Global ETD Search

11	Molecular investigations of age-related macular degeneration Whitmore, Steven Scott 01 May 2015 (has links) An estimated 170.38 million elderly adults suffer from some stage of age-related macular degeneration (AMD) worldwide, a vision defect that damages the macula, the central region of the retina required for sharp vision, such as reading, driving, and recognizing faces. Genetic factors strongly modify one's risk for developing AMD, and most of these genetic changes are found in genes of the alternative complement cascade, a component of the immune system. The lack of effective AMD prevention calls for the identification of druggable molecules and pathways. In my research, I use microarrays and RNA sequencing to investigate the events occurring in early AMD, the reasons for macular susceptibility to AMD, and the events triggering aberrant blood vessel growth in late AMD. First, I found that genes associated with endothelial cells tend to be expressed at lower levels in human donors eyes affected by early AMD than in control eyes, concordant with previous studies indicating loss of choriocapillaris in early AMD. Second, I found that molecular signals across regions of the retina, retinal pigment epithelium, and choroid generally mirror the distribution of cell types in these regions. Third, I found that damage to cultured primate chorioretinal endothelial cells by the end product of complement activation, membrane attack complex, produces an environment conducive to choroidal neovascularization, a symptom of late-stage AMD. I propose a model that bridges genetic variants in the complement cascade genes with blood vessel loss in early AMD and the pathological growth of blood vessels in late AMD. publicabstract age-related macular degeneration choroid gene expression retina retinal pigment epithelium RNA sequencing Genetics
12	Classification of Genotype and Age of Eyes Using RPE Cell Size and Shape Yu, Jie 18 December 2012 (has links) Retinal pigment epithelium (RPE) is a principal site of pathogenesis in age-related macular de-generation (AMD). AMD is a main source of vision loss even blindness in the elderly and there is no effective treatment right now. Our aim is to describe the relationship between the morphology of RPE cells and the age and genotype of the eyes. We use principal component analysis (PCA) or functional principal component method (FPCA), support vector machine (SVM), and random forest (RF) methods to analyze the morphological data of RPE cells in mouse eyes to classify their age and genotype. Our analyses show that amongst all morphometric measures of RPE cells, cell shape measurements (eccentricity and solidity) are good for classification. But combination of cell shape and size (perimeter) provide best classification. Principal component analysis Functional principal component analysis Support vector machine Random forest Retinal pigment epithelium
13	Functions of Rx in early vertebrate ocular development Zamora, Brian G. January 2009 (has links) Thesis (Ph. D.)--West Virginia University, 2009. / Title from document title page. Document formatted into pages; contains x, 148 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 136-148).
14	Effects of Disease-Causing Mutations Associated with Five Bestrophinopathies on the Localization and Oligomerization of Bestrophin-1 Johnson, Adiv Adam January 2014 (has links) Mutations in BEST1, the gene encoding for Bestrophin-1 (Best1), cause five, clinically distinct inherited retinopathies: Best vitelliform macular dystrophy (BVMD), adult-onset vitelliform macular dystrophy (AVMD), autosomal recessive bestrophinopathy (ARB), autosomal dominant vitreoretinochoroidopathy (ADVIRC), and retinitis pigmentosa (RP). Little is known regarding how BEST1 mutations cause disease and why mutations cause multiple disease phenotypes. Within the eye, Best1 is a homo-oligomeric, integral membrane protein that is exclusively localized to the basolateral plasma membrane of the retinal pigment epithelium (RPE). Here, it regulates intracellular Ca2+ signaling and putatively mediates anion transport. Since defects in localization and oligomerization are known to underlie other channelopathies, we investigated how mutations causal for BVMD, AVMD, ARB, ADVIRC, and RP impact the localization and oligomerization of