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Régulation transcriptionnelle du facteur de transcription spécifique des bâtonnets, Nrl / Transcriptional regulation of the rod-specific transcription factor, NrlKautzmann, Marie audrey 12 June 2012 (has links)
La leucine zipper de la rétine neurale (Nrl) joue un rôle central dans le développement et l'homéostasie des bâtonnets en activant I'expression de gènes tels que le photopigment Rhodopsine. Nrl est aussi associé à la Rétinite Pigmentaire, faisant ainsi de ce gène un modèle intéressant pour la compréhension des programmes contrôlant le développement et I'homéostasie des photorécepteurs.Ce travail de thèse vise à caractériser les mécanismes régulateurs de I'expression de Nr/ au cours du développement rétinien. L'électroporation in vivo de vecteurs rapporteurs dans des rétines de souris en développement, a révélé des séquences minimales de promoteur Nr/ nécessaires à une expression spécifique dans les photorécepteurs. Nous avons identifié RORI3 comme facteur requis pour cette expression, et montré que les facteurs OTX2, CRX et CREB s'accrochent aussi directement à des régions régulatrices particulières du promoteur. Nous avons construit un virus adéno-associé (AAV) contenant un promoteur minimal Nrl de 0.3 kb, et montré qu'il est adapté à la délivrance de gène spécifiquement dans les photorécepteurs.Nous avons montré que NRL, CRX et NR2E3, les régulateurs principaux de la Rhodopsine, ont une expression rythmique au cours de 24 h, et que l'expression cyclique de Nr/ peut être due à l'activation par RORp, un composant l'horloge circadienne. Enfin, nous avons identifié un nouveau facteur de transcription, NonO, au niveau de la région du promoteur proximal de la Rhodopsine, qui en combinaison avec NRL et CRX, active le promoteur de la Rhodopsine. L'invalidation de NonO au cours du développement rétinien a prouvé son implication pour le développement et I'homéostasie des bâtonnets. / The Neural Retina Leucine zipper transcription factor (Nrl) plays a central role in rod photoreceptor development and homeostasis, by activating the expression of rod-specific genes such as the visual photopigment, Rhodopsin. Nrlhave been also associated with Retinitis Pigmentosa, making this gene an interesting model for understanding genetic programs controlling photoreceptors development and homeostasis.This thesis work aimed at characterizing regulatory mechanisms of Nr/ expression during retinal development. Using in vivo electroporation of reporter vectors carrying distinct portions of Nrlpromoter into neonatal mouse retina, we identified minimal sequences required for expression photoreceptors-specific expression. We identified RORI3 as being required for this expression and showed that OTX2, CRX and CREB transcription factors also directly bind to the defined regulatory regions.We designed a novel adeno-associated virus (AAV) vector containing a minimal Nrl promoter fragment of 0.3 kb, and showed that it is well-suited for gene delivery specifically into photoreceptors.We also showed that NRL, CRX, and NR2E3, the main transcriptional regulators of Rhodopsin, display rhythmic expression over 24 h. and that Nrl might undergo cyclic activation by RORB which is part of the photoreceptor circadian clock. Finally, we investigated the role of a novel Rhodopsin transcriptional regulator, NonO, identified in theRhodopsin proximal promoter region. We demonstrated that NonO co-activates Rhodopsin promoter along with NRL and CRX. By knocking down this gene during retinal development we provided evidence for its role in rod development and homeostasis.
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Bothnia dystrophy, a clinical, genetical and electrophysiological studyBurstedt, Marie January 2003 (has links)
A high frequency of retinitis pigmentosa (RP) is found in Northern Sweden. In an inventory of autosomal recessive RP patients in Västerbotten County, a great number of cases with a unique phenotype was noticed, denoted Bothnia Dystrophy (BD). The aim of the study was to describe the phenotype, to determine the chromosomal location, and to identify the gene. Patients typically show night blindness from early childhood. Symptoms of defect macular function with a decrease of visual acuity can appear in early adulthood. The retinal fundus shows irregular white spots in a central, and parafoveal pattern along the arcades. Centrally areolar maculopathy develops and round circular atrophies are observed in the periphery. The disease was shown to be associated with a missense mutation in the RLBP1 gene resulting in an amino acid substitution (R234W) in the cellular retinaldehyde-binding protein (CRALBP). The R234W mutation was found in a homozygous state in 61 patients affected with BD. Ten patients were heterozygous for the R234W mutation, and presented a similar phenotype. No additional mutations in the coding sequence or exon-intron junctions were found. CRALBP is localised in retinal pigment epithelium (RPE), and Müller cells of the retina. In the RPE, CRALBP functions as a carrier protein for endogenous retinoids. Dark adaptometry and electrophysiologic testing showed an initial loss of rod function followed by a progressive reduction of the cone responses in older ages. A compromised rod function, dysfunction of the Müller cells, and indications of a disturbed function of the inner retina were found. With prolonged dark adaptation, a gradual increase in retinal sensitivity to light and an improvement of the ERG components occurred. The findings indicate a prolonged synthesis of photopigments, retardation of the visual process in the retinal pigment epithelium and a loss of retinal cells probably starting at a relative early age in BD. To evaluate the subjective visual function in BD patients, a battery of objective tests of visual function and composite score of the 25-item NEI-Visual Function Questionnaire (VFQ-25) were analyzed. We found that weighted distance logMAR visual acuity (WVA), had the strongest association with subjective visual function, and that there was a considerable loss of subjective and objective visual function with increasing age in BD patients. The prevalence of BD is as high as 1:3600 in Västerbotten County. The possibility that recycling of retinoids localized in the RPE might be impaired in BD might give future therapeutic possibilities. Due to the large and clinically well-characterized set of patients with this disease, they constitute a suitable study group.
