Characterization of cellular organelles and the endo-lysosomal pathway in choroideremia patient cells
Autor(a) principal: | |
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Data de Publicação: | 2022 |
Tipo de documento: | Dissertação |
Idioma: | eng |
Título da fonte: | Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) |
Texto Completo: | http://hdl.handle.net/10362/145823 |
Resumo: | Choroideremia (CHM) is a form of retinal degeneration, with an X-linked pattern of inheritance caused by mutations in the CHM gene that codifies the Rab Escort Protein 1 (REP1). Given its genetic component and the closed system of the eye, CHM is an excellent target for gene therapy. However, this type of treatment still presents its challenges, thus it is important to uncover new molecular mechanisms of the disease, with the hopes of finding new therapeutic targets. The retinal pigment epithelium (RPE) consists of a monolayer of cells, localized between the choroid and the photoreceptors. The RPE is functionally diverse, performing tasks such as the daily phagocytosis and degradation of photoreceptor outer segments (POS), secretion of growth factors and transport of nutrients and metabolites. The REP1 protein is responsible for the geranylgeranylation of Rab GTPases, a post-translational modification that facilitates the binding of these small GTPases to membranes and therefore, exert their role in the regulation of membrane traffic. CHM patients have been shown to have RPE dysfunction; accumulation of unprocessed POS accompanied by a reduced degradation capacity and a decrease in phagosomal acidity. With this project we intended to make a full characterization of cellular organelles and pathways, to dissect new uncharacterized cellular defects, with a focus on the endo-lysosomal pathway, as well as the impact of unprocessed POS accumulation in CHM RPE cells. To carry out our objective we used two different in vitro RPE cell models: differentiated RPE from human induced pluripotent stem cells from both healthy and CHM patient donors, hiPSc-RPE, and a commonly used immortalized RPE cell line, ARPE-19 where we used CRISPR/Cas9 to generate a CHM KO line. Characterization of the endo-lysosomal pathway revealed an increase in the number of LAMP1+ and CD63+ vesicles in both hiPSc-RPE and ARPE-19 CHM cell models, suggesting an increase in the number of both lysosomes and multivesicular bodies (MVBs), respectively. Western blot analysis of CHM hiPSc-RPE whole cell lysates revealed an increase in (inactive) procathepsin D and L, suggesting an impairment in the delivery of the immature form of these antibodies cathepsin forms to their proper cellular compartments, pointing to a targeting dysfunction within the endo-lysosomal pathway. Additionally, in ARPE-19 CHM cells, after a single pulse of POS, a significant accumulation of autofluorescent granules (AFGs) was observed, verified at both 24h- and 72h- post feeding resulting from incomplete digestion of POS. Furthermore, hiPSc-RPE CHM cells revealed an increase in cell size as well as a decrease in polarization, as analysed by a decrease in the transepithelial electrical resistance (TER), suggesting a dysfunction in the establishment of a tight monolayer, this evidence should be further analysed. Overall, this work provides novel evidence of cellular dysfunction in CHM cells, specifically on the endo-lysosomal pathway, as well as POS incorporation and degradation. We also show key differences between two cellular models of RPE, describing advantages and disadvantages of each model for the use of different assays and technical approaches. In the future, we aim to achieve optimized protocols for hiPSc-RPE to overcome technical challenges and make hiPSc-RPE an even better model of human RPE to investigate the molecular and cellular mechanisms of choroideremia as well as other diseases of the RPE. |