Best1. We generated replication-defective adenoviral vectors encoding for WT and 31 mutant forms of Best1 associated with these five diseases and expressed them in confluent, polarized Madin-Darby canine kidney and/or RPE cells. Localization was assessed via immunofluorescence and confocal microscopy. Oligomerization was examined using live-cell fluorescence resonance energy transfer (FRET) as well as reciprocal co-immunoprecipitation experiments. We report that all 31 BVMD, AVMD, ARB, ADVIRC, and RP mutants tested can reciprocally co-immunoprecipitate with and exhibit comparable FRET efficiencies to WT Best1, indicative of unimpaired oligomerization. While all RP and ADVIRC mutants were properly localized to the basolateral plasma membrane, many but not all AVMD, ARB, and BVMD mutants were mislocalized to intracellular compartments. When co-expressed with WT Best1, mislocalized mutants predominantly co-localized with WT Best1 in intracellular compartments. Studies involving four ARB truncation mutants reveal that the first 174 amino acids are sufficient to mediate oligomerization with WT Best1 and that amino acids 472-585 are not necessary for proper trafficking. We conclude that, although mislocalization is a common result of BEST1 mutation, it is not an absolute feature of any individual bestrophinopathy. Moreover, we show that some recessive mutants mislocalize WT Best1 when co-expressed, indicating that mislocalization cannot, on its own, generate a disease phenotype, and that the absence of Best1 at the plasma membrane is well tolerated. fhRPE Fluorescence resonance energy transfer MDCK Retinal pigment epithelium Vitelliform macular dystrophy Physiological Sciences Bestrophin
15	Aquaporin-1 Mediated Fluid Movement in Ocular Tissues Baetz, Nicholas William January 2009 (has links) Aquaporin proteins significantly increase water permeability across tissues and cell membranes. Ocular tissues, including the trabecular meshwork (TM) and retinal pigment epithelium (RPE), are especially reliant on aquaporin mediated water movement for ocular homeostasis. Even though bulk fluid movement is paracellular through the TM and transcellular through the RPE, both express aquaporin-1 (AQP1). The role and regulation of AQP1 as it relates to homeostasis in different ocular tissues is not well understood. I hypothesized that ocular tissues respond to external mechanical and molecular cues by altering AQP1 expression and function in order to regulate ocular fluid movement and maintain homeostasis.To test how AQP1 function is altered in response to external cues in order to maintain tissue-specific homeostasis, I addressed the following two aims. The first aim was directed at determining how mechanical strain, an external stimulus that routinely affects TM function, influences AQP1 expression and TM homeostasis. Primary cultures of human TM were subjected to static and cyclic stretch and then analyzed for changes in AQP1 expression by western blot and cell damage by activity of lactate dehydrogense (LDH) in conditioned media. The results show AQP1 expression and LDH release significantly increased with static stretch. Analysis of LDH release with respect to AQP1 expression revealed an inverse linear relationship (rÂ² = 0.7780).The second aim was directed at characterizing signaling mechanisms responsible for regulating fluid transport in RPE, previously shown to be dependent upon AQP1. I treated primary cultures of human RPE with either atrial natriuretic peptide (ANP) or 8-bromo-cyclic guanosine monophosphate (8-Br-cGMP) in the presence or absence of Anantin (ANP-receptor inhibitor) or H-8 (Protein Kinase G inhibitor). The results show that ANP and 8-Br-cGMP significantly increased apical to basal net fluid movement (p < 0.05, n = 3). Inhibition of these effects was successful with Anantin treatment but not with application of H-8.The data presented demonstrate a novel role of protection for AQP1 in TM, and also expand upon cGMP dependent regulation of RPE fluid transport. The combined studies indicate tissue specific AQP1 regulation may offer new avenues to target water movement in treatment of ocular pathologies. Aquaporin-1 Mechanical Strain Natriuretic Peptide Ocular Fluid Movement Retinal Pigment Epithelium Trabecular Meshwork
