Global ETD Search

31	Replication of Adeno-Associated Virus in Murine Fibroblasts with Mouse Adenovirus Provided Helper Functions Bhrigu, Vipul 14 July 2009 (has links) No description available. Molecular Biology Virology Adeno-Associated Virus Adenovirus Murine Fibroblasts Hela Mouse AAV genome copy
32	Cellular Response to Adenovirus and Adeno- Associated Virus Coinfection Bevington, Joyce M. 14 July 2009 (has links) No description available. Virology Adeno-Associated Virus Nucleophosmin Cell cycle Adenovirus DNA Damage Repair Response Host-Virus Interaction
33	Ongoing cellular responses to transgene products encoded by recombinant adeno-associated virus (rAAV) vectors Best, Victoria Maria January 2009 (has links) No description available. Immunology adeno-associated virus AAV gene therapy, apoptosis, T cell dendritic cell immune response
34	Diverse Effects of DNA Repair Pathways on the Outcome of Recombinant Adeno-Associated Virus (rAAV) Vector Gene Delivery Cataldi, Marcela Patricia 20 July 2011 (has links) No description available. Molecular Biology Virology adeno-associated virus gene therapy DNA recombination rAAV vector DNA viral vectors
35	Novel approaches to activate Sirtuin-1 McElhinney, Priscilla 01 March 2024 (has links) Sirtuin-1 (SirT1) is a nicotinamide adenine dinucleotide (NAD+)-dependent lysine deacetylase expressed ubiquitously in the body. In the vasculature, SirT1 is present in endothelial and vascular smooth muscle cells (VSMCs), where it has been shown to promote anti-inflammatory and anti-oxidant effects. As a result, SirT1 is known to play a protective role in the vasculature wall from pathologies such as atherosclerosis, arterial stiffness, and aortic aneurysm. Hence, SirT1 is considered an attractive therapeutic target for vascular diseases and potentially, aging-related and metabolic diseases. However, currently available SirT1 activators have failed to reach the clinic. Thus, novel approaches to activate SirT1 are needed. In this study, we first sought to optimize a novel fluorescence-based SirT1 activity assay, with which to reliably assess intracellular SirT1 activity and the efficacy of SirT1 activators and inhibitors. We next sought to use the SirT1 activity assay to screen novel compounds identified by an in silico docking analysis and hypothesized to activate SirT1. Lastly, we generated adeno-associated viruses (AAV) overexpressing wildtype (WT) or a redox-resistant (3M) SirT1 to analyze the effects of overexpressing SirT1 in VSMCs, in normal and oxidative stress conditions. For the activity assay, our results showed that an optimal standard curve range was between 0 ng and 12 ng of substrate (acetylated-p53 peptide). After testing different commercially available human recombinant SirT1s, the Anaspec SirT1 of the highest concentration showed a decrease in measured fluorescence for acetylated-p53 peptide with higher SirT1 (ng), indicating the enzyme and the assay were functional. However, when novel small molecules (A4, B4, and G3) hypothesized to activate SirT1 were added to reactions, the total p53 peptide fluorescence values increased compared to the control, suggesting some interference of the molecules with the assay detection. After AAV infection in VSMCs, SirT1 expression, measured by HA-tag, increased for AAV WT (n=3, p=0.04) and similarly for AAV 3M SirT1, indicating that the AAVs efficiently infect VSMCs. SirT1 activity, measured by Western Blot as decreased acetylated-histone (H3), also appeared to increase for both AAV WT and AAV 3M. A similar trend was shown for VSMCs under oxidant stress conditions (n=2). In conclusion, we successfully established a standard curve range for a novel SirT1 activity assay. Further trials are needed to ensure activity assay reproducibility before testing the efficacy of SirT1 activators and inhibitors. Infection of AAV WT and 3M SirT1 led to an increase in the expression and activity of SirT1 in VSMCs. The expression of SirT1 by AAV may be a promising therapeutic option for in vivo prevention and treatment of vascular diseases. / 2026-03-01T00:00:00Z Cellular biology Adeno-associated virus Aortic aneurysm Cardiovascular disease Resveratrol Sirtuin-1 Vascular disease
