress oxydatif et le métabolisme lipidique et protéique, au sein des cellules corticales AF. Néanmoins, étant donné l’absence d’un phénotype biochimique de l’AF clair, au sein des deux modèles murins de l’AF utilisés dans cette étude, nous n’avons pas pu étendre l’efficacité des nouveaux iHDAC (69, 71 et 89) au sein de ces deux modèles murins de l’AF. Néanmoins, les résultats obtenus au sein des cellules corticales AF, sur l’induction de l’expression de la frataxine par des analogues des incrétines et par la nouvelle génération des iHDAC, font de ces molécules de nouvelles approches prometteuses dans l’intervention thérapeutique chez les patients AF. / Doctorat en Sciences biomédicales et pharmaceutiques (Médecine) / info:eu-repo/semantics/nonPublished Neuropathologie Cellules souches pluripotentes induites Neuropathologie Ataxie de Friedreich Inhibiteurs des HDAC Incrétines
12	Desenvolvimento embrionário em búfalos (Bubalus bubalis Linnaeus, 1758) / The development of buffalo (Bubalus bubalis Linnaeus, 1758). embryos Adriana Caroprezo Morini 28 September 2009 (has links) No intuito de descrever a evolução do desenvolvimento do concepto bubalino entre 10 e 60 dias de gestação, esse estudo utilizou a metodologia de mensuração por Crow rump para revelar a idade estimada de 96 embriões e fetos coletados no Matadouro municipal de Macapá, no estado do Amapá entre os anos de 2006 a 2008. Os parâmetros utilizados consistiram em medidas de comprimento (crânio caudal) e peso utilizando-se balança eletrônica de precisão. Para visualização macroscópica foram feitas fotografias, e a microscopia eletrônica de varredura auxiliou na identificação de inúmeras estruturas externas dos embriões. Foram realizados cortes histológicos de 5µm os quais foram corados em HE e picrosirius, e submetidos a técnicas de imunohistoquimica para detecção de Oct4, PCNA e vimentina. Nossos resultados revelam que embriões de mamíferos até a 5° semana de gestação são muito semelhantes aos de outras espécies de mamíferos já estudados. Similaridades entre bovinos e bubalinos persistem com exceção dos estágios fetais onde aparentemente búfalos se desenvolvem mais rapidamente que bovinos. Em conclusão, o estudo indica características importantes que podem ser utilizadas para verificar a viabilidade de embriões de búfalos e auxiliar avaliações em exames complementares como os de ultrassonografia, e também indicam a presença de importantes sítios de células pluripotentes em regiões diferentes do embrião dependendo do estágio de desenvolvimento em que o mesmo se encontra. / The aim of this study was to describe the developmental changes in the bubaline conceptus from 10-60 days of gestation using the Crown rump methodology to diagnostic the estimated age of those 96 embryos and fetuses obtained at Matadouro Municipal de Macapá, on Amapá state, from 2006 until 2008. Parameters used were cranio-caudal length (CR) and weight. For macroscopic view photographies were done, Scanning electron microscopy helps to identify inumerous external structures of the embryos. Histotogic section of 5µm were done and stained using Hematoxilin-Eosin, picrosirius, and also subjected to immunohistochemistry for Oct4, PCNA and vimentin were evaluated. Transmission electron microscopy was used in fetal membranes to describe it better. The obtained results revealed that mammal embryos until 5th weeks of gestation has to much similar characteristics to others studied species. Similarities between bovine and bubaline persist; except on fetal stages that buffalos seems develop faster than bovine ones. In conclusion, the overall data indicated the important characteristics that can be evaluated to verify the viability of buffalo embryos and help the evaluations of ultrasonographic exams, also identify the presence of important regions with pluripotente cells that changes according to the stage of the embryo development. Bubalinos Células pluripotentes Desenvolvimento embrionário Embrião Morfologia Bubaline Embryo Embryo development Morphology Pluripotent cells
13	Avaliação do Papel da Via Canônica e Não Canônica de NFB na Manutenção da Pluripotência e na Diferenciação, por Meio da Técnica de Imunoprecipitação de Cromatina / Evaluation of Canonical and Non-Canonical NFB Pathways in the Maintenance of Pluripotency and Differentiation by Chromatin Immunoprecipitation Technique Hudson Lenormando de Oliveira Bezerra 30 September 2014 (has links) As células pluripotentes (CPs), em teoria, são capazes de dar origem a todos os mais de 200 tipos de células do organismo. Na natureza, há três tipos de células pluripotentes: células-tronco embrionárias, células germinais embrionárias e células de carcinoma embrionário. As características das CPs têm permitido um importante avanço para a pesquisa básica e apontam uma grande aplicabilidade na medicina regenerativa. No núcleo das CPs existem fatores atuantes responsáveis pela manutenção da identidade pluripotente; dentre eles destacam-se OCT4, NANOG, SOX2, KLF4 e MYC. Muito já se sabe sobre os mecanismos que estes fatores atuam para promover a manutenção da pluripotência celular. Baseados nestes estudos foi possível gerar células de pluripotência induzida (iPSCs). Porém, os mecanismos moleculares que direcionam a indução da pluripotência ainda