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AAV-vector mediated gene delivery for Huntington's Disease: an investigative therapeutic studyKells, Adrian P January 2007 (has links)
Progressive degeneration in the central nervous system (CNS) of Huntington’s disease (HD) patients is a relentless debilitating process, resulting from the inheritance of a single gene mutation. With limited knowledge of the underlying pathological molecular mechanisms, pharmaceutical intervention has to-date not provided any effective clinical treatment strategies to attenuate or compensate the neuronal cell death. Attention has therefore turned to biotherapeutic molecules and novel treatment approaches to promote restoration and protection of selectively vulnerable populations of neurons in the HD brain. Rapid advances in vectorology and gene-based medicine over the past decade have opened the way for safe and efficient delivery of biotherapeutics to the CNS. With numerous factors known to regulate the development, plasticity and maintenance of the mammalian nervous system many proteins have emerged as potential therapeutic agents to alleviate HD progression. This investigative study utilised gene delivery vectors derived from the non-pathogenic adeno-associated virus (AAV) to direct high-level expression of brain-derived neurotrophic factor (BDNF), glial cell-line derived neurotrophic factor (GDNF), Bcl-xL or X-linked inhibitor of apoptosis protein (XIAP) within the rodent striatum. Maintenance of the basal ganglia and functional behaviour deficits were assessed following excitotoxic insult of the striatum by quinolinic acid (QA), a neurotoxic model of HD pathology. Enhanced striatal expression of BDNF prior to QA-induced lesioning provided maintenance of the striosome-matrix organisation of the striatum, attenuating impairments of sensorimotor behaviour with a 36-38% increase in the maintenance of DARPP-32 / krox-24 expressing striatal neurons, reduced striatal atrophy and increased maintenance of striatonigral projections. Higher levels of BDNF however induced seizures and weight-loss highlighting the need to provide regulatable control over biotherapeutic protein expression. Continuous high-expression of BDNF or GDNF resulted in a downregulation of intracellular signal mediating proteins including DARPP-32, with AAV-GDNF not found to enhance the overall maintenance of striatal neurons. Neither of the anti-apoptotic factors provided significant protection of transduced striatal neurons but tended towards ameliorating QA-induced behavioural deficits, displaying behaviour – pathology correlations with the survival of parvalbumin-expressing neurons in the globus pallidus. The results of this thesis suggest BDNF as a promising putative biotherapeutic for HD, but emphasises the requirement to control expression following gene delivery, and for further elucidation of the physiological impact that enhanced expression of endogenous factors has on the host cells. Additionally the maintenance of neural networks beyond the caudate-putamen will be vital to ensuring efficient clinical outcomes for HD. / Auckland Medical Research Foundation. Foundation for Research, Science and Technology. The University of Auckland.
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AAV-vector mediated gene delivery for Huntington's Disease: an investigative therapeutic studyKells, Adrian P January 2007 (has links)
Progressive degeneration in the central nervous system (CNS) of Huntington’s disease (HD) patients is a relentless debilitating process, resulting from the inheritance of a single gene mutation. With limited knowledge of the underlying pathological molecular mechanisms, pharmaceutical intervention has to-date not provided any effective clinical treatment strategies to attenuate or compensate the neuronal cell death. Attention has therefore turned to biotherapeutic molecules and novel treatment approaches to promote restoration and protection of selectively vulnerable populations of neurons in the HD brain. Rapid advances in vectorology and gene-based medicine over the past decade have opened the way for safe and efficient delivery of biotherapeutics to the CNS. With numerous factors known to regulate the development, plasticity and maintenance of the mammalian nervous system many proteins have emerged as potential therapeutic