16	O estresse nitrosativo na patogênese da retinopatia diabética = implicações na barreira hemato-retiniana externa e possíveis alvos terapêuticos = Nitrosative stress in the pathogenesis of diabetic retinopathy: implications in the outer blood retinal barrier and possible therapeutics targets / Nitrosative stress in the pathogenesis of diabetic retinopathy : implications in the outer blood retinal barrier and possible therapeutics targets Rosales, Mariana Aparecida Brunini, 1983- 24 August 2018 (has links) Orientadores: Jacqueline Mendonça Lópes de Faria, José Butori Lopes de Faria / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-24T10:41:17Z (GMT). No. of bitstreams: 1 Rosales_MarianaAparecidaBrunini_D.pdf: 28953374 bytes, checksum: e9a2824bad639c7cbd3628c24c4308ad (MD5) Previous issue date: 2014 / Resumo: A patogênese da retinopatia diabética (RD) está associada ao estresse nitrosativo. Alterações na barreira hemato-retiniana (BHR) externa, formada pelas células do epitélio pigmentar da retina (EPR), estão associadas às fases precoces da RD e podem acarretar no desequilíbrio da manutenção dos fotorreceptores e consequentemente promoverem mudanças nas células neuronais da retina. O estresse nitrosativo como conseqüência do aumento da produção de óxido nítrico (NO¿) produzido pela super expressão da óxido nítrico sintetase induzida (iNOS) esteve presente em todas as camadas da retina, inclusive no EPR em condições de RD experimental in vivo precoce ou na linhagem celular humana do EPR (ARPE-19) expostas à alta concentração de glicose. O tratamento com agentes químicos como a S-nitrosoglutationa (GSNO), ou naturais (cacau enriquecido com polifenol) atuaram em diferentes vias de inibição da iNOS, prevenindo o estresse nitrosativo. Para o estudo in vivo com o colírio de GSNO (artigo I) foram utilizados animais espontaneamente hipertensos (SHR) com 4 semanas de idade. O diabetes (DM) foi induzido por STZ. Após a confirmação do DM (48 horas), os animais foram divididos em 6 grupos: controles (CTs) veículo; GSNO 900nm e GSNO 10?m ou DMs veículo; GSNO 900nm e GSNO 10?m. O efeito do tratamento com colírio de GSNO foi dependente da presença ou ausência da condição do DM. Nos animais CT, o GSNO atuou como um agente nitrosativo e nos animais DM preveniu o aumento da expressão da iNOS, preservando a retina funcional. Os estudos in vitro, demonstraram que o efeito do GSNO foi deletério ou protetor dependente da concentração de glicose. Nas células ARPE-19 expostas a condições normais de glicose, o tratamento promoveu um aumento na produção de NO¿ sem aumentar a expressão de iNOS e nas células sob alta glicose induziu uma modificação pós-translacional de proteína, a S-glutationilação da iNOS prevenindo o estresse nitrosativo. No estudo do cacau (artigo II), foi avaliado in vitro (ARPE-19 exposta a alta concentração de glicose) o seu efeito protetor dependente da concentração de polifenóis. Para isso foram testadas duas formulações de cacau que diferiram somente na concentração de polifenol: 0,5% para o cacau com baixo teor de polifenol e 60,5% para o cacau com alto teor de polifenol. A epicatequina (EC), encontrada na concentração de 12% no cacau com alto teor de polifenol foi tão eficaz quanto o próprio e esteve envolvida no controle da expressão da iNOS através da estimulação do receptor ?-opióide (DOR) diminuindo os níveis de TNF-?. A modulação da iNOS, preveniu a S-nitrosilação da caveolina-1 (CAV-1) e diminuição da expressão das junções intercelulares claudina-1 e ocludina através da prevenção da interação CAV-1?junções. Em ambos os estudos, o alvo terapêutico foi a iNOS em duas diferentes modalidades: modificação pós-translacional de proteína e modulação do TNF-? via DOR no EPR em modelos experimentais de RD. Os tratamentos apresentados neste trabalho demonstraram a iNOS como alvo terapêutico e mostraram-se eficaz em conter danos funcionais e morfológicos promovidas pela situação de mimetismo do DM no EPR demonstrando o importante papel da iNOS no desenvolvimento da RD / Abstract: The pathogenesis of diabetic retinopathy (DR) is associated with nitrosative stress. Changes in outer blood-retinal barrier (BRB), formed by retinal pigment epithelium cells (RPE) are associated in the early stages of DR and can cause imbalance in the maintenance of photoreceptors and thereby cause changes on retinal neuronal cells. The nitrosative stress as a