não estão muito bem esclarecidos. Alguns estudos revelaram que componentes chaves da via NFB estão envolvidos na regulação da pluripotência, bem como na diferenciação e destino celular das células-tronco. Neste estudo, analisamos a participação de componentes da via canônica (RelA e NFB1) e não-canônica (RelB e NFB2) de NFB nos processos de diferenciação e destino celular ou manutenção da pluripotência. Para isto usamos técnicas de PCR quantitativa em Tempo Real (qPCR) e Imunoprecipitação de Cromatina (ChIP) investigando os papéis das vias canônica e não-canônica de NFB na manutenção da pluripotência e diferenciação de CPs, em um modelo de indução de diferenciação celular mediado por ácido trans-retinóico (atRA) em células de carcinoma embrionário NTera-2. Foram avaliadas as ligações dos fatores de transcrição RelA e RelB nas regiões promotoras dos genes OCT4, SOX2, MYC, KLF4 e GFAP e a regulação transcricional associada. Nossos resultados identificaram que as células não tratadas com atRA apresentaram níveis baixos na expressão dos componentes da via canônica de NFB, RelA e NFB1, e GFAP e quando induzidas à diferenciação por atRA durante 4 dias esses níveis se elevaram. Uma situação oposta foi vista nos componentes da via não-canônica de NFB, RelB e NFB2, e na expressão dos fatores de pluripotência OCT4, NANOG, SOX2 e KLF4, que apresentaram níveis de expressão elevados nas células não tratadas com atRA e sofreram redução com a indução da diferenciação celular. O ensaio de ChIP revelou que RelA liga-se nas regiões de regulação dos genes OCT4, SOX2, KLF4, MYC e GFAP apenas quando a célula está em processo de diferenciação, enquanto RelB se apresentou ligado às mesmas regiões tanto nas células indiferenciadas quanto naquelas induzidas à diferenciação por 4 dias. Com estes dados sugerimos que a via canônica de NFB pode estar relacionada com o processo de diferenciação e destino celular através da regulação negativa executada por RelA e NFB1 nos genes responsáveis pela identidade pluripotente das células aqui estudadas enquanto a via não-canônica de NFB, representada pela ativação de RelB e NFKB2, pode participar na manutenção da pluripotência através da regulação positiva destes mesmos fatores. / Human pluripotent stem cells (hPSCs) are able to give rise to all the 200 cell types of the adult organism. In nature, there are three types of hPSCs: embryonic stem cells, germ line stem cells and embryonal carcinoma cells. hPSCs characteristics have allowed a major advance in basic research, and are thought to have great applicability in regenerative medicine. In the nucleus of hPSCs there are transcription factors responsible for the maintenance of their pluripotent identity. OCT4, NANOG, SOX2, KLF4 and MYC are considered the core pluripotency factors in hPSCs. A great deal of knowledge about the mechanisms that promote and maintain pluripotency has been generated. Based on these studies it was possible to generate induced pluripotent stem cells (iPSCs). However, the molecular mechanisms that drive the induction of pluripotency are not fully understood. Some studies have recently indicated that key components of the NFkB may be involved in regulating pluripotency as well as cell differentiation and cell fate. In this study we analyzed the involvement of components of the canonical (RelA and NFB1) and the non-canonical NFB pathways (RelB and NFB2) in the maintenance of pluripotency, differentiation and cell fate processes. The techniques of quantitative real-time PCR (qPCR) and chromatin immunoprecipitation (ChIP) were used to interrogate the roles of the canonical and non-canonical NFB pathways in maintenance of pluripotency and differentiation in a model of cell differentiation induced by all trans-retinoic acid (atRA) on embryonal carcinoma cells NTera-2. The transcription factors RelA and RelB occupancy in the promoter regions of OCT4, SOX2, KLF4, MYC and GFAP, and the transcriptional regulation associated were evaluated. Our results showed that undifferentiated cells exhibited low expression levels of canonical NFB pathway components, RelA and NFB1, while cells induced to differentiate for 4 days exhibited downregulated expression of these factors. In the other hand, the non-canonical NFB pathway components, RelB and NFB2, and the pluripotency factors OCT4, NANOG, SOX2 and KLF4 were expressed in higher levels in undifferentiated cells, and were downregulated upon the differentiation process. ChIP assay revealed that RelA binds to the regulatory regions of OCT4, SOX2, KLF4, MYC, and GFAP only when cells are induced to differentiate, while RelB was found bound to the same regions in both undifferentiated and differentiated cells. This data suggests that the canonical NFB pathway may be associated to differentiation and cell fate processes by downregulation of genes responsible for the pluripotent identity, and that the non-canonical NFB pathway may act in the maintenance of pluripotency through the upregulation of the same factors. Carcinoma embrionário Células pluripotentes Diferenciação NFB Pluripotência Differentiation Embryonal carcinoma NFB Pluripotency Pluripotent stem cells