agents to alleviate HD progression. This investigative study utilised gene delivery vectors derived from the non-pathogenic adeno-associated virus (AAV) to direct high-level expression of brain-derived neurotrophic factor (BDNF), glial cell-line derived neurotrophic factor (GDNF), Bcl-xL or X-linked inhibitor of apoptosis protein (XIAP) within the rodent striatum. Maintenance of the basal ganglia and functional behaviour deficits were assessed following excitotoxic insult of the striatum by quinolinic acid (QA), a neurotoxic model of HD pathology. Enhanced striatal expression of BDNF prior to QA-induced lesioning provided maintenance of the striosome-matrix organisation of the striatum, attenuating impairments of sensorimotor behaviour with a 36-38% increase in the maintenance of DARPP-32 / krox-24 expressing striatal neurons, reduced striatal atrophy and increased maintenance of striatonigral projections. Higher levels of BDNF however induced seizures and weight-loss highlighting the need to provide regulatable control over biotherapeutic protein expression. Continuous high-expression of BDNF or GDNF resulted in a downregulation of intracellular signal mediating proteins including DARPP-32, with AAV-GDNF not found to enhance the overall maintenance of striatal neurons. Neither of the anti-apoptotic factors provided significant protection of transduced striatal neurons but tended towards ameliorating QA-induced behavioural deficits, displaying behaviour – pathology correlations with the survival of parvalbumin-expressing neurons in the globus pallidus. The results of this thesis suggest BDNF as a promising putative biotherapeutic for HD, but emphasises the requirement to control expression following gene delivery, and for further elucidation of the physiological impact that enhanced expression of endogenous factors has on the host cells. Additionally the maintenance of neural networks beyond the caudate-putamen will be vital to ensuring efficient clinical outcomes for HD. / Auckland Medical Research Foundation. Foundation for Research, Science and Technology. The University of Auckland.
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Functional characterisation of key residues in the photopigment melanopsinRodgers, Jessica January 2016 (has links)
Melanopsin (Opn4) is the opsin photopigment of intrinsically photosensitive retinal ganglion cells (ipRGCs). It has a conserved opsin structure and activation mechanism, yet demonstrates unusual functional properties that suggest it will possess unique structure-function relationships. The aim of this thesis was to characterise key OPN4 residues by examining the impact of non-synonymous mutations on melanopsin function. A genotype-driven screen of a chemically-mutagenized mouse archive led to the identification of a novel Opn4 mutant, S310A, located at a known opsin spectral tuning site. Action spectra from ipRGC and pupil light responses (PLR) of Opn4<sup>S310A</sup> mice revealed no change in wavelength of peak sensitivity. However, Opn4<sup>S310A</sup> PLR was significantly less sensitive at longer wavelengths, consistent with a short-wavelength shift in spectral sensitivity. This suggests S310A acts as a spectral tuning site in melanopsin. Next, the impact of naturally-occurring missense variants in human melanopsin (hOPN4) was examined in vitro. Fluorescent calcium imaging of 16 hOPN4 variants expressed in HEK293 cells revealed four hOPN4 variants abolished or attenuated responses to light (Y146C, R168C, G208S and S308F). These variants were located in conserved opsin motifs for chromophore binding or hydrogen-bond networks, functional roles apparently shared by melanopsin. Finally, two hOPN4 single nucleotide polymorphisms (SNPs) P10L and T394I, associated with abnormal non-image forming behaviour in humans, were explored in vivo. Using targeted viral-delivery of hOPN4 SNPs to mouse ipRGCs, a range of OPN4-driven behaviours, such as circadian photoentrainment and pupil light responses, were found to be comparable with hOPN4 WT control. Multi-electrode array recordings of ipRGCs transduced with hOPN4 T394I virus had significantly attenuated sensitivity and faster response offset, indicating this site may be functionally important for melanopsin activity but compensatory rod and cone input limits changes to non-image forming behaviour.