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Crispr/cas9-mediated genome editing of human pluripotent stem cells to advance human retina regeneration researchLam, Phuong T. 03 December 2019 (has links)
No description available.
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Régulation transcriptionnelle du facteur de transcription spécifique des bâtonnets, NrlKautzmann, Marie Audrey 12 June 2012 (has links) (PDF)
La leucine zipper de la rétine neurale (Nrl) joue un rôle central dans le développement et l'homéostasie des bâtonnets en activant I'expression de gènes tels que le photopigment Rhodopsine. Nrl est aussi associé à la Rétinite Pigmentaire, faisant ainsi de ce gène un modèle intéressant pour la compréhension des programmes contrôlant le développement et I'homéostasie des photorécepteurs.Ce travail de thèse vise à caractériser les mécanismes régulateurs de I'expression de Nr/ au cours du développement rétinien. L'électroporation in vivo de vecteurs rapporteurs dans des rétines de souris en développement, a révélé des séquences minimales de promoteur Nr/ nécessaires à une expression spécifique dans les photorécepteurs. Nous avons identifié RORI3 comme facteur requis pour cette expression, et montré que les facteurs OTX2, CRX et CREB s'accrochent aussi directement à des régions régulatrices particulières du promoteur. Nous avons construit un virus adéno-associé (AAV) contenant un promoteur minimal Nrl de 0.3 kb, et montré qu'il est adapté à la délivrance de gène spécifiquement dans les photorécepteurs.Nous avons montré que NRL, CRX et NR2E3, les régulateurs principaux de la Rhodopsine, ont une expression rythmique au cours de 24 h, et que l'expression cyclique de Nr/ peut être due à l'activation par RORp, un composant l'horloge circadienne. Enfin, nous avons identifié un nouveau facteur de transcription, NonO, au niveau de la région du promoteur proximal de la Rhodopsine, qui en combinaison avec NRL et CRX, active le promoteur de la Rhodopsine. L'invalidation de NonO au cours du développement rétinien a prouvé son implication pour le développement et I'homéostasie des bâtonnets.
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Localizing Structural and Functional Damage in the Neural Retina of Adolescents with Type 1 DiabetesTan, Wylie 27 November 2012 (has links)
Studies demonstrate neuro-retinal damage in patients with diabetes and no clinically visible diabetic retinopathy. It is unknown which retinal regions are most vulnerable to diabetes. We hypothesized that the standard and slow-flash (sf-) multifocal electroretinogram (mfERG) and adaptive optics (AO) imaging will localize retinal regions of vulnerability.
Fifty-five adolescents with diabetes and 54 controls underwent mfERG testing to isolate predominately retinal bipolar cell activity and sf-mfERG testing to isolate three oscillatory potentials (OPs) from intraretinal amacrine and interplexiform cells. Greatest mfERG delays were in the superior temporal quadrant and at 5°-10° eccentricity. Greatest sf-mfERG delays were found at different eccentricities for each OP.
Twenty adolescents with diabetes and 14 controls underwent AO imaging. No significant differences in cone photoreceptor density were found; however, patients showed a trend towards reduced density in the superior nasal region.
Inner retinal structures may be more susceptible to damage by diabetes than outer retinal structures.
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Localizing Structural and Functional Damage in the Neural Retina of Adolescents with Type 1 DiabetesTan, Wylie 27 November 2012 (has links)
Studies demonstrate neuro-retinal damage in patients with diabetes and no clinically visible diabetic retinopathy. It is unknown which retinal regions are most vulnerable to diabetes. We hypothesized that the standard and slow-flash (sf-) multifocal electroretinogram (mfERG) and adaptive optics (AO) imaging will localize retinal regions of vulnerability.
Fifty-five adolescents with diabetes and 54 controls underwent mfERG testing to isolate predominately retinal bipolar cell activity and sf-mfERG testing to isolate three oscillatory potentials (OPs) from intraretinal amacrine and interplexiform cells. Greatest mfERG delays were in the superior temporal quadrant and at 5°-10° eccentricity. Greatest sf-mfERG delays were found at different eccentricities for each OP.
Twenty adolescents with diabetes and 14 controls underwent AO imaging. No significant differences in cone photoreceptor density were found; however, patients showed a trend towards reduced density in the superior nasal region.
Inner retinal structures may be more susceptible to damage by diabetes than outer retinal structures.
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