14	Geração de células-tronco pluripotentes induzidas (hiPSCs) a partir de células somáticas de indivíduos com fenótipo de interesse para transfusões sanguíneas / Generation of induced pluripotent stem cells (hiPSCs) from somatic cells of individuals with interesting phenotypes for blood transfusion Lucas Ferioli Catelli 28 November 2016 (has links) A demanda por transfusões sanguíneas tem aumentado no Brasil e o número de doações de sangue permanecem insuficientes. Há escassez de componentes de sangue para transfusão, principalmente de concentrados de células vermelhas do sangue. As células-tronco pluripotentes induzidas humanas (hiPSCs) possuem um grande potencial para se tornar uma fonte de CÉLULAS VERMELHAS DO SANGUE, pois podem se diferenciar em qualquer tipo celular, incluindo CÉLULAS VERMELHAS DO SANGUE de fenótipo específico. O objetivo deste trabalho é a geração de hiPSCs para partir de células mononucleares de sangue periférico (PBMCs) de candidatos a doação de sangue que possuem fenótipo eritrocitário de baixa imunogenicidade, bem como a diferenciação eritroide das hiPSCs geradas. As amostras de sangue periférico (PB) de 11 indivíduos foram coletadas e caracterizadas quanto ao genótipo para os seguintes antígenos eritrocitários: Sistema Rh (RHCE01/RHCE02/RHCE03/RHCE04/RHCE05), Kell (KEL01/KEL02), Duffy (FY01/FY02 and FY02N.01), Kidd (JK01/JK02) e MNS (GYPB03/GYPB04). Outros antígenos de grupos sanguíneos distintos foram determinados por meio de fenotipagem. Duas amostras (PBMCs PB02 e PB12) foram selecionadas para a reprogramação devido ausência de múltiplos antígenos eritrocitários e, portanto, considerados de baixa imunogenicidade. Os PBMCs foram enriquecidos em eritroblastos e em seguida, as células foram transfectadas com os vetores episomais pEB-C5 e pEB-Tg e então, co-cultivados sobre fibroblastos de embriões murinos (MEFs) até o surgimento de colônias semelhantes a hiPSCs (hiPSC PB02 e hiPSC PB12). Estas colônias foram transferidas para condições de cultivo próprias e posteriormente caracterizadas quanto à sua pluripotência. A expressão dos genes de pluripotência OCT4, SOX2 e NANOG demonstrou níveis de expressão maior em comparação às linhagens não pluripotentes. As análises de imunofenotipagem por citometria de fluxo revelaram que em torno de 86% das células expressaram Nanog, 88% Oct4 e 88% Sox2. Os níveis de expressão de genes de pluripotência e marcadores foram consistentes com o estado indiferenciado encontrado em células pluripotentes conhecidas. A análise funcional para avaliação da pluripotência foi realizado pela injeção das hiPScs em camundongos imunodeficientes, demonstrando a formação de teratoma nas linhagens geradas. A metodologia para diferenciação hematopoética das hiPSCs geradas a partir dos corpos embrioides estão em progresso. O potencial de diferenciação foi confirmado durante a padronização deste processo, utilizando ensaio de formação de colônias em metilcelulose. Uma média de 10,5 colônias de precursores eritroide foram obtidas a partir de 50x103 hiPSC PB02 em diferenciação e uma colônia mista (mieloide e linfoide) a partir de 15x103 hiPSC PB12 foram obtidas. Neste trabalho foi possível gerar duas linhagens de hiPSCs com fenótipos de antígenos eritrocitários de interesse que podem ser mantidas em cultura por um longo período (26 passagens) e demonstram um potencial de diferenciação hematopoética. / The demand for blood transfusion has increased in Brazil and the number of blood donations remains insufficient. Therefore, there is a shortage of blood components for transfusion, mainly concentrates of red blood cells (RBCs). Human induced pluripotent stem cells (hiPSCs) have great potential to become a source of RBCs, because they can differentiate into every cellular type, including RBCs of a particular phenotype. The objective of this work was to generate hiPSC from mononuclear cells of peripheral blood (PBMCs) from blood donors who presented low immunogenic phenotype for transfusion, and erythroid differentiation of the generated hiPSCs. Peripheral blood samples from 11 individuals were collected and characterized for the following erythrocyte antigens: Rh system (RHCE01/RHCE02/RHCE03/RHCE04/RHCE05), Kell (KEL01/KEL02), Duffy (FY01/FY02 and FY02N.01), Kidd (JK01/JK02), MNS (GYPB03/GYPB04). Additionally, other antigens of different blood groups were determined by phenotyping. The samples PBMC PB02 and PBMC PB12 were chosen for iPS generation due to their multiple negative erythrocyte antigens. They were isolated, expanded into erythroblasts, and transfected using the reprogramming episomal vectors PEB-C5 and PEB-Tg. This population was co-cultured on mouse embryonic fibroblasts (MEFs) until the appearance of hiPSC like colonies (hiPSC PB02 and hiPSC PB12). These colonies were transferred to human embryonic stem cells (hESCs) culture conditions and characterized regarding their pluripotency. The expression of OCT4, SOX2 and NANOG pluripotency genes demonstrated that the expression of both lineages was higher in comparison with non-pluripotent lineages. Immunophenotyping performed by flow cytometry revealed that 86% of cells expressed Nanog, 88% Oct4 and 88% Sox2. Expression levels of pluripotency genes and markers were consistent with undifferentiated state found in known pluripotent cells. Functional analysis for pluripotency was achieved by the hiPSC injection in immunodeficient mice showing that both hiPSC cell lines were able to induce teratoma tumor. The hematopoietic differentiation potential was confirmed using methylcellulose assay, with an average of 10.5 erythroid colonies from 50x103 single cells and a mixed colonies of myeloid and lymphoid cells) and finally a colony composed of white cells from 15x103 PB12 hiPSC. In conclusion, it was possible to generate a hiPSC from a red blood cell phenotype that are negative for multiple antigens, and this cell line can be maintained for a long period in culture (26 passages) and show potential for hematopoietic differentiation. antígenos eritrocitários células-tronco pluripotentes induzidas diferenciação hematopoética Erythrocyte antigens Hematopoietic differentiation Induced Pluripotent Stem Cells