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Elucidating the reversibility of ataxiaŠuminaite, Daumante January 2017 (has links)
Heterozygous and recently identified homozygous mutations in the SPTBN2 gene, encoding b-III spectrin, are implicated in spinocerebellar ataxia type 5 (SCA5) and spectrin-associated autosomal recessive cerebellar ataxia type 1 (SPARCA1), respectively. Our mouse model, lacking b-III spectrin (KO), mimics the progressive human phenotype displaying motor deficiencies as well as reduced Purkinje cell firing frequency followed by dendritic tree degeneration and cell death. The aims of this study were to evaluate progression of Purkinje cell degeneration following loss of b-III spectrin function and determine whether the reintroduction of C-terminus (C-trm) of b-III spectrin to the cerebellum is enough to halt, alleviate or reverse the disease phenotype. Additionally, this study investigated whether the abnormal electrophysiological and morphological phenotypes of Purkinje cells from KO mice are re-capitulated in a primary cerebellar culture and if so, whether they could be rescued by modulating calcium signaling. Morphological and histological analyses revealed that Purkinje cell degeneration is not uniform throughout the cerebellum of KO mice with Purkinje cells from posterior cerebellar regions possessing significantly smaller dendritic trees when compared to anterior cerebellum (p=0.0003, N=4-6, n=11-29). Similarly, significant reduction in Purkinje cell density was observed in posterior, not anterior regions of KO mice when compared to WT animals (p=0.014, N=3) and reduced tonic firing is most significant in Purkinje cells from the posterior cerebellum compared to WT mice (p=0.0328, N=3-6, n=11-29), with posterior KO PCs appearing to have elevated input resistance. Two-week expression of C-trm b-III spectrin in 3-month old KO animals significantly reduced Purkinje cell input resistance when compared to non-transduced cells (p=0.0139, N=4-5, n=15), but no effect was seen 9 months after viral injection. In contrast, a difference in cell surface area was no longer detected between WT and KO animals at 12 months of age following 9-months of viral expression. Nevertheless, using the elevated beam test motor deterioration was still observed 5 months after surgery (p=0.0023, N=4). In contrast, earlier stereotaxic injections at 6-weeks of age had a positive effect on mice motor performance with no deterioration in performance detected 5 months after the surgery. Latency to stay on the rotarod at 3 rpm was also significantly extended 6 months after stereotaxic injections at 6-weeks of age with slower motor deterioration (p=0.0348, N=6). In primary cerebellar cultures, Purkinje cells from KO animals exhibit an abnormal morphology with significantly more dendritic branches (p < 0.0001, N=4-7, n=35-69) and a larger total dendritic length (p=0.0079). Chronic application of 2 μM mibefradil, a T-type calcium channel blocker, was observed to reduce total dendritic length and branching in KO animal cultures bringing these morphological measurements closer to WT Purkinje cell levels. Finally although after 14 days in vitro 40% of Purkinje cells were found to be spontaneously firing, no significant difference in firing frequency (p=0.9434) or input resistance (p=0.8434, N=4, n=6-10) was detectable between WT and KO cultures. In summary, Purkinje cells in posterior cerebellar regions of KO mice were found to be more susceptible to dendritic degeneration and cellular death than cells in the anterior cerebellum. Expression of C-trm b-III spectrin at 3 months of age had an immediate effect on cell input resistance and a modest effect on Purkinje cell morphology but no effect on motor decline. Viral injections at 6-weeks of age, however, significantly slowed motor decline. Although an abnormal KO cell morphology could be successfully recapitulated in primary cell culture, it was not possible to discern any differences in electrophysiological properties. Nevertheless, the abnormal cell morphology was successfully modified in vitro by manipulating calcium signaling via T-type calcium channels.