result of increased production of nitric oxide (NO) produced by overexpression of nitric oxide synthase (iNOS) was present in all layers of the retina and mainly in RPE cells in early in vivo experimental DR or in human RPE cell line (ARPE-19) exposed to high glucose condition. Therapy with chemical agents such as S-Nitrosoglutathione (GSNO) or natural compounds (enriched cocoa polyphenol) acted in different pathways of iNOS inhibition, preventing nitrosative stress. For the in vivo study with GSNO eye drops (article I), it were used spontaneously hypertensive rats (SHR) rats with 4 week old. Diabetes (DM) was induced by streptozotocin (STZ). After DM confirmation (48 hours), the animals were divided into 6 groups: controls (CTs) vehicle; GSNO 900nm and GSNO 10?m or DMs vehicle; GSNO 900nm e GSNO 10?m. The effects of treatments were dependent on glucose concentration. In CT animals, GSNO acted as a nitrosative agent and in DM rats prevented iNOS overexpression, preserving the retina function. In vitro study showed that GSNO protective or deleterious effects were dependent on the glucose concentration. In ARPE-19 cells exposed to normal glucose, the treatment promoted an increase of NO¿ production without increase iNOS expression and in cells under high glucose (HG) condition induced post-translational protein modification, S-glutationylation of iNOS, preventing nitrosative stress. In the study with cocoa (article II), it was evaluated its protective effect dependent on concentration of polyphenols in ARPE-19 cells under HG condition. For this study, the composition of cocoa was the same in both preparations with the only difference in the amounts of polyphenol, 0.5% for low polyphenol cocoa (LPC) and 60.5% for high polyphenol cocoa (HPC). Epicatechin (EC), found in 12% of HPC was similarly protective compare to HPC and it was involved in controlling iNOS expression by stimulation of the delta opioid receptor decreasing TNF- ? levels. The modulation of iNOS prevented S-nitrosylation of caveolin-1 (CAV-1) and decreased expression of claudin-1 and occluding tight junctions by preventing CAV-1/junctions interactions. The treatments presented here showed iNOS as a therapeutic target containing functional and morphological changes promoted by DM milieu in RPE showing the important role of iNOS in the development of DR / Doutorado / Clinica Medica / Doutora em Clínica Médica Retinopatia diabética Epitélio pigmentado da retina Óxido nítrico sintase Diabetic retinopathy Retinal pigment epithelium Nitric oxide synthase
17	Effects of bioflavonoids on cultured human retinal pigment epithelial cells Chen, Rui 09 June 2016 (has links) The thesis describes the effects of various plant flavonoids (curcumin, epigallocatechin-3-gallate [EGCG], luteolin, apigenin, myricetin, quercetin, and cyanidin) on the physiological properties and viability of cultured human retinal pigment epithelial (RPE) cells. It is described that, with the exception of EGCG, all flavonoids tested decrease dose-dependently the RPE cell proliferation, migration, and secretion of VEGF. Luteolin, apigenin, myricetin, and quercetin decreased the viability of RPE cells at higher concentrations, by triggering cellular necrosis. Curcumin decreased the viability of RPE cells via induction of early necrosis and delayed apoptosis. The cytotoxic effect of curcumin involved activation of caspase-3 and calpain, intracellular calcium signaling, mitochondrial permeability, oxidative stress, and increased phosphorylation of p38 MAPK and decreased phosphorylation of Akt protein. Myricetin caused caspase-3 independent RPE cell necrosis mediated by free radical generation and activation of calpain and phospholipase A2. The myricetin- and quercetin-induced RPE cell necrosis was partially inhibited by necrostatin-1, a blocker of programmed necrosis. The author concludes that the intake of curcumin, luteolin, apigenin, myricetin, and quercetin as supplemental cancer therapy or in the treatment of retinal diseases should be accompanied by careful monitoring of the retinal function. Possible beneficial effects of EGCG and cyanidin in the treatment of retinal diseases should be examined in further investigations. info:eu-repo/classification/ddc/610 ddc:610 human retinal pigment epithelial cells bioflavonoids
