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Controlled ablation of rod photoreceptors in transgenic Xenopus laevisHamm, Lisa 05 1900 (has links)
Retinal degeneration is the progressive loss of neurons lining the posterior surface of the eye. Loss of a certain group of neurons called rod photoreceptors can occur as the result of genetic mutation. In humans, and in mammalian models of retinal degeneration, the death of these cells is permanent, and often followed by cone photoreceptor death, which leads to blindness.
As a step towards understanding the implications of rod cell death in the retina, we generated transgenic X. laevis that expressed a novel form of caspase-9, with binding domains specific to the compound AP20187. We treated these transgenic animals with AP20187 and caused rod cell death by apoptosis in tadpoles and post metamorphic animals. Peak rod apoptosis occurred two days after drug exposure. We adapted an electroretinography apparatus, and protocols designed for mammals to measure functional changes in X. laevis rod and cone derived responses. We observed delayed secondary cone cell dysfunction after induced rod cell apoptosis, which was subsequently restored.
These animals provide a simple and clinically relevant model of diseases like Retinitis pigmentosa, in which we will be able to probe in detail the mechanisms that govern cone cell dysfunction as a consequence of rod apoptosis. The unique ability of this species to recover from this insult will provide clues towards initiating similar recovery in humans.
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Cell replacement and ex vivo gene therapy for photoreceptor regenerationCramer, Alona January 2015 (has links)
Photoreceptor degeneration due to retinitis pigmentosa (RP) is a primary cause of inherited retinal blindness. Photoreceptor cell-replacement therapies may hold the potential for repair in a degenerate retina, by reinstating light sensitive cells to project and form connections with downstream retinal cells and finally the visual cortex. Patient-specific induced pluripotent stem cells (iPSc) could provide an autologous source of cells to replace lost tissue. However, the use of patient-derived iPSc would require that the disease-causing gene mutation be corrected in cells before transplantation. Ex vivo gene therapy of mouse photoreceptor precursor (PhRP) cells and subretinal transplantation of treated cells are here studied in a disease-specific animal model of RP; rhodopsin was ectopically expressed ex vivo in rod precursor cells, sourced from a transgenic model lacking the rhodopsin gene. Treated rod precursors were here transplanted in mice of the same disease model and are shown to gain expression of rhodopsin and mature to regenerate the absent outer nuclear layer (ONL) of degenerate mice. Visual function, assayed in the same animals before and after transplantation, was restored in animals which had no rod function at baseline. Delivery of the rhodopsin gene by both an adeno associated viral (AAV) vector and a non-viral minicircle DNA vector developed here for ex vivo gene delivery to rod photoreceptor precursors showed comparable efficiency and sustained expression. The non-viral minicircle method provides a novel system for efficient photoreceptor therapy and may offer a platform of genetic treatment of photoreceptor degenerations in which the gene in focus exceeds the size limit for packaging in AAV. Human embryonic stem cell (ESC) and human iPSC-derived PhRPs were also transplanted in mice with complete ONL degeneration and were able to reform the lost photoreceptor layer and mature in the host retina. Human cells developed light-sensitive outer segments, and reconnect with host neurons downstream to improve vision in previously blind mice. Efficient transplantation of ex vivo genetically treated rod precursors and human stem cell-derived PhRPs in animal models of progressive RP may provide a clinically-relevant model for the investigation of cell-replacement therapy for photoreceptor regeneration in retinal disease.
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Controlled ablation of rod photoreceptors in transgenic Xenopus laevisHamm, Lisa 05 1900 (has links)
Retinal degeneration is the progressive loss of neurons lining the posterior surface of the eye. Loss of a certain group of neurons called rod photoreceptors can occur as the result of genetic mutation. In humans, and in mammalian models of retinal degeneration, the death of these cells is permanent, and often followed by cone photoreceptor death, which leads to blindness.
As a step towards understanding the implications of rod cell death in the retina, we generated transgenic X. laevis that expressed a novel form of caspase-9, with binding domains specific to the compound AP20187. We treated these transgenic animals with AP20187 and caused rod cell death by apoptosis in tadpoles and post metamorphic animals. Peak rod apoptosis occurred two days after drug exposure. We adapted an electroretinography apparatus, and protocols designed for mammals to measure functional changes in X. laevis rod and cone derived responses. We observed delayed secondary cone cell dysfunction after induced rod cell apoptosis, which was subsequently restored.