15	Human pluripotent stem cells in In vitro conditions : differentiation and genomic instability / Cellules souches pluripotentes humaines dans La condition in vitro : différentiation et instabilité génomique Bai, Qiang 12 September 2013 (has links) Les cellules souches pluripotentes humaines (hPSC) sont des cellules capables à la fois d'autorenouvellement et de se différencier en tous les types cellulaires. Elles peuvent être issues de l'embryon (pour cellules souches embryonnaires humaines, hESC) ou être obtenues par reprogrammation d'une cellule différenciée (pour cellules souches pluripotentes induites humaines, hiPSC). Les hPSC sont au centre d'enjeux scientifiques, médicaux et économiques majeurs, en particulier dans le cadre des maladies génétiques et orphelines. En effet, elles ouvrent la porte à de nouvelles stratégies de modélisation de maladies génétiques humaines in vitro et sont une source potentiellement illimitée de cellules pour une thérapie cellulaire des maladies dégénératives. Cependant, la culture in vitro de hPSC est une étape essentielle avant toute application clinique ou recherche fondamentale. En effet, la culture cellulaire est nécessaire pour l'amplification du nombre des cellules, et est nécessaire pour toute étape de différenciation in vitro. Or c'est une étape délicate pour le succès des applications visées. Mon travail de doctorat s'est focalisé sur deux aspects de la culture des hPSC. Dans un premier temps, j'ai modélisé in vitro une voie de différenciation, le développement trophoblastique humain, en modulant les paramètres de la condition de culture, notamment en jouant sur la concentration du facteur de croissance BMP4. Ce travail m'a permis d'élucider la toute première bifurcation de différenciation cellulaire au cours du développement embryonnaire humain précoce. Dans un second temps, mon travail s'est focalisé sur le changement phénotypique et génomique des hPSC au cours de la culture in vitro. J'ai montré que l'utilisation de certains protocoles de passage cellulaire – en particulier le passage par dissociation cellulaire complète par utilisation de trypsine - se traduit par des acquisitions très précoces d'anomalies génétiques chromosomiques et sub-chromosomiques, et que des anomalies sub-chromosomiques pouvaient précéder l'apparition d'anomalies chromosomiques. Les conséquences de ces observations sont importante pour la recherche de la culture de hPSC : (1) il faut définitivement renoncer à l'utilisation des passages par dissociation cellulaire complète, y compris pour les méthodes de culture en suspension, et (2) il faut, pour valider une technique de culture, compléter systématiquement le caryotype par un examen d'analyse génétique avec une meilleure résolution. / Human pluripotent stem cells (hPSC) are the stem cells capable to self-renew and also to differentiate into all the cell types. These cells can be derived from embryos (for human embryonic stem cells, hESC) but also be obtained by reprogramming the differentiated somatic cells (for human induced pluripotent cells, hiPSC). The hPSC become central stakes of science, medicine and economy, particularly for genetic and rare diseases. In fact, they open up the new perspectives to the novel treatment strategies by remodeling human genetic diseases in vitro and at the same time they are a potentially unlimited cell source for cell therapy for especially degenerative diseases. Meanwhile, the hPSC in vitro culture is one of the most important steps before passing to the clinic applications and in fundamental research, as the proliferation and pluripotency can only be maintained in culture condition as well as many differentiation methods. My PhD work was concentrated on the hPSC in vitro culture. At first, I modeled human trophoblastic development and its differentiation pathway in vitro by modulating the parameters of culture, especially the concentration of BMP4. This work permitted clarifying the first cell lineage bifurcation in early human embryonic development. Secondly, my word was focalized on the phenotypic and genomic changes of hPSC during the in vitro culture. I demonstrated that the use of some passaging protocols in culture, particularly complete cell dissociation by trypsin, was translated by very early acquisitions of chromosomal and sub-chromosomal abnormalities, and that the appearance of sub-chromosomal abnormalities could precede chromosomal abnormalities. The consequences of these observations are important for the hPSC culture research: (1) the use of complete cell-dissociation passaging should be definitively abandoned, including the suspension culture, and (2) the genetic analyses with higher resolution should be added to validate a culture technic. Cellules souches pluripotentes humaines Différentiation Instabilité génomique Condition de culture Human pluripotent stem cells Differentiation Genomic instability Culture condition