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Propriétés physiques de capsides virales étudiées à l'échelle du virus unique par microscopie à force atomique : exemples du rétrovirus VIH-1 et du parvovirus AAV / Physical properties of viral capsids studed at the single virus level by atomic force microscopy (AFM) : examples of HIV-1 retrovirus and AAV parvovirusBernaud, Julien 27 October 2015 (has links)
Les virus sont des parasites biologiques de taille nanométrique. Détournant la machinerie cellulaire de la cellule infectée, ils mettent en place une stratégie de réplication permettant la production de nouveaux virus. Un virus est constitué d’une capside protéique protégeant le génome viral, long polymère d’ADN ou ARN, et possède dans certains cas une enveloppe lipidique. Des travaux récents suggèrent que les propriétés physiques des virus sont importantes pour comprendre certaines étapes du cycle viral. Dans le but de relier le comportement biologique des virus à leurs propriétés physiques, nous avons utilisé une approche combinant l’imagerie AFM et des mesures mécaniques à l’échelle nanométrique, en lien avec la modélisation physique des capsides virales. Nous avons développé des outils d’analyse automatisée des images et courbes de forces obtenues pour quantifier les propriétés physiques de capsides virales et l’effet du microenvironnement. Nous avons étudié deux virus très différents : le rétrovirus VIH-1, responsable du SIDA et le vecteur AAV, utilisé en thérapie génique. Ce travail a permis la caractérisation des propriétés morphologiques et mécaniques de pseudo-particules virales et de cores du VIH-1, à l’échelle du virus unique et sur des populations de centaines de virus. En nous intéressant à l’effet de la nature de l’ARN encapsidé dans les particules virales in cellulo, nous avons montré un rôle structurant pour l’ARN viral du VIH-1 et en particulier son signal d’encapsidation psi. Enfin, nous avons initié l’étude de l’effet de la retro-transcription (conversion du génome viral ARN en ADN) au sein du core VIH-1 sur la stabilité de celui-ci. L’étude du parvovirus AAV existant sous forme de plusieurs variants naturels (sérotypes) nous a permis de comparer les propriétés physiques des capsides à l’équilibre thermodynamique et hors d’équilibre. En faisant varier le microenvironnement (température et pH), nous avons sondé son influence sur la stabilité des capsides AAV. Nous avons pu montrer en particulier que la capside AAV8 est plus rigide que AAV9 alors que sa stabilité thermique est réduite, en relation avec des propriétés biologiques différentes pour ces deux sérotypes. En outre, la rigidité des capsides AAV8 diminue dans un environnement acide imitant l’endosome tardif, et ceci se traduit par une plus grande stabilité thermique. Enfin, nous avons quantifié l’effet de la longueur et de la nature du génome sur la stabilité des capsides AAV. / Viruses are nanometer size biological parasite, which highjack the cellular machinery of the infected cells to replicate and thereby produce new viruses. A virus consists of a protein capsid, protecting the viral genome, a long polymer of DNA or RNA, and in some cases is surrounded by a lipid envelope. Recent work suggests that the physical properties of viruses are important in order to understand the viral cycle. In order to link the biological behavior of the virus to their physical properties, we used an approach combining AFM imaging and mechanical measurements at the nanometer scale, in connection with the physical modeling of viral capsids. We have developed automated image and force curves analysis tools to quantify the physical properties of viral capsids and the effect of the microenvironment. We have focused on two very different viruses: the HIV-1 retrovirus, responsible for AIDS and the AAV vector used in gene therapy. This work has led to the characterization of the morphological and mechanical properties of virus-like particles and cores of HIV-1 at the single virus level and on populations of hundreds of viruses. Focusing on the effect of the nature of the RNA encapsidated inside the viral particles in cellulo, we have highlighted the structural control of the viral RNA, and more precisely the psi packaging signal, on both HIV-1 VLPs and cores. Finally, we have initiated the study of the effect of reverse transcription (conversion of viral genomic RNA into DNA) within the cores HIV-1 on its stability. The study of parvovirus AAV existing form of several natural variants (serotypes) allowed us to compare the capsid physical properties at thermodynamic equilibrium and out of equilibrium. By varying the microenvironment (temperature and pH), we probed its influence on the stability of the AAV capsid. We have shown in particular that the AAV8 virus is stiffer than AAV9 while thermal stability is reduced, in relation to different biological properties for these two serotypes. In addition, the rigidity of AAV8 capsids decreases in an acidic environment mimicking the late endosome transport, and this results in a higher thermal stability. Finally, we quantified the effect of the length and nature of the confined genome on the thermal stability of AAV capsids.