These animals provide a simple and clinically relevant model of diseases like Retinitis pigmentosa, in which we will be able to probe in detail the mechanisms that govern cone cell dysfunction as a consequence of rod apoptosis. The unique ability of this species to recover from this insult will provide clues towards initiating similar recovery in humans. / Medicine, Faculty of / Graduate
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Knockout of ccr2 alleviates photoreceptor cell death in a model of retinitis pigmentosa / ccr2遺伝子のノックアウトは網膜色素変性モデルマウスでの視細胞変性を軽減するGuo, Congrong 23 January 2015 (has links)
Final publication is available at http://dx.doi.org/10.1016/j.exer.2012.08.013. Congrong Guo, Atsushi Otani, Akio Oishi, Hiroshi Kojima, Yukiko Makiyama, Satoko Nakagawa, Nagahisa Yoshimura, Knockout of ccr2 alleviates photoreceptor cell death in a model of retinitis pigmentosa, Experimental Eye Research, Volume 104, November 2012, Pages 39-47, ISSN 0014-4835 / 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第18680号 / 医博第3952号 / 新制||医||1007(附属図書館) / 31613 / 京都大学大学院医学研究科医学専攻 / (主査)教授 長澤 丘司, 教授 伊藤 壽一, 教授 長田 重一 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM
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Population genetic studies of retinitis pigmentosaBoughman, Joann Ashley January 1978 (has links)
This document only includes an excerpt of the corresponding thesis or dissertation. To request a digital scan of the full text, please contact the Ruth Lilly Medical Library's Interlibrary Loan Department (rlmlill@iu.edu).
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Pathogenetic mechanisms of the retinal degeneration: neuronal degeneration in retinitis pigmentosa. / CUHK electronic theses & dissertations collectionJanuary 1999 (has links)
by Zhang Chun. / Thesis (Ph.D.)--Chinese University of Hong Kong, 1999. / Includes bibliographical references (p. 154-197). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstract in Chinese and English.
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Genetics of ABCA4-associated Diseases and Retinitis PigmentosaXie, Yajing January 2016 (has links)
Inherited retinal dystrophies encompass a broad group of genetic disorders affecting visual functions in as high as 1 in 3,000 individuals around the world. Common symptoms include loss of central, periphery, or night visions, and in severe cases progression to complete blindness. Syndromic forms also exist involving abnormalities in other parts of the body. Currently, more than 250 genes representing a wide variety of functional roles have been shown to be responsible for the disease phenotypes. Moreover, mutations in the same gene sometimes cause different phenotypes while mutations in multiple genes can give rise to the same clinical subtype, further demonstrating the level of complexity in these disorders. Such genetic heterogeneity has substantially complicated the process of pinpointing precise genetic causes underlying these conditions.
The goal of my thesis research is to clarify the genetic causes underlying retinal dystrophies, with a primary focus on phenotypes resembling ABCA4-associated diseases and retinitis pigmentosa in both syndromic and non-syndromic forms. Recent advances in the next-generation sequencing (NGS), the high-throughput, ‘deep’ sequencing technology, have enabled several novel genes to be identified, or found new mutations in known genes. Nevertheless, a substantial fraction of unsolved cases still remain. The primary work in this thesis involves utilizing NGS, particularly whole-exome sequencing, to identify disease-causal mutations in families where at least one parent and affected or unaffected siblings are available. Determining all genetic variation underlying retinal diseases is necessary for precise molecular genetic diagnosis and improved prognosis of these conditions.
The first part of my thesis highlights the complexity in genetic inheritance of diseases caused by mutations in the ABCA4 gene. In a substantial fraction of Stargardt Disease cases with only one mutation in the ABCA4 coding region, deep sequencing of the entire locus identified the second mutation in the intronic region of the gene in 10% of cases. The genetic heterogeneity of ABCA4 was further demonstrated by the identification of 4 different pathogenic ABCA4 mutations and 4 phenotypes in a single family. These findings epitomized the extremely complex mutational spectrum underlying the ABCA4-associated diseases and suggested thorough sequencing of variations in the entire genomic locus, including copy number variant analysis.
In the second part of my thesis, exome-sequencing has led to findings of phenotypic expansions in known disease gene, and in one case the precise molecular diagnosis resulted in an immediate treatment. A family with 2 affected siblings presented novel phenotype of a macular dystrophy caused by mutations in CRB1. In another family where 9 members were affected with late-onset BEM, a mutation was found in CRX given incomplete penetrance. In one family with an affected adult, two well-documented mutations in MMACHC - a gene causal for a potentially debilitating disorder of cobalamin deficiency, were found to segregate with bull’s eye maculopathy (BEM) and minimal systemic features in the proband. Early diagnosis in this patient resulted in hydroxycobalamin treatment for her condition, and possibly an improvement of her systemic prognosis. Together, these findings revealed that clinical phenotype can be very divergent from those described, and only genetic testing can unequivocally determine the cause of a disease.
The third part of my thesis work highlights first-time discovery, and co-discovery of new genes associated with retinal diseases. A new form of syndromic RP was investigated in a family presenting a previously undescribed constellation of phenotypic features. Exome sequencing analysis of 3 affected siblings and their unaffected parents revealed deleterious mutations in the RDH11 gene. In another family where 2 affected siblings presented with a remarkably similar phenotype, no mutations in RDH11 were detected. However, analysis of absence of heterozygosity revealed causal mutations in the CWC27 gene. In the search for novel genes in cone-rod dystrophy cases negative of ABCA4 mutations, WES identified new rare, deleterious mutations in RAB28 in two families of Spanish descent. These findings revealed novel genetic causes underlying hereditary retinal diseases, and demonstrated the effectiveness of WES analysis in rare disease gene discovery.