16	Biothérapies des porphyries érythropoïétiques : thérapie cellulaire, thérapie génique et approche pharmacologique / Biotherapies of erythropoietic porphyrias : cell therapy, gene therapy and pharmacological approach Duchartre, Yann 17 December 2012 (has links) Les porphyries érythropoïétiques (PE) : Porphyrie Erythropoïétique Congénitale -PEC- et Protoporphyrie Erythropoïétique -PPE- sont caractérisées par le déficit d’une des enzymes de la voie de biosynthèse de l’hème. Le traitement curatif des formes sévères de PE est la transplantation de moelle osseuse allogénique (TMOA). La PPE est parfois compliquée d’une insuffisance hépatique majeure nécessitant une greffe hépatique. Dans un modèle murin de PPE (Fechm1Pas/Fechm1Pas), nous avons démontré l’apparition progressive de lésions hépatiques dès la 2ème semaine de vie. Une TMO précoce (nouveau-né) a permis de prévenir l’apparition de ces lésions hépatiques et de corriger la photosensibilité cutanée démontrant l’efficacité de cette approche thérapeutique pour les formes sévères de PPE. La thérapie génique par greffe de cellules souches hématopoïétiques autologues corrigées représente une alternative à la TMOA en l’absence de donneur HLA-compatible. Nous avons développé des cellules souches pluripotentes induites (iPS) à partir de cellules épidermiques issues de modèles murins de PE et d’un patient PEC. La correction génique a été obtenue par transfert du gène lentiviral (ferrochélatase ou uroporphyrinogène III synthase (UROS). La pluripotence des cellules iPS a été caractérisée in vitro par la formation de corps embryoïdes et in vivo par la formation de tératomes. In vitro, la correction métabolique a été obtenue après différenciation des cellules iPS humaines en progéniteurs hématopoïétiques. Enfin dans une dernière partie, nous nous sommes intéressés à une approche pharmacologique de la PEC. Nous avons montré que les mutations C73R et P248Q entraînaient une instabilité et une dégradation accélérée de l’UROS par la voie du protéasome. Le traitement de souris UrosP248Q par un inhibiteur du protéasome (Velcade®) a permis la correction de la photosensibilité cutanée. Ces travaux ouvrent de nouvelles perspectives pour le traitement des porphyries érythropoïétiques. / Erythropoietic porphyrias (EP) : Congenital Erythropoietic Porphyria -CEP- and Erythropoietic Protoporphyria -EPP-) are characterized by a deficit of one enzyme implicated in heme biosynthetic pathway. The curative therapy for severe cases of EP is an HLA-compatible Bone Marrow Transplantation (BMT). EPP is sometimes complicated by a major hepatic failure requiring hepatic graft. In a murine model of EPP (Fechm1Pas/Fechm1Pas), we have demonstrated that hepatic lesions progressively appear 2 weeks after birth. Early BMT (in neonates) has made it possible to prevent hepatic lesions and correct skin photosensitivity, demonstrating the efficiency of this therapeutic approach in severe cases of EPP. The gene therapy by graft of corrected autologous hematopoietic stem cells represents an alternative to BMT when HLA-compatible donors are lacking. We have developed induced pluripotent stem cells (iPSC) from epidermic cells of murine models of EP and of one PEC patient. The gene correction was obtained by lentiviral gene transfer (ferrochelatase and uroporphyrinogen III synthase -UROS). The pluripotency of iPSC was characterized in vitro by the formation of embryoid bodies and in vivo by the formation of teratomas. In vitro, the metabolic correction was obtained after differentiation of human IPSC into hematopoietic progenitors. In the last part of this thesis, we have focused on a pharmacological approach of CEP. We have shown that C73R and P248Q mutations lead to instability and accelerated degradation of the UROS protein via the proteasome. Treating UrosP248Q mice with a proteasome inhibitor (Velcade®) has allowed the correction of skin photosensitivity. These works offer new prospects for the treatment of erythropoietic porphyrias. Porphyries érythropoïétiques Thérapies cellulaire et génique Erythropoietic porphyrias Cell and gene therapies Induced pluripotent stem cells (iPS)