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In vivo functional studies of myotubularin in mouse skeletal muscle / Étude fonctionnelle in vivo de la myotubularin dans le muscle squelettique de la sourisAmoasii, Leonela 12 July 2012 (has links)
La Myotubularine (MTM1) est une 3-phosphatase à phosphoinositides (PI) mutée dans la myopathie centronucléaire liée au chromosome X (XLCNM), caractérisée par une faiblesse musculaire et un positionnement anormal des noyaux dans les fibres musculaires. MTM1 définit une grande famille de phosphatases, exprimées dans tous les tissus, et qui englobent des phosphatases catalytiquement actives et inactives. Les myotubularines actives dephosphorylent le phosphatidylinositol 3 monophosphate [PtdIns3P] et le 3,5-bisphosphate [PtdIns(3,5)P2] en PtdIns et PtdIns5P, respectivement. Le rôle de MTM1 et son activité phosphatase à lipide dans le muscle restaient peu connus. L’étude approfondie de la protéine a révélé une association de MTM1 au réticulum sarcoplasmique des triades, un sous-compartiment impliqué dans la régulation calcique. La caractérisation de la souris Mtm1 KO, qui reproduit la XLCNM, a témoigné d’une anomalie de l’organisation et de la forme du réticulum sarcoplasmique. Afin d’explorer l’implicationde l’activité phosphatase de MTM1 dans l’organisation de réticulum sarcoplasmique, j’ai utilisé une approche in vivo avec des virus adéno-associé (AAV) pour moduler l’activité phosphatase en sur-exprimant MTM1 et sa forme phosphatase-inactive (MTM1-C375S) dans un muscle sauvage. L’observation des muscles transduits a dévoilé une implication de MTM1 dans le remodelage du réticulum sarcoplasmique et un rôle potentiel de PtdIns3P avec MTM1 dans la courbure des membranes du réticulum sarcoplasmique. Afin de comprendre l’importance de l’activité phosphatase dans le maintien du phénotype XLCNM, les muscles de souris Mtm1 KO ont été injectés avec ces AAVs contenant la forme active et inactive de MTM1 au moment de l’apparition des premiers signes de XLCNM. Étonnamment, la forme phosphatase-inactive(MTM1-C375S) a sauvé le phénotype de la souris Mtm1 KO de la même façon que la forme active, suggérant que l'activité de phosphatase de MTM1 n’est pas nécessaire pour le maintien de la structure intracellulaire des fibres du muscle adulte. Ces données suggèrent que MTM1 exerce une fonction phosphatase-indépendante dans le maintien de la structure musculaire, certainement via des interactions protéine-protéine, et une fonction phosphatase-dépendente dans le remodelage de la forme du réticulum sarcoplasmique dans le muscle squelettique. / Myotubularin (MTM1) is a phosphoinositide (PI) 3-phosphatase mutated in X-linked centronuclear myopathy (XLCNM), a rare congenital myopathy characterized by muscle weakness and abnormal positioning of nuclei in muscle fibers. MTM1 defines a large family of ubiquitously expressed catalytically active and inactive phosphatases. Active myotubularins dephosphorylate both phosphatidylinositol 3-phosphate [PtdIns3P] and 3,5-bisphosphate [PtdIns(3,5)P2] to PtdIns andPtdIns5P, respectively. The specific role of MTM1 and its PI phosphatase activity in muscle remains unknown. Comprehensive analysis of the protein unveiled the association of MTM1 with the sarcoplasmic reticulum (SR) at the triads. Characterization of Mtm1-KO mouse, which reproduce the XLCNM phenotype, revealed a defect of SR organization and shape. In order to gain insight into the involvement of MTM1 phosphatase activity on SR shape and organization, we employed an in vivo approach using Adeno-Associated Virus (AAV) to modulate the phosphatase activity by overexpressingMTM1 and its phosphatase inactive mutant in wild type muscle. The analysis of transduced muscle revealed the involvement of MTM1 in the SR remodeling and its potential role together with PtdIns3P in modulating membrane curvature. In order to understand the importance of the phosphatase activity in the generation of the XLCNM phenotype, Mtm1 KO mice were injected with AAV expressing the active form and the phosphatase inactive form. Surprisingly, both, the phosphatase active and the phosphatase inactive mutant corrected the Mtm1-KO mouse phenotype to a similar extent, thus suggesting that the PI-phosphatase activity of MTM1 is not essential for adult skeletal muscle maintenance. Our data indicates that MTM1 has a phosphatase-independent function in adult muscle structure maintenance and a phosphatase-dependent function in sarcoplasmic reticulum remodeling and shape in skeletal muscle.