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Characterization of cellular organelles and the endo-lysosomal pathway in choroideremia patient cellsChoroideremiaRetinal Pigment EpitheliumPhotoreceptor outer segmentshuman induced Pluripotent Stem CellARPE-19endocytic lysosomal pathwayDomínio/Área Científica::Ciências MédicasChoroideremia (CHM) is a form of retinal degeneration, with an X-linked pattern of inheritance caused by mutations in the CHM gene that codifies the Rab Escort Protein 1 (REP1). Given its genetic component and the closed system of the eye, CHM is an excellent target for gene therapy. However, this type of treatment still presents its challenges, thus it is important to uncover new molecular mechanisms of the disease, with the hopes of finding new therapeutic targets. The retinal pigment epithelium (RPE) consists of a monolayer of cells, localized between the choroid and the photoreceptors. The RPE is functionally diverse, performing tasks such as the daily phagocytosis and degradation of photoreceptor outer segments (POS), secretion of growth factors and transport of nutrients and metabolites. The REP1 protein is responsible for the geranylgeranylation of Rab GTPases, a post-translational modification that facilitates the binding of these small GTPases to membranes and therefore, exert their role in the regulation of membrane traffic. CHM patients have been shown to have RPE dysfunction; accumulation of unprocessed POS accompanied by a reduced degradation capacity and a decrease in phagosomal acidity. With this project we intended to make a full characterization of cellular organelles and pathways, to dissect new uncharacterized cellular defects, with a focus on the endo-lysosomal pathway, as well as the impact of unprocessed POS accumulation in CHM RPE cells. To carry out our objective we used two different in vitro RPE cell models: differentiated RPE from human induced pluripotent stem cells from both healthy and CHM patient donors, hiPSc-RPE, and a commonly used immortalized RPE cell line, ARPE-19 where we used CRISPR/Cas9 to generate a CHM KO line. Characterization of the endo-lysosomal pathway revealed an increase in the number of LAMP1+ and CD63+ vesicles in both hiPSc-RPE and ARPE-19 CHM cell models, suggesting an increase in the number of both lysosomes and multivesicular bodies (MVBs), respectively. Western blot analysis of CHM hiPSc-RPE whole cell lysates revealed an increase in (inactive) procathepsin D and L, suggesting an impairment in the delivery of the immature form of these antibodies cathepsin forms to their proper cellular compartments, pointing to a targeting dysfunction within the endo-lysosomal pathway. Additionally, in ARPE-19 CHM cells, after a single pulse of POS, a significant accumulation of autofluorescent granules (AFGs) was observed, verified at both 24h- and 72h- post feeding resulting from incomplete digestion of POS. Furthermore, hiPSc-RPE CHM cells revealed an increase in cell size as well as a decrease in polarization, as analysed by a decrease in the transepithelial electrical resistance (TER), suggesting a dysfunction in the establishment of a tight monolayer, this evidence should be further analysed. Overall, this work provides novel evidence of cellular dysfunction in CHM cells, specifically on the endo-lysosomal pathway, as well as POS incorporation and degradation. We also show key differences between two cellular models of RPE, describing advantages and disadvantages of each model for the use of different assays and technical approaches. In the future, we aim to achieve optimized protocols for hiPSc-RPE to overcome technical challenges and make hiPSc-RPE an even better model of human RPE to investigate the molecular and cellular mechanisms of choroideremia as well as other diseases of the RPE.A coroideremia (CHM) é uma forma de degeneração da retina, com um padrão de transmissão ligado ao cromossoma X, causada por mutações no gene CHM que codifica a Rab escort protein 1 (REP1). Devido ao seu componente génico e ao sistema fechado presente no olho, a CHM é um excelente alvo para terapia génica. No entanto, este tratamento apresenta desvantagens, sendo da maior importância decifrar potenciais mecanismos moleculares tendo em vista a descoberta de novos alvos terapêuticos. O epitélio pigmentado da retina (RPE) consiste numa monocamada de células localizadas entre a coroide e os fotorreceptores. O RPE é funcionalmente diverso, apresentando como principais funções a fagocitose e degradação diária dos segmentos externos dos fotorreceptores (POS), a secreção de fatores de crescimento e o transporte de nutrientes e metabolitos. A proteína REP1 é responsável por uma modificação pós-traducional nas proteínas Rab GTPases que facilita a ligação das proteínas Rab a membranas biológicas, de forma a exercer o seu papel na regulação do tráfico celular. Dados prévios revelam que pacientes com CHM podem apresentar defeitos no epitélio pigmentado da retina, acumulação de POS não processados acompanhados de uma redução da capacidade degradativa, e