17	Identificação de genes e vias associadas aos transtornos do espectro autista / Identification of genes and pathways associated to autism spectrum disorders Oliveira, Karina Griesi 28 June 2011 (has links) Os transtornos do espectro autista (TEA) são um grupo de doenças neuropsiquiátricas caracterizadas por um prejuízo na capacidade de comunicação e de interação social e por padrões comportamentais estereotipados. Os TEA são geneticamente heterogêneos o que dificulta a identificação das alterações genéticas que estão contribuindo para estes transtornos. No presente estudo, selecionamos como uma primeira abordagem o estudo de translocações cromossômicas, buscando encontrar genes candidatos para posteriores estudos funcionais. No primeiro caso, uma translocação de novo balanceada envolvendo os cromossomos 2q11 e Xq24, não identificamos nenhum candidato funcional rompido pelos pontos de quebra. Detectamos ainda a presença de uma isodissomia materna do cromossomo 5 nesta paciente. Este resultado sugere que, possivelmente, tanto a translocação cromossômica quanto a isodissomia devem estar contribuindo para a etiologia do TEA nesta paciente, caracterizando este como um caso de efeito poligênico. Já o estudo da translocação de novo balanceada (3,11)(p21,q22) revelou que o gene TRPC6, um canal de cálcio envolvido no desenvolvimento de dendritos e sinapses excitatórias, encontrava-se rompido no cromossomo 11 deste paciente. As análises dos neurônios e células progenitoras neurais deste paciente obtidas através da técnica de reprogramação celular e o estudo global de expressão gênica sugerem fortemente que o rompimento do gene TRPC6 é o fator etiológico do TEA neste caso. Por fim, nós também realizamos um estudo de expressão gênica global de pacientes autistas idiopáticos e verificamos que os genes diferencialmente expressos nestes pacientes estão principalmente envolvidos na regulação da dinâmica do citoesqueleto, indicando que este pode ser o processo biológico comumente afetado nos pacientes autistas. Nosso trabalho mostra que os estudos citogenéticos são importantes para a identificação de genes candidatos para os TEA e reforça a hipótese de que estes transtornos são causados por diferentes variantes genéticas mas que levam ao comprometimento de um processo biológico comum. Acreditamos que o modelo de reprogramação celular contribuirá para o entendimento da implicação de tais processos na etiologia dos TEA. / Autism spectrum disorders (ASD) are a group of neurodevelopmental diseases characterized by impairments in social and communicative skills and repetitive behaviors. The investigation of ASD causes is hampered by the genetic heterogeneity of these neurodevelopmental diseases. In the present study, we mapped the breakpoints associated to chromosomal translocations found in two autistic patients as a first screening approach, trying to identify single candidate genes that could be further investigated by functional analysis. In the first case, a de novo balanced translocation involving the chromosomes 2q11 and Xq24, we did not find any functionally known relevant gene disrupted by the breakpoints but, surprisingly, SNP-array data showed that the patient also presents a maternally inherited isodisomy on chromosome 5. In this case, is possible that ASD is caused by the combination of the molecular results caused by the translocation and the UPD on chromosome 5, which would characterize this case as an example of polygenic effects on ASD etiology. On the other hand, the study of a second case, a boy with a de novo balanced translocation (3;11)(p21;q22), revealed that TRPC6, a calcium channel involved in dendritic spine and excitatory synapse formation, was disrupted by the translocation on chromosome 11. Making use of cellular reprogramming to generate neurons and neuronal progenitor cells from this patient and expression analysis, we demonstrated that TRPC6 disruption can respond for the phenotype seen in this patient. Finally, we also performed a genome-wide expression analysis to investigate idiopathic autistic patients and we verified that ASD DEGs are mainly implicated in cytoskeleton dynamics, suggesting that the regulation of this cellular structure can be one of the common mechanisms of ASD etiology. Our work shows that cytogenetic studies are important for the identification of ASD candidate genes and reinforces the hypothesis that these disorders are caused by different genetic variants that are implicated in a common biological process. We believe that cellular reprogramming will contribute for the understanding of the implication of such biological processes in the etiology of ASD. Autism Autismo Células-tronco pluripotentes induzidas Cytogenetic studies Estudos citogenéticos Estudos de expressão Expression studies Induced pluripotent stem cells TRPC6 TRPC6
18	Modélisation de l'épithélium bronchique par les cellules souches pluripotentes induites humaines dans la Bronchopathie Pulmonaire Chronique Obstructive (BPCO) / Modeling modifications of airway epithelium in COPD Ahmed, Engi 29 October 2018 (has links) La BPCO (bronchopathie pulmonaire chronique obstructive) est un problème majeur de santé publique et représentera la 3ème cause de mortalité dans le monde en 2030. L’âge, le tabagisme, ainsi que la pollution atmosphérique via l’exposition aux particules de diesel mais également la pollution domestique – majoritairement représentée par la combustion domestique de biomasse – sont des facteurs de risque bien identifiés d’apparition d’une BPCO. Il n’existe à ce jour aucun traitement curatif pouvant interférer avec l’histoire naturelle de la maladie.Les cellules souches pluripotentes, et notamment les cellules souches humaines pluripotentes induites (hiPSCs), sont définies par deux propriétés fondamentales : l’auto-renouvellement et la capacité à se différencier en tous les types cellulaires de notre corps. Elles offrent une opportunité sans précédent de modéliser le développement humain normal et pathologique de