36	Intracellular fate of AAV particles in human Dendritic Cell and impact on Gene Transfer / Devenir intracellulaire des vecteurs AAV dans les cellules dendritiques humaines et conséquences sur le transfert de gène Rossi, Axel 28 October 2016 (has links) Les vecteurs viraux dérivés du virus adéno-associé (AAV) apparaissent depuis deux décennies, comme des outils efficaces pour le transfert de gène in vivo. Cependant, malgré une faible immunogénicité et une absence de toxicité in vivo, leur optimisation requiert encore un effort important vers une meilleure compréhension de leur biologie et, en particulier, de leur interaction avec le système immunitaire. Au cours de ce travail de thèse, nous avons utilisé une méthode de sélection dirigée in vitro dans le but d’obtenir un variant de capside capable de transduire efficacement un type cellulaire non-permissif aux vecteurs AAV : les cellules dendritiques (DC). En effet, ces cellules jouent un rôle primordial dans l’établissement de la réponse immunitaire et, par conséquent, dans la persistance de l’expression du transgène in vivo. Cette technologie, très répandue dans la communauté AAV, a permis de sélectionner un variant de capside aux propriétés très intéressantes. La mutation sélectionnée, caractérisée in vitro comme induisant une instabilité de la capside, a permis d’identifier et de surmonter un point de blocage majeur dans le processus de transduction des DC par les vecteurs AAV consistant dans l’étape de décapsidation du génome du vecteur dans le noyau cellulaire. De manière intéressante, le variant obtenu exhibe un avantage en terme de transduction non seulement dans les DC mais aussi dans différents modèles de cellules primaires humaines (e.g. HUVEC) ou animales (OBC), peu ou pas permissive à l’AAV. De plus, des expériences de transfert de gène in vivo réalisées dans un modèle murin, indiquent que le variant sélectionné conduit à une meilleure expression du transgène, possiblement due à la mise en place d’un processus de tolérisation. Les propriétés remarquables de ce variant de capside, font de lui un candidat intéressant pour des applications médicales. / Vectors derived from the Adeno-associated virus (AAV) have emerged as an efficient system for in vivo gene transfer. However, despite their low immunogenicity and good tolerance in vivo, a better characterization of the host-AAV interaction is required to be able to fully exploit AAV’s potential fora gene therapy or gene vaccination. In this PhD project, we have used an in vitro directed evolution strategy to select an AAV capsid variant able to transduce human dendritic cell (DC), a non-permissive cell type which plays a critical role in the initiation of immune responses and, consequently, on the persistence of the expression of transgene in vivo. This procedure allowed us to identify an AAV variant characterized by a decreased stability of the capsid in vitro. The use of this mutant as a vector to transduce human DC resulted in an improved uncoating of the vector genome in the cell nucleus, thus identifying this step as major barrier toward DC transduction. Interestingly, the selected variant also displayed an increased transduction efficiency not only in DC but also in different primary human and animal cell types, poorly or non-permissive to AAV. Finally, when injected in mice, this AAV variant resulted in a higher expression of the transgene, associated to a low level of immune responses, suggesting the induction of tolerant state. The remarkable features suggest that our selected variant capsid is a promising candidate for medical applications. Adeno-associated virus AAV vector Transport intracellulaire Ingénierie de capside Décapsidation Tolérance Réponses Immunitaires Transfert de gène Adeno-associated virus AAV vector Intracellular trafficking Capsid Engineering Uncoating Tolerance Immune Responses Gene Transfer
37	Optogenetic stimulation of the cochlea López de la Morena, David 18 December 2018 (has links) No description available. 570 Optogenetics Cochlear implants Cochlea In vivo electrophysiology Adeno-associated virus Single-unit recordings Dynamic range Biologie (PPN619462639)
38	Méthodes innovantes de transgenèse chez le rat : application pour la modélisation de la maladie de Parkinson / Innovative methods of transgenesis in rats : application to model Parkinson's disease Chansel-Debordeaux, Lucie 26 October 2017 (has links) Les avancées récentes dans la technique de transgénèse utilisant l’approche AAV ont permis de générer de nouveaux modèles animaux. Depuis quelques années, le développement des modèles de la maladie de Parkinson (MP) a amélioré la compréhension des mécanismes physiopathologiques de ce trouble dégénératif. Cependant, aucun modèle mammifère ne reproduit à ce jour la neurodégénérescence liée à l’âge associée à la pathologie synucléine et la symptomatologie motrice et non motrice. L’objectif de mon travail de thèse fut de développer de nouvelles stratégies de transgénèse chez le rat en utilisant ces vecteurs viraux pour la modélisation de la MP. Le challenge est de parvenir à une infection virale la plus précoce possible afin de transduire un maximum de neurones dopaminergiques. Pour cela, différentes voies d’approche ont été testées pour améliorer le processus de transgénèse : 1) l’injection de vecteurs viraux dans le rete testis de jeunes mâles pour transduire les cellules de la lignée germinale, 2) l’injection dans les embryons pré-implantatoires, 3) l’injection in utero intracérébroventriculaire et enfin 4) l’injection intracardiaque au premier jour de vie des animaux. Parmi elles, les injections in