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The Effects of XIAP Gene Therapy in a Murine Model of Leber’s Hereditary Optic Neuropathy and a Feline Model of Retinal DetachmentWassmer, Sarah January 2017 (has links)
In Canada alone, there were an estimated 800,000 visually impaired people in 2007, costing the federal government an annual amount of $15.8 billion in services, treatments and lost revenue. These costs are estimated to double by the year 2032, as the population ages. The leading causes of visual impairment and blindness is retinal degeneration, characterized by the progressive death of retinal cells. The research presented in this PhD thesis aimed to prevent retinal degeneration by over-expressing the X-linked Inhibitor of Apoptosis (XIAP) in retinal cells using plasmid and adeno-associated viral vectors. The work is divided into four sequential chapters targeted at developing an anti-apoptotic gene therapy strategy to prevent retinal cell death. The first chapter examines XIAP gene therapy in the treatment of Leber’s Hereditary Optic Neuropathy (LHON). In vitro studies using the 661W cone-photoreceptor cell line showed that XIAP over-expression significantly lowers cell death when 661W cells are exposed to a number of apoptotic stimuli. In a mouse model of Leber’s Hereditary Optic Neuropathy (LHON), XIAP expression in retinal ganglion cells (RGCs) protected the ultrastructure of the RGC axons within the optic nerve, in addition to providing evidence of functional protection. The second and third chapters further examine the potential for XIAP gene therapy in the treatment of retinal disease by developing an in vivo model of retinal detachment in cats, followed by evaluating the efficacy of XIAP gene therapy intervention. When XIAP was over-expressed in the photoreceptor cells, there was significant structural protection and trends in preservation of function in this model of degeneration. Finally, the fourth chapter explores an alternate method to viral gene therapy by evaluating the efficacy and toxicity of chitosan microparticles as a protein delivery system to the retina. Results show that chitosan microparticles are mucosal-adhesive and are non-toxic at low concentrations in vitro in 661W cells and in vivo in rats. This thesis work provides strong evidence that XIAP gene therapy is an effective method for preventing retinal degeneration, and works as a broad spectrum gene therapy strategy that can be applied to different forms of retinal degeneration.
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Effet de MRN, senseur des voies de réparation de l'ADN, sur la réplication et l'intégration de l'AAV en présence d'HSV-1 / Effect of the DNA repair sensor, MRN, on AAV replication and integration, in presence of HSV-1Millet, Rachel 15 December 2014 (has links)
Le parvovirus humain Adeno-Associé (AAV) est un Dependoparvovirus qui ne peut accomplir son cycle réplicatif qu’en présence d’un virus auxiliaire tel que l’Adénovirus (AdV) ou le virus de l’Herpès Simplex de type 1 (HSV-1). En absence de virus auxiliaire, l’AAV va persister sous forme épisomale ou intégrée. Cette intégration survient de façon préférentielle dans un locus spécifique, au site AAVS1, présent sur le chromosome 19 du génome humain.Des travaux précédents ont porté sur l’étude du contrôle de la réplication de l’AAV par les facteurs cellulaires de réparation des cassures d’ADN. En particulier, le