Finding the cell intrinsic mechanisms of resistance to oncogenesis
| Main Author: | |
|---|---|
| Publication Date: | 2024 |
| Format: | Master thesis |
| Language: | eng |
| Source: | Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) |
| Download full: | http://hdl.handle.net/10773/43727 |
Summary: | Even though cancer is an ever-increasing presence in our daily lives, there are still features about cancer development that remain elusive. Some cell types are more prone to develop hyperplasia, while others present an intrinsic resistance to oncogenic stimuli. Drosophila melanogaster eye imaginal discs are a good model system to study cell sensibility to oncogenes, as cell populations in distinct differentiation states co-exist in the same tissue. Overexpression of a constitutively active oncogene (Ykiˢᴬ) promotes overgrowth in the more differentiated domains of the eye disc (Morphogenetic furrow and differentiated domain), while unspecialized progenitor cells seem to be irresponsive to the oncogenic stimuli. The main goal of this work is to understand the factors governing progenitor cells’ resistance to Ykiˢᴬ stimuli. Our hypothesis postulates the existence of a progenitor specific repressive factor that might inhibit cellular response to Ykiˢᴬ. To verifie this hypothesis, we tested whether the overexpression of progenitor specific factors could suppress Ykiˢᴬ mediated overgrowth in the eye disc domains responsive to this oncogene (MF and differentiated domains). Interestingly, we found two genes (Upd3 and Optix) that could suppress Ykiˢᴬ overgrowth in one of the differentiated domains but synergized with Ykiˢᴬ and enhanced the overgrowth in the other domain, reinforcing the idea that the context dictates the cellular response to oncogenes. Moreover, additional cellular constituents might play a role in preparing the cells for mitogenic signals. We have found that genes involved in mitochondrial homeostasis suppressed the overgrowth induced by Ykiˢᴬ and that the progenitor domain presents a less developed mitochondrial network. These results suggest that the mitochondrial organization might contribute to regulate cellular response to Ykiˢᴬ activation. Our findings provide new clues about the cellular and molecular mechanisms underlying the cellular predisposition to oncogenic transformation. |
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Finding the cell intrinsic mechanisms of resistance to oncogenesisOncogenesisCell differentiationGene overexpressionEye developmentEven though cancer is an ever-increasing presence in our daily lives, there are still features about cancer development that remain elusive. Some cell types are more prone to develop hyperplasia, while others present an intrinsic resistance to oncogenic stimuli. Drosophila melanogaster eye imaginal discs are a good model system to study cell sensibility to oncogenes, as cell populations in distinct differentiation states co-exist in the same tissue. Overexpression of a constitutively active oncogene (Ykiˢᴬ) promotes overgrowth in the more differentiated domains of the eye disc (Morphogenetic furrow and differentiated domain), while unspecialized progenitor cells seem to be irresponsive to the oncogenic stimuli. The main goal of this work is to understand the factors governing progenitor cells’ resistance to Ykiˢᴬ stimuli. Our hypothesis postulates the existence of a progenitor specific repressive factor that might inhibit cellular response to Ykiˢᴬ. To verifie this hypothesis, we tested whether the overexpression of progenitor specific factors could suppress Ykiˢᴬ mediated overgrowth in the eye disc domains responsive to this oncogene (MF and differentiated domains). Interestingly, we found two genes (Upd3 and Optix) that could suppress Ykiˢᴬ overgrowth in one of the differentiated domains but synergized with Ykiˢᴬ and enhanced the overgrowth in the other domain, reinforcing the idea that the context dictates the cellular response to oncogenes. Moreover, additional cellular constituents might play a role in preparing the cells for mitogenic signals. We have found that genes involved in mitochondrial homeostasis suppressed the overgrowth induced by Ykiˢᴬ and that the progenitor domain presents a less developed mitochondrial network. These results suggest that the mitochondrial organization might contribute to regulate cellular response to Ykiˢᴬ activation. Our findings provide new clues about the cellular and molecular mechanisms underlying the cellular predisposition to oncogenic transformation.Apesar do cancro ser uma presença cada vez mais assídua no nosso dia-a-dia, ainda há muitos aspetos sobre o seu desenvolvimento que continuam elusivos. Alguns tipos de células são mais suscetíveis ao desenvolvimento de hiperplasias, ao passo que outros apresentam uma resistência intrínseca a estímulos oncogénicos. Discos imaginais do olho da Drosophila melanogaster são um bom sistema modelo para estudar sensibilidade a oncogenes, pois populações celulares em estados de diferenciação distintos co-existem no mesmo tecido. Sobreexpressão de um oncogene constitutivamente ativo (Ykiˢᴬ) promove sobrecrescimento nos domínios mais diferenciados do disco do olho (Sulco Morfogenético (MF) e domínio diferenciado), enquanto células progenitoras não especializadas aparentam ser irresponsivas ao estímulo oncogénico. O objetivo principal deste trabalho é entender os fatores que governam a resistência