l’appareil respiratoire.Ce projet de recherche a pour objectif de modéliser in vitro les trajectoires de la BPCO, en lien avec une origine développementale (racines pédiatriques) et/ou une susceptibilité au tabac. Afin d’élucider les mécanismes qui sous-tendent la pathogénie de la BPCO et de la susceptibilité au tabac, nous avons constitué deux groupes caricaturaux : i) 4 patients atteints d’une forme sévère de la BPCO, constituant le groupe « hautement susceptibles », ii) 4 patients fumeurs indemnes de BPCO ou tout autre comorbidité liée au tabac « hautement résistants » au tabac.Nous avons utilisés deux modèles de culture cellulaires in vitro : les hiPSCs et la culture de cellules épithéliales primaires bronchiques humaines (HBECs) cultivées en ALI (interface air liquide).Dans un premier temps, nous avons généré des lignées hiPSCs par reprogrammation cellulaire à partir du sang périphérique d’un sujet sain (contrôle), et de trois patients BPCO sévères hautement caractérisés. Dans un second temps, la différenciation dirigée des hiPSCs a permis de récapituler le développement pulmonaire précoce (génération de progéniteurs bronchiques NKX2.1) par la mise au point d’un protocole de différenciation dirigée robuste et reproductible sur plusieurs lignées hiPSCs. La maturation de ces progéniteurs bronchiques en culture 2D ou 3D a permis d’obtenir des structures épithéliales exprimant les marqueurs de cellules basales (KRT5), de cellules Club (CCSP), et ciliées (FOXJ1). Dans un second temps, ces épithélia seront exposés au tabac (CSE- cigarette smoke extract) afin d’induire un phénotype « BPCO-like ». Enfin, la culture des HBECs cultivées en ALI des patients BPCO sévères a été réalisée en condition exposée (CSE) et non exposée. La résistance transépithéliale, la motilité ciliaire, le profil sécrétoire et la diversité ARN ont été collecté.Ce travail a permis de mettre en place les outils nécessaires pour reproduire les trajectoires in vitro de la BPCO et élucider les origines de la pathologie. Les outils de séquençage à haut débit (transcriptomique dans notre étude), permettront de découvrir de nouveaux candidats, représentants de potentielles cibles en vue d’un criblage pharmacologique. / COPD (Chronic Obstructive Pulmonary Disease) is a major public health problem and will be the 3rd leading cause of death in the world in 2030. Age, smoking, and air pollution through the exposure to particulate matter but also domestic pollution - mostly represented by domestic biomass combustion - are well-identified risk factors for the development of COPD. To date, there is no cure that can interfere with the natural history of the disease.Pluripotent stem cells, including induced pluripotent human stem cells (hiPSCs), are defined by two fundamental properties: self-renewal and the ability to differentiate into all cell types in our body. They offer an unprecedented opportunity to model the normal and pathological human development of the respiratory system.This research project aimed to model in vitro the trajectories of COPD, related to a developmental origin (pediatric roots) and / or susceptibility to tobacco. In order to elucidate the underlying mechanisms of COPD and tobacco susceptibility, we established two extreme groups: i) 4 patients with a severe form of COPD, the "highly susceptible" group, ii) 4 patients who are free of COPD or other tobacco-related comorbidity despite heavy smoking, called as "highly resistant" to tobacco.We have used two different but complementary in vitro cell culture models: hiPSCs and human bronchial primary epithelial cell cultures (HBECs) grown in ALI condition (Air Liquid Interface).First of all, we generate hiPSCs cell lines by reprogramming cells from peripheral blood of a healthy subject (control), and three highly characterized severe COPD patients. In a second step, the directed differentiation of hiPSCs allowed to recapitulate the early pulmonary development (NKX2.1 generation of bronchial progenitors) by the development of a robust and reproducible directed differentiation protocol of several hiPSCs lines. The maturation of these bronchial progenitors in 2D or 3D culture allows the generation of epithelial structures expressing markers of KRT5 + basal cells , CSSP + Club cells and FOXJ1 + ciliated cells. In a second step, these epithelia will be exposed to tobacco (CSE-cigarette smoke extract) in order to induce a "COPD-like" phenotype. Finally, ALI culture of HBECs of severe COPD patients was performed in unexposed and exposed condition (CSE). Transepithelial resistance, ciliary motility, secretory profile, and RNA diversity were collected.This work allowed to put in place the necessary tools to reproduce the in vitro trajectories of COPD and to clarify the origins of this pathology. The high throughput sequencing tools (transcriptomic in our study), will allow the discovery of new candidates, that represent potential targets for future pharmacological screening. BPCO Cellules pluripotentes humaines induites Épithélium bronchique Tabac Modélisation Copd Human iPS Bronchial epithelium Cigarette smoke Modeling disease