In summary, this work represents a comprehensive mutational analysis of inherited retinal dystrophies with complex genotype and phenotype correlations, utilizing next-generation DNA sequencing in large study cohorts. The power of whole-exome sequencing for gene discovery was well demonstrated by unequivocally solving close to 50% of all patients examined in this study. Establishing precise correlations between genotype and clinical phenotype is important for facilitating patient care, counseling, and therapeutic intervention for inherited diseases.
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Mellan Hopp och FörtvivlanHansson, Fredrik, Campos, Kim January 2007 (has links)
<p>Detta är en studie om hur det är att studera på Högskolan i Halmstad när man har någon form av funktionsnedsättning. Vi har i denna studie tittat på hur deras funktionsnedsättning har påverkat deras liv allt ifrån när de fick sina diagnoser tills det att de började studera. Vi har även velat få fram hur deras funktionsnedsättning har påverkat deras studier i den bemärkelse att dem har fått stöd och olika hjälpmedel för att klara av dessa. I denna studie så har vi också tagit reda på hur mycket tid och energi som studenterna får lägga ner på sitt skolarbete, men också hur allt detta har påverkat deras sociala tillvaro i och utanför skolan. Vi har även försökt ta fasta på vad studenterna upplever som problematiskt under sin studietid, och tittat på om deras funktionsnedsättning varit en orsakande faktor i detta.</p>
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Characterization of RPGR Variants and Their Role in Inherited Retinal DegenerationWright, Rachel 2011 August 1900 (has links)
Retinitis Pigmentosa (RP) refers to a group of inherited retinal dystrophies resulting from progressive photoreceptor degeneration and accumulation of intra-retinal pigment-like deposits. X-linked forms of RP are frequently caused by mutations in the retinitis pigmentosa GTPase regulator (RPGR) gene. The RPGR transcript undergoes complex alternative splicing to express both constitutive (RPGR^ex1-19) and RPGR^ORF15 variants. Although RPGR is thought to play a role in ciliary function, little is known about the physiological significance of expressing two distinct groups of variants. This study compares Rpgr^ex1-19 and Rpgr^ORF15 expression in developing photoreceptors using immunoblot analysis and immunohistochemistry, assesses ciliary affinity in adult photoreceptors by protein fractionation, examines Rpgr function in transgenic mouse models and identifies a novel Rpgr^ORF15 binding partner using a yeast two-hybrid screen.
Our data reveal that Rpgr expression undergoes dynamic temporal regulation during retinal development and indicates variability in ciliary localization of Rpgr variants in adult photoreceptors. Utilization of distinct Rpgr variants during stages of photoreceptor development suggests independent roles. Further examination of Rpgr function using transgenic mouse models over-expressing either the Rpgr^ex1-19 or Rpgr^ORF15 variant reveals that despite normal ciliary localization, an excess of RPGR^ex1-19 results in atypical accumulation of Rpgr in photoreceptor outer segments, abnormal photoreceptor morphology and severe retinal degeneration. The data indicate that the constitutive variant cannot substitute for Rpgr function in photoreceptors and suggest that proper maintenance of the Rpgr isoform ratio is critical to photoreceptor viability.
Using mouse retinal cDNA in a yeast two-hybrid screen with the C-terminus of the Rpgr^ORF15 variant, we identified a novel variant of whirlin as an interacting partner. Mutations in whirlin result in Usher syndrome, a disorder characterized by hearing loss and RP. RT-PCR and immunoblot analysis were used to confirm the presence of selected candidate partners in the retina and interaction was confirmed by pull-down assays and co-immunoprecipitation from retinal homogenate. Immunohistochemistry showed co-localization of RPGR and whirlin within photoreceptors and identified isoform specific localization of whirlin. These findings indicate that whirlin binds Rpgr^ORF15 and that this novel isoform may be required for photoreceptor function, thus providing a potential mechanism for the RP phenotype observed in Usher syndrome.
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Mellan Hopp och FörtvivlanHansson, Fredrik, Campos, Kim January 2007 (has links)
Detta är en studie om hur det är att studera på Högskolan i Halmstad när man har någon form av funktionsnedsättning. Vi har i denna studie tittat på hur deras funktionsnedsättning har påverkat deras liv allt ifrån när de fick sina diagnoser tills det att de började studera. Vi har även velat få fram hur deras funktionsnedsättning har påverkat deras studier i den bemärkelse att dem har fått stöd och olika hjälpmedel för att klara av dessa. I denna studie så har vi också tagit reda på hur mycket tid och energi som studenterna får lägga ner på sitt skolarbete, men också hur allt detta har påverkat deras sociala tillvaro i och utanför skolan. Vi har även försökt ta fasta på vad studenterna upplever som problematiskt under sin studietid, och tittat på om deras funktionsnedsättning varit en orsakande faktor i detta.
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