18	Expression of the Cyclin-Dependent Kinase Inhibitor p27Kip1 by Developing Retinal Pigment Epithelium Defoe, Dennis M., Levine, Edward M. 01 October 2003 (has links) The cyclin-dependent kinase (Cdk) inhibitor p27Kip1 contributes to the timing of cell cycle withdrawal during development and, consequently, in organogenesis. Within the retina, this effector protein is up-regulated during the birth of neuronal and glial cells [Dev. Biol. (2000) 299]. However, its expression within the retinal pigment epithelium (RPE), a supporting cell layer that is essential for neural retina development and function, has not previously been reported. We show that p27Kip1 protein expression in the RPE occurs in two phases: an up-regulation during mid-to late embryonic stages and a down-regulation during the subsequent postnatal period. In the early phase of up-regulation, an inverse relationship is seen between expression of p27Kip1 and PCNA, an indicator of cycling cells. During both up-and down-regulation, the change in spatial pattern of expression proceeds in a central to peripheral manner, with p27Kip1 up-regulation paralleling retinal maturation. These data suggest that this cell cycle regulator may be an important factor controlling the timing of RPE cell cycle withdrawal. cell division cell proliferation eye Kip1 Mitf PCNA retina development RPE retinal pigment epithelium Biomedical Sciences
19	A systemically-delivered stem cell therapy for dry age related macular degeneration Pay, Samantha Louise 27 June 2017 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Dry age-related macular degeneration (AMD) is a progressive neurodegenerative disorder characterized by geographical atrophy of the retinal pigment epithelium (RPE), causing irreversible central vision loss. Systemically-delivered bone marrow-derived cells (BMDCs), programmed to RPE-like cells via expression of human RPE65, regenerate damaged RPE and preserve vision in murine models of retinal degeneration. RPE65 rapidly activates adenylate cyclase (AC), which then activates endogenous Rpe65 and RPE-associated marker Cralbp. Previous studies expressed RPE65 from an integrating lentiviral vector (ILV), which is an unnecessary safety risk due to the potential for insertional mutagenesis, as long- term expression of RPE65 is not required for BMDC programming. Here, we developed a 3rd generation integrase-defective lentiviral vector (IDLV) for programming both murine and human BMDCs to RPE-like cells, reducing insertional mutagenesis risk and expanding the protocol to include human cells. We enhanced IDLV3-RPE65 infection of murine and human BMDCs by preloading concentrated vector on RetroNectin at MOI 50, and infecting with low-speed centrifugation, increasing RPE65 mRNA levels from ~12-fold to ~25-fold (p<0.05). IDLV3-RPE65 infection initiates expression of endogenous Rpe65 mRNA expression in murine BMDC and Cralbp/CRALBP mRNA in both murine and human BMDCs, indicating programming to RPE-like cells. Inhibiting AC in RPE65infected BMDCs abrogated expression of the endogenous genes, confirming the role of AC activation in programming. Critically, IDLV3-RPE65-infected murine BMDCs are recruited to and incorporate into to the RPE layer, and preserve vision in murine models of retinal degeneration. We conclude that BMDCs programmed with IDLV3-RPE65 successfully prevent retinal degeneration progression and are appropriate for testing in human cells, with a view to move into human clinical trial for the treatment of dry AMD. This approach significantly increases the safety of the therapy and is, to the best of our knowledge, the first application of a single IDLV in the generation of therapeutic cells from adult stem cells. Integrase defective vectors Lentiviral vectors Regenerative medicine Retina Retinal Pigment Epithelium Stem cells
20	Critical Functionality Effects from Storage Temperature on Human Induced Pluripotent Stem Cell-Derived Retinal Pigment Epithelium Cell Suspensions / ヒトiPS細胞由来網膜色素上皮細胞懸濁液の非凍結条件下における保存温度の影響 Kitahata, Shohei 25 March 2019 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第21685号 / 医博第4491号 / 京都大学大学院医学研究科医学専攻 / (主査)教授辻川明孝, 教授高橋淳, 教授井上治久 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM Induced pluripotent stem cells Retinal pigment epithelium Temperature Cell preservation Anoikis 490

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