utero et intracardiaques ont permis d’aboutir à une transduction importante d’un grand nombre de structures cérébrales avec un tropisme neuronal. Ces techniques ouvrent la voie à la génération de nouveaux modèles animaux de maladies à composante génétique et à la thérapie génique. / Recent advances in the transgenesis technique using the AAV approach have led to the generation of new animal models. In recent years, the development of models of Parkinson's disease (PD) has improved understanding of the pathophysiological mechanisms of this degenerative pathology. However, no mammalian model recapitulates the required age-dependant parkinsonian degeneration, the α-synuclein inclusion pathology and motor and non-motor symptoms. The objective of my Ph.D work was to develop new transgenesis strategies in rats using these viral vectors for modeling PD. The challenge is to achieve a viral infection as early as possible in order to transduce as many dopaminergic neurons as possible. To this end, different strategies have been tested to improve transgenesis efficacy : i) injection in rete testis in young male to transduce germinal cells, ii) injection into early stage embryos, iii) in utero intracerebroventricular injection and iv) intracardiac injection in one day-old animals. Among them, in utero and intracardiac injections led to neuronal transgene expression in most regions of the brain. These techniques pave the way for the generation of new animal models of genetic diseases and offer unique opportunities for gene therapy. Transgenèse Maladie de Parkinson Synucléine Virus adéno-associés Modèles animaux Transgenesis Parkinson’s disease Synuclein Adeno-associated virus Animal models
39	Investigation and application of novel adeno-associated viral vectors for cystic fibrosis gene therapy Steines, Benjamin Richard 01 May 2015 (has links) Cystic Fibrosis (CF) is a lethal autosomal recessive genetic disorder caused by mutations of the cystic fibrosis transmembrane conductance regulator (CFTR) gene. CFTR transports anions at the apical surface of epithelial membranes and functions in many areas of the body. However in CF, loss of CFTR function in the lungs is the major source of morbidity and mortality. Replacing the defective CFTR in the lungs through gene therapy has the potential to cure the disease. Recombinant adeno-associated virus (AAV) is an effective gene transfer vector and has been used extensively to deliver genes to cells in culture. A number of clinical trials using AAV have been attempted for a variety of diseases, including CF, albeit with limited success. Poor vector transduction efficiency prevents effective gene therapy. We have previously used a technique to greatly increase the transduction efficiency of AAV in human lung tissues by selecting from a library of AAVs using a directed evolution technique. However, this evolution was performed in cultured cells and did not fully represent the in vivo environment in which the AAV would be used. In 2008, a CF pig model was developed to develop a further understanding of the mechanisms of CF and CFTR function. We hypothesized that we could use directed evolution to select for a vector in vivo using the pig, allowing gene therapy studies to be conducted in a physiologically relevant model of CF. We selected a novel AAV variant, called AAV2H22, which is closely related to AAV2 but with greatly increased transduction efficiency in pig airway epithelia. AAV2H22 displayed specific tropism for pig airway epithelia and saturated cell surface receptors, indicating specific binding in those cells. We found that AAV2H22-mediated gene transfer corrected chloride and bicarbonate transport defects both in vitro and in vivo. Importantly, bicarbonate transport was sufficient to normalize pH in the airway surface liquid, resulting in increased bacterial killing likely due to increased activity of antimicrobial peptides. To investigate the mechanics of the increased transduction of AAV2H22, capsid mutants were assayed for transduction efficiency. Two of the five amino acid differences between AAV2 and AAV2H22 lie at the surface and are predicted to alter capsid binding. This is consistent with the results showing specific binding in cultured airway epithelia. This research has important implications for gene therapy and investigations using AAV2H22 will increase our understanding of the biology needed to successfully treat CF. publicabstract AAV vector Adeno-associated virus CF pig model Cystic fibrosis Directed evolution Gene therapy Cell Biology
40	The role of tryptophan-rich basic protein (WRB) in inner hair cell synaptic transmission and hearing Panou, Iliana 08 May 2013 (has links) No description available. 570 Inner hair cells mouse organ of Corti Hearing Synaptic Transmission Otoferlin Ribbon Synapse Adeno-associated Virus Biologie (PPN619462639)

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