19	Utilisation de cellules souches pluripotentes humaines pour le développement de criblages phénotypiques dans le cadre de la dystrophie myotonique de type 1 et l'amyotrophie spinale infantile / Use of human pluripotent stem cells for the development of phenotypic screening in the context of myotonic dystrophy type 1 and spinal muscular atrophy Maury, Yves 18 December 2013 (has links) Les cellules souches pluripotentes (CSP) humaines sont devenues en quelques années des modèles de choix pour étudier les mécanismes cellulaires et moléculaires qui gouvernent l'apparition de maladies monogéniques, mais également pour le développement de criblages à haut débits afin d'identifier parmi plusieurs milliers de molécules chimiques celles qui ont un potentiel thérapeutique. C'est dans ce contexte de criblage que mes travaux de thèse s'inscrivent, alliant automatisation et miniaturisation de la biologie des CSP dans le cadre de deux maladies monogéniques, l'amyotrophie spinale infantile (SMA) et la dystrophie myotonique de type I (DM1). De manière générale, la mise en place d'une telle stratégie repose sur trois étapes essentielles qui sont l'obtention de CSP porteuses d'une mutation donnée, l'identification d'un modèle d'étude pertinent et la réalisation du criblage à proprement parlé. L'obtention de CSP humaines repose sur deux approches principales. La première consiste en la dérivation de cellules embryonnaires humaine (hES) issues de diagnostiques préimplantatoires et la seconde repose sur la reprogrammation de cellules somatiques par l'induction de pluripotence (iPS). Une partie de mon travail a consisté en la création de cellules iPS modèles de la SMA et leur caractérisation par une approche à haut débit. Par la suite un travail d'optimisation du protocole de génération de motoneurones à partir de CSP humaines a permis d'accélérer et augmenter les rendements de production de ces cellules qui sont principalement affectées dans la SMA. Enfin, l'utilisation de cellules hES porteuses de la mutation causale de la DM1 a permis le criblage de 12000 molécules et a conduit à l'identification d'une famille chimique capable de restaurer plusieurs défauts typiques de cette maladie tels que des défauts d'épissage et de fusion moléculaire. / For only few years, Human pluripotent stem cells (PSC) have become wide spread models in order to study and decipher cellular or molecular mechanims involved in monogenic diseases, but also for the development of large scale screening strategies allowing the identification of new therapeutics among thousands of chemicals. Mythesis research aimed at the development of such strategies, miniaturizing and automating PSC biology within the framework of two monogenic diseases, namely spinal muscular atrophy (SMA) and myotonic dystrophy type 1 (DM1).Basically, PSC based screening programs are generally built around three main steps which are the access to a stem cell model, the identification of a relevant cell type and lastly the screening campaign. There is actually two main ways to generate human PSC. Firstly, human embryonic stem cells (hES) can be derived from the inner cell mass of blastocyte through a pre-implantation diagnosis and secondly, induced pluripotent stem cells (iPS) can be generated after somatic cell reprogramming in vitro. A part of my work has consisted in the generation of hiPS cellular models for SMA by reprogramming fibroplasts that carried SMN1 gene deletion, followed bay the characterization of several dozen of independant clones with high throughput. Then an optimization process of the protocol for the generation of Motoneuron from PSC has been done multiplying experimental conditions. This finally allowed the description of a fast and efficient protocol to generate the most affected cell type in SMA. Finally, DM1 mutated hES were uded for the screening of 12.000 compounds among which a chemical family has been identified to rescue DM1 typical splicing and myogenesis defects. Cellules souches pluripotentes humaines Dystrophie myotonique de type 1 Criblage Human pluripotent stem cells Myotonic dystrophy type 1 Screening
20	Applications médicales et pharmaceutiques des cellules souches pluripotentes : vers un changement de paradigme ? Denis, Jérôme Alexandre 27 October 2011 (has links) (PDF) Les lignées de cellules souches embryonnaires humaines (hES) et maintenant de cellules souches induites à la pluripotence (hiPS) sont des cellules qui présentent deux caractéristiques uniques : elles sont d'une part capables de s'auto-renouveler de manière continue en culture ce qui permet de générer de grande quantité de cellules et d'autre part, elles présentent la capacité de se différencier en n'importe quelle cellule de l'organisme lorsqu'elles sont soumises à un environnement permissif adéquat. Ces deux propriétés permettent d'envisager de nombreuses applications médicales comme la thérapie cellulaire mais aussi des applications dans le domaine de l'industrie pharmaceutique grâce au développement de modèles cellulaires innovants. Ce mémoire de thèse a pour objectif de présenter les caractéristiques biologiques principales de ces cellules et les enjeux médicaux et pharmaceutiques qu'elles représentent pour le futur, notamment pour le pharmacien. [SDV] Life Sciences Cellules souches pluripotentes cellules souches embryonnaires humaines thérapie cellulaire biologie du développement

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