uma diminuição da acidez dos fagossomas. Com este projeto, pretendemos efetuar uma caracterização total dos organelos celulares e de vias de sinalização, com o intuito de decifrar novos defeitos celulares, com um foco na via endocítica-lisosomal. Além disso tivemos também o objetivo de analisar o impacto da acumulação de POS não processados em células RPE CHM. Com esse propósito, foram empregues dois modelos diferentes de RPE in vitro: RPE diferenciado a partir de células humanas com pluripotência induzida de dadores saudáveis e pacientes, hiPSc-RPE, e uma linha celular imortalizada, ARPE-19, onde se recorreu à técnica CRISPR/Cas9 para gerar uma linha knockout para o gene da CHM. A caracterização da via endo-lisosomal revelou um aumento no número de vesículas LAMP1+ e CD63+ em ambos os modelos de CHM, hiPSc-RPE e ARPE-19, sugerindo, respetivamente, um aumento de lisossomas e corpos multivesiculares (MVBs). Análises de western blot de células hiPSc-RPE CHM, revelaram um aumento dos níveis de expressão de pro-catepsina (inativa) D e L, indicando uma disfunção na distribuição das formas imaturas de catepsina para os respetivos compartimentos, onde se desencadeia a sua ativação. Adicionalmente, em células CHM ARPE-19, após um único pulso de POS, verificou-se uma acumulação significativa de grânulos autofluorescentes a 24h e 72h após o estímulo, sendo estas resultante de uma digestão incompleta de POS, que modela a lipofuscina in vivo. Além disso, células CHM hiPSc-RPE revelaram um aumento de tamanho e uma diminuição no seu nível de polarização, de acordo com análises da resistência elétrica transepitelial (TER), o que sugere uma disfunção no estabelecimento de uma monocamada coesa. Contudo, estas evidências devem ser analisadas mais a fundo. Em suma, este trabalho providenciou novas evidências relativamente a fenótipos celulares de estruturas pertencentes à via endo-lisosomal, e também relativos à incorporação e degradação de POS. Também demonstrámos diferenças chave entre os dois modelos de RPE, descrevendo vantagens e desvantagens de cada um dos modelos em diferentes ensaios e abordagens técnicas. Como perspetiva futura, pretendemos otimizar protocolos para a diferenciação de células hiPSc-RPE de forma a ultrapassar desafios técnicos, e tornar estas células num modelo ainda mais fidedigno de RPE de forma a investigar os mecanismos moleculares e celulares de coroideremia.Lopes-da-Silva, MafaldaRUNCoelho, Rita Alexandre2022-11-222025-11-22T00:00:00Z2022-11-22T00:00:00Zinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10362/145823TID:203105460enginfo:eu-repo/semantics/embargoedAccessreponame:Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos)instname:Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãoinstacron:RCAAP2024-03-11T05:26:28Zoai:run.unl.pt:10362/145823Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireopendoar:71602024-03-20T03:52:16.695052Repositório Científico de Acesso Aberto de Portugal (Repositórios Cientìficos) - Agência para a Sociedade do Conhecimento (UMIC) - FCT - Sociedade da Informaçãofalse |
dc.title.none.fl_str_mv |
Characterization of cellular organelles and the endo-lysosomal pathway in choroideremia patient cells |
title |
Characterization of cellular organelles and the endo-lysosomal pathway in choroideremia patient cells |
spellingShingle |
Characterization of cellular organelles and the endo-lysosomal pathway in choroideremia patient cells Coelho, Rita Alexandre Choroideremia Retinal Pigment Epithelium Photoreceptor outer segments human induced Pluripotent Stem Cell ARPE-19 endocytic lysosomal pathway Domínio/Área Científica::Ciências Médicas |
title_short |
Characterization of cellular organelles and the endo-lysosomal pathway in choroideremia patient cells |
title_full |
Characterization of cellular organelles and the endo-lysosomal pathway in choroideremia patient cells |
title_fullStr |
Characterization of cellular organelles and the endo-lysosomal pathway in choroideremia patient cells |
title_full_unstemmed |
Characterization of cellular organelles and the endo-lysosomal pathway in choroideremia patient cells |
title_sort |
Characterization of cellular organelles and the endo-lysosomal pathway in choroideremia patient cells |
author |
Coelho, Rita Alexandre |
author_facet |
Coelho, Rita Alexandre |
author_role |
author |
dc.contributor.none.fl_str_mv |
Lopes-da-Silva, Mafalda RUN |
dc.contributor.author.fl_str_mv |
Coelho, Rita Alexandre |
dc.subject.por.fl_str_mv |