complexe MRN (Mre11/Rad50/Nbs1), un senseur majeur des cassures de l’ADN double brin (CDB), a été montré comme pouvant inhiber les réplications virales de l’AAV et de l’AdV lors d’une co-Infection. L’AdV est capable de contrer cet effet en induisant la délocalisation et la dégradation de MRN. A l’opposé, MRN participe de façon positive à la réplication de l’HSV-1 et se retrouve localisé dans les centres de réplication viraux (CR) de l’AAV induits par HSV-1. Ceci nous a conduits à explorer plus en détail le rôle de ce complexe sur la réplication de l’AAV en présence d’HSV-1. Les résultats obtenus indiquent, qu’en absence de MRN, la réplication du génome de l’AAV est réduite de façon significative dans des cellules co-Infectées avec le virus HSV-1, sauvage ou muté pour son activité polymérase. Cette diminution est spécifique à l’AAV sauvage car aucune perturbation n’est observée sur la réplication des vecteurs AAV recombinants lorsque MRN est absent. La régulation positive de la réplication de l’AAV par MRN est dépendante de l’activité de pontage de l’ADN exercée par Rad50. De façon intéressante, l’absence de MRN inhibe également de façon significative l’intégration préférentielle de l’AAV au site AAVS1, que ce soit en absence ou en présence d’HSV-1.Ce travail de thèse suggère que le complexe MRN régulerait de façon différentielle la réplication de l’AAV en fonction du virus auxiliaire qui l’accompagne et identifie, pour la première fois, MRN comme un facteur clé pour l’intégration du génome de l’AAV au site AAVS1. / Adeno-Associated Virus (AAV) is a helper dependent Dependoparvovirus that requires co-Infection with adenovirus (AdV) or herpes simplex virus type 1 (HSV-1) to productively replicate. In the absence of the helper virus, AAV can persist in an episomal or integrated form. Integration occcurs preferentially at a specific locus called AAVS1 and based on human chromosome 19.Previous studies have analyzed the DNA damage response induced upon AAV replication to understand how it controls AAV replication. In particular, it was shown that the Mre11-Rad50-Nbs1 (MRN) complex, a major player of the DNA damage response induced by double-Stranded DNA breaks and stalled replication forks, could negatively regulate AdV and AAV replication during co-Infection. AdV counteracts this effect by inducing the delocalization and degradation of MRN. In contrast, MRN favors HSV-1 replication and our previous studies showed that it was recruited to AAV replication compartments that were induced in the presence of HSV-1. In this study we examined the role of MRN during AAV replication induced by HSV-1. Our results indicated that knockdown of MRN significantly reduced AAV DNA replication after co-Infection with polymerase deleted or wild type HSV-1. This reduction was specific of wild type AAV since it did not occur with recombinant AAV vectors. Positive regulation of AAV replication by MRN was dependent on its DNA tethering and nuclease activities. Importantly, knockdown of MRN could also negatively regulate AAV site-Specific integration within the human AAVS1 site, an event which occurred at a significant level during AAV replication induced by co-Infection with HSV-1. Altogether, this work demonstrates that MRN can differentially regulate AAV replication depending on the helper virus which is present and identifies a new function of this DNA repair complex during site-Specific integration of the AAV genome.