das células progenitoras ao estímulo de Ykiˢᴬ. A nossa hipótese propõe a existência de um fator repressivo específico da região progenitora que pode inibir a resposta a celular a Ykiˢᴬ. Para verificar esta hipótese, nós testamos se a sobreexpressão de fatores progenitores específicos consegue suprimir o sobrecrescimento mediado por Ykiˢᴬ nos domínios do disco do olho responsivos (MF e domínio diferenciado). Encontramos dois genes (Upd3 and Optix) que conseguiram suprimir o sobrecrescimento de Ykiˢᴬ num dos domínios diferenciados mas que sinergizaram com Ykiˢᴬ e aumentaram o sobrecrescimento no outro domínio, reforçando a ideia que o contexto dita a reposta celular a oncogenes. Além disso, constituintes celulares adicionais podem desempenhar um papel na preparação celular a sinais mitogénicos. Descobrimos que genes envolvidos na homeostasia mitochondrial suprimiram o sobrecrescimento induzido por Ykiˢᴬ e que o domínio progenitor apresenta uma rede mitocondrial menos desenvolvida. Estes resultados sugerem que a organização mitochondrial pode contribuir para a regulação da resposta celular à ativação de Ykiˢᴬ As nossas descobertas providenciam novas pistas acerca dos mecanismos celulares e moleculares subjacentes à predisposição celular a transformações oncogénicas.2026-12-12T00:00:00Z2024-12-04T00:00:00Z2024-12-04info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisapplication/pdfhttp://hdl.handle.net/10773/43727engNóbrega, Henrique Miguel Ribeiro deinfo:eu-repo/semantics/embargoedAccessreponame:Repositórios Científicos de Acesso Aberto de Portugal (RCAAP)instname:FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiainstacron:RCAAP2025-02-03T01:46:15Zoai:ria.ua.pt:10773/43727Portal AgregadorONGhttps://www.rcaap.pt/oai/openaireinfo@rcaap.ptopendoar:https://opendoar.ac.uk/repository/71602025-05-28T19:46:22.264082Repositórios Científicos de Acesso Aberto de Portugal (RCAAP) - FCCN, serviços digitais da FCT – Fundação para a Ciência e a Tecnologiafalse |
| dc.title.none.fl_str_mv |
Finding the cell intrinsic mechanisms of resistance to oncogenesis |
| title |
Finding the cell intrinsic mechanisms of resistance to oncogenesis |
| spellingShingle |
Finding the cell intrinsic mechanisms of resistance to oncogenesis Nóbrega, Henrique Miguel Ribeiro de Oncogenesis Cell differentiation Gene overexpression Eye development |
| title_short |
Finding the cell intrinsic mechanisms of resistance to oncogenesis |
| title_full |
Finding the cell intrinsic mechanisms of resistance to oncogenesis |
| title_fullStr |
Finding the cell intrinsic mechanisms of resistance to oncogenesis |
| title_full_unstemmed |
Finding the cell intrinsic mechanisms of resistance to oncogenesis |
| title_sort |
Finding the cell intrinsic mechanisms of resistance to oncogenesis |
| author |
Nóbrega, Henrique Miguel Ribeiro de |
| author_facet |
Nóbrega, Henrique Miguel Ribeiro de |
| author_role |
author |
| dc.contributor.author.fl_str_mv |
Nóbrega, Henrique Miguel Ribeiro de |
| dc.subject.por.fl_str_mv |
Oncogenesis Cell differentiation Gene overexpression Eye development |
| topic |
Oncogenesis Cell differentiation Gene overexpression Eye development |
| description |
Even though cancer is an ever-increasing presence in our daily lives, there are still features about cancer development that remain elusive. Some cell types are more prone to develop hyperplasia, while others present an intrinsic resistance to oncogenic stimuli. Drosophila melanogaster eye imaginal discs are a good model system to study cell sensibility to oncogenes, as cell populations in distinct differentiation states co-exist in the same tissue. Overexpression of a constitutively active oncogene (Ykiˢᴬ) promotes overgrowth in the more differentiated domains of the eye disc (Morphogenetic furrow and differentiated domain), while unspecialized progenitor cells seem to be irresponsive to the oncogenic stimuli. The main goal of this work is to understand the factors governing progenitor cells’ resistance to Ykiˢᴬ stimuli. Our hypothesis postulates the existence of a progenitor specific repressive factor that might inhibit cellular response to Ykiˢᴬ. To verifie this hypothesis, we tested whether the overexpression of progenitor specific factors could suppress Ykiˢᴬ mediated overgrowth in the eye disc domains responsive to this oncogene (MF and differentiated domains). Interestingly, we found two genes (Upd3 and Optix) that could suppress Ykiˢᴬ overgrowth in one of the differentiated domains but synergized with Ykiˢᴬ and enhanced the overgrowth in the other domain, reinforcing the idea that the context dictates the cellular response to oncogenes. Moreover, additional cellular constituents might play a role in preparing the cells for mitogenic signals. We have found that genes involved in mitochondrial homeostasis suppressed the overgrowth induced by Ykiˢᴬ and that the progenitor domain presents a less developed mitochondrial network. These results suggest that the mitochondrial organization might contribute to regulate cellular response to Ykiˢᴬ activation. Our findings provide new clues about the cellular and molecular mechanisms underlying the cellular predisposition to oncogenic transformation. |
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2024 |
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2024-12-04T00:00:00Z 2024-12-04 2026-12-12T00:00:00Z |
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