Choroideremia Retinal Pigment Epithelium Photoreceptor outer segments human induced Pluripotent Stem Cell ARPE-19 endocytic lysosomal pathway Domínio/Área Científica::Ciências Médicas |
topic |
Choroideremia Retinal Pigment Epithelium Photoreceptor outer segments human induced Pluripotent Stem Cell ARPE-19 endocytic lysosomal pathway Domínio/Área Científica::Ciências Médicas |
description |
Choroideremia (CHM) is a form of retinal degeneration, with an X-linked pattern of inheritance caused by mutations in the CHM gene that codifies the Rab Escort Protein 1 (REP1). Given its genetic component and the closed system of the eye, CHM is an excellent target for gene therapy. However, this type of treatment still presents its challenges, thus it is important to uncover new molecular mechanisms of the disease, with the hopes of finding new therapeutic targets. The retinal pigment epithelium (RPE) consists of a monolayer of cells, localized between the choroid and the photoreceptors. The RPE is functionally diverse, performing tasks such as the daily phagocytosis and degradation of photoreceptor outer segments (POS), secretion of growth factors and transport of nutrients and metabolites. The REP1 protein is responsible for the geranylgeranylation of Rab GTPases, a post-translational modification that facilitates the binding of these small GTPases to membranes and therefore, exert their role in the regulation of membrane traffic. CHM patients have been shown to have RPE dysfunction; accumulation of unprocessed POS accompanied by a reduced degradation capacity and a decrease in phagosomal acidity. With this project we intended to make a full characterization of cellular organelles and pathways, to dissect new uncharacterized cellular defects, with a focus on the endo-lysosomal pathway, as well as the impact of unprocessed POS accumulation in CHM RPE cells. To carry out our objective we used two different in vitro RPE cell models: differentiated RPE from human induced pluripotent stem cells from both healthy and CHM patient donors, hiPSc-RPE, and a commonly used immortalized RPE cell line, ARPE-19 where we used CRISPR/Cas9 to generate a CHM KO line. Characterization of the endo-lysosomal pathway revealed an increase in the number of LAMP1+ and CD63+ vesicles in both hiPSc-RPE and ARPE-19 CHM cell models, suggesting an increase in the number of both lysosomes and multivesicular bodies (MVBs), respectively. Western blot analysis of CHM hiPSc-RPE whole cell lysates revealed an increase in (inactive) procathepsin D and L, suggesting an impairment in the delivery of the immature form of these antibodies cathepsin forms to their proper cellular compartments, pointing to a targeting dysfunction within the endo-lysosomal pathway. Additionally, in ARPE-19 CHM cells, after a single pulse of POS, a significant accumulation of autofluorescent granules (AFGs) was observed, verified at both 24h- and 72h- post feeding resulting from incomplete digestion of POS. Furthermore, hiPSc-RPE CHM cells revealed an increase in cell size as well as a decrease in polarization, as analysed by a decrease in the transepithelial electrical resistance (TER), suggesting a dysfunction in the establishment of a tight monolayer, this evidence should be further analysed. Overall, this work provides novel evidence of cellular dysfunction in CHM cells, specifically on the endo-lysosomal pathway, as well as POS incorporation and degradation. We also show key differences between two cellular models of RPE, describing advantages and disadvantages of each model for the use of different assays and technical approaches. In the future, we aim to achieve optimized protocols for hiPSc-RPE to overcome technical challenges and make hiPSc-RPE an even better model of human RPE to investigate the molecular and cellular mechanisms of choroideremia as well as other diseases of the RPE. |
publishDate |
2022 |
dc.date.none.fl_str_mv |
2022-11-22 2022-11-22T00:00:00Z 2025-11-22T00:00:00Z |
dc.type.status.fl_str_mv |
info:eu-repo/semantics/publishedVersion |
dc.type.driver.fl_str_mv |
info:eu-repo/semantics/masterThesis |
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masterThesis |
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publishedVersion |
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http://hdl.handle.net/10362/145823 TID:203105460 |
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eng |
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