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Evaluation in vivo de protéines immunorégulatrices dérivées de CTLA-4 et de PD-L1 pour leur capacité à inhiber les réponses immunitaires dans le contexte de la thérapie génique musculaire par AAV / In-vivo evaluation of immunoregulatory proteins derived from CTLA-4 and PD-L1 for their capacity to inhibit immuno responses in a context of AAV muscle gene therapyDupaty, Léa 20 November 2018 (has links)
La thérapie génique consiste à introduire du matériel génétique dans des cellules dans l’objectif de traiter une pathologie. Le plus souvent, la thérapie génique s’effectue au moyen d’un vecteur viral, transportant le gène jusque dans les cellules cibles. Dans le cas des maladies monogéniques, l’adeno-associated virus (AAV) s’est imposé progressivement comme un vecteur de choix. Son absence de pathogénicité, son large tropisme et sa capacité à transduire des cellules quiescentes sont autant d’avantages comparés à d’autres vecteurs utilisés en thérapie génique. L’utilisation d’AAV est approuvé en Europe pour le traitement d’un déficit rare en lipoprotéine lipase et vient récemment d’être approuvé par les autorités américaines pour le traitement d’un déficit de la vision. Toutefois, les essais de thérapies géniques se heurtent souvent aux réponses immunitaires dirigées contre l’AAV. En effet, les différents composants de ce vecteur viral ont été identifiés comme pouvant déclencher des réponses immunitaires s’opposant à l’efficacité à long terme de la thérapie génique. De plus, la protéine transgénique peut s’avérer immunogène, ce qui conduit au déclenchement de réponses immunitaires, à la destruction des cellules transduites et in fine à l’échec de la thérapie génique. En clinique, des immunosuppresseurs sont utilisés pour palier à ses effets indésirables. Toutefois, de par leurs effets secondaires infectieux et tumorigènes, des stratégies visant plutôt à induire de la tolérance vis-à-vis de la protéine transgénique, associées à un bénéfice pour la santé des patients, se sont développées.L’objectif de ce travail de thèse a été d’implémenter une nouvelle stratégie visant à étudier l’effet immunorégulateur et tolérogène de protéines de fusion dérivées de CTLA-4/Fc et de PD-L1/Fc. Pour cela, nous avons utilisé un modèle murin récapitulant les réponses immunitaires induites par un AAV permettant l’expression d’une protéine modèle fortement immunogène, l’ovalbumine (Ova). Ensuite, des AAV codant pour les protéines au potentiel immunorégulateur ont été synthétisés et injectés aux souris conjointement à l’AAV-Ova. Cette stratégie d’immunorégulation vectorisée (VIR) nous a permis d’évaluer la capacité de chacune des protéines à moduler les réponses immunitaires dirigées contre l’Ova directement in vivo. Au total, ce travail a permis de mettre en évidence i) l’intérêt et les limites de la stratégie VIR, ii) celui du rôle délétère de CTLA-4/Fc au long terme sur les lymphocytes Tregs CD4+FoxP3+, périphériques et centraux, iii) et de démontrer l’intérêt de 2 nouvelles molécules dérivées PD-L1/Fc sur la persistance de l’Ova. / Gene therapy consist into introducing genetic material into cells to treat genetic disorders. Most gene therapies use viral vectors to carry the gene within target cells. In case of monogenic disorders, adeno-associated viruses (AAV) has become a vector of choice because of its lack of pathogenicity, its large tropism and its capacity to transduce quiescent cells. The use of AAV is approved in Europe to treat a rare lysosomal storage disease and has recently been approved by the FDA to treat a genetic cause of blindness. However, most clinical trials face immune responses directed against AAV components which may be highly immunogenic. This deleterious immunogenicity often lead to the trial failure. In addition, transgenic protein can also be immunogenic, aimaing to the destruction of transduced cells and ultimatly to gene therapy failure. In clinic, immunosuppressive drug remain the only option to counteract unwanted immune responses. These drugs possess infectious and tumorigenic side effects, therefore strategies aiming to rather capable to induce tolerance toward the transgenic protein are being developped and needed. The objectif of this work was to implement a new strategy aiming to study the immunoregulatory and tolerogenic effect of fusion proteins derived from CTLA-4 and PD-L1. We used a murin model recapitulating the immunes responses induced by an AAV coding for an immunogenic model protein, ovalbumin (Ova) presented in previous studies by our group and others. Then, we synthesized AAV coding for our newly designed immunoregulatory protein and injected them into mice along with AAV-Ova. This strategy of vectorized immunoregulation (VIR) allowed to evaluate the intrinsic capacity of each individual proteins to modulate immune responses against Ova directly in vivo. Eventually, this work allow to 1) assess the benefits and limits of the VIR strategy, 2) the deletrious long-term effects of CTLA-4/Fc on central and peripheral Tregs in mice, 3) to demonstrate the interest of new molecules specifically derived from PD-L1/Fc over the immune tolerance through the long-term persistance of Ova transgene.
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Ultrafast Multichannel Optogenetic Stimulation of the Auditory Pathway for Optical Cochlear ImplantsKeppeler, Daniel 17 December 2018 (has links)
No description available.
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