Global ETD Search

31	Déficit en Ikaros : de LAL-T à la maladie auto-immune / Ikaros deficiency : from T -ALL to auto-immune disease Macias Garcia, Beatriz Alejandra 08 October 2012 (has links) Le facteur de transcription Ikaros est un régulateur essentiel de la lymphopoïèse. Ikaros est nécessaire à la différenciation des lymphocytes B et joue aussi un rôle important dans la suppression des LAL-T. Contrairement aux souris mutantes nulles pour Ikaros, les souris mutantes hypomorphes IkL/L développent des lymphocytes B matures après la naissance. Avec l’âge, toutes les souris IkL/L développent des leucémies T Notch dépendantes avec des mutations similaires à celles trouvées chez les patients atteints de LAL-T. La souris IkL/L est donc un excellent modèle pour étudier l’activation des cellules B matures et la pathogenèsedes LAL-T. Nous avons montré que la délétion spécifique du promoteur et de l’exon 1 de Notch1 dans les cellules T conduit à l’activation de promoteurs cryptiques dans la région 3’ du gène, qui génèrent des transcrits codant pour des protéines Notch1 constitutivement actives qui accélèrent la leucémogenèse dans la souris IkL/L. De plus, nous mettrons en évidence l’existence de cellules initiatrices de leucémie dans les tumeurs IkL/L puisque nous avons trouvé que des cellules ayant la capacité de s’auto-renouveler représentent 1 sur 500. Enfin, nous avons montré que les cellules B IkL/L ont une activation excessive d’ERK et dep38 après la stimulation du BCR, ce qui résulte en une hyper-prolifération et une production d’autoanticorps liés au lupus systémique érythémateux. Nos résultats suggèrent qu’Ikaros est un régulateur négatif de l’activation des lymphocytes B. / The Ikaros transcription factor is a critical regulator of lymphopoeisis. Ikaros is needed for the differentiation of B cell and plays an important role in tumor suppression in T cells. Contrary to the other Ikaros targeted mutant mice, the IkL/L mouse develops mature B cells after birth. With age, it develops Notch dependent tumors with similar mutations as thosefound in human T cell acute lymphoblastic leukemia (T-ALL). Thus, the IkL/L mouse is an excellent model to study mature B cell activation and T-ALL tumor development. Here, we have shown that the deletion of the promoter and exon1 of the Notch1 gene in IkL/L T cells activates a cryptic promoter in the 3’ region which leads to the production of truncated, constitutively activated Notch1 proteins that accelerate tumorigenesis in the IkL/L mice. Moreover, we give evidence for the existence of LICs in the IkL/L tumors as we have found a specific subpopulation of cells with a frequency of 1 in 500 which show self-renewal capacity. In addition, we demonstrated that some tumor cells have the ability to efflux the Hoechst dye and that this side population is enriched in quiescent cells. Finally, we elucidate that IkL/L B cells display an enhanced activation of ERK and p38 after BCR stimulation that results in hyper-proliferation and the production of autoantibodies relatedto systemic lupus erythematosus (SLE). Our results suggest that Ikaros is a negative regulator of B cell activation. Ikaros Leucémies T Notch dépendantes Autoimmunité Ikaros Leukemia Notch Leukemia initiating cells Autoimmunity 572.8 571.96
32	Development of in silico models to support repeat dose safety assessment of cosmetic ingredients to humans Nelms, Mark David January 2015 (has links) Cosmetic products are used daily on a global scale. Therefore, it is necessary to ensure that these products, and their ingredients, do not cause any adverse human health effects under normal usage; to ensure this, risk assessment must be performed. Traditionally, risk assessments are performed in vivo, i.e. conducting tests on animals using the chemical(s) of interest. However, over the past decade there has been an increase in research into the use of alternative toxicity testing methods, such as in vitro, in chemico and in silico. Whilst there are a number of alternative techniques that may be employed, no one method can be used in isolation as a full replacement for an in vivo test. Therefore, the Adverse Outcome Pathway (AOP) concept is an emerging method by which information provided by the in vitro, in chemico, and in silico approaches can be utilised in an integrated testing strategy. The AOP concept links an upstream molecular initiating event to a downstream adverse outcome, via a number of testable key events. In silico approaches utilise computers in order to develop predictive models. Within the AOP paradigm in silico method work to identify the key features of a chemical (structural alerts) that induce a molecular initiating event (MIE). A collection of structural alerts that induce the same MIE are considered to be an in silico profiler. Typically, these in silico profilers are supported by associated toxicity, or mechanistic, information pertaining to the ability to induce a specific MIE. The overall aim of the work presented in this thesis was the development of an in silico profiler, based upon the hypothesis that the induction of mitochondrial toxicity is a key driver of organ-level toxicity. The research presented herein demonstrates the ability to identify, and develop, two types of structural alert; mechanism- and chemistry-based; that pertain to mitochondrial toxicity. Due to the differences inherent in these two types of alert they should be utilised for different purposes. As such, the main usage of the mechanism-based alerts should be in the formation of chemical categories and subsequent data gap filling via read-across. In comparison, the chemistry-based alerts should be utilised for the purposes of prioritising chemicals, within an inventory, that should undergo additional testing in in vitro and/or in chemico assays. It is envisaged that these two types of structural alerts could be used to profile chemical inventories as part of a tiered testing strategy. Therefore, the future work discussed in detail the need to expand the chemical space covered by the alerts. Additional future work involves utilising experimental information from in vitro/in chemico assays to verify the mechanism-based alerts and to refine the chemistry-based alerts by discerning mechanistic information associated with them. Furthermore, it is envisaged that these alerts could be incorporated into predictive tools, such as the OECD QSAR Toolbox, to enable their use for screening and prioritisation purposes. 500
33	Hinder och underlättande faktorer för initiering till fysisk träning efter hjärtinfarkt Andersson, Andreas, Rydmark, Fredrika January 2017 (has links) Background: Myocardial infarction is one of the biggest health issues in Sweden. Over 25000 swedes get affected every year. There is strong evidence to show physical exercise can reduce heart related diseases and death. Only about 50 % of the patients participate in physical exercise after myocardial infarction. More knowledge about which biopsychosocial barriers and facilitators that can influence initiation to physical exercise in myocardial patients is therefore demanded. Purpose: The aim of this study was to investigate experienced barriers and facilitators to initiate physical exercise after a myocardial infarction. Method: A qualitative design with semi-structured interviews was used in this study. Five informants which experienced a myocardial infarction in the last 24 months. For the process and analysis of data a qualitative content analysis was used. Results: Other priorities, fatigue, fears and lack of self awareness to exercise activity-level was found as barriers for initiating physical exercise after myocardial infarction.Social support, importance of exercise, goals and individualised activity was found to be facilitators for initiating physical exercise after myocardial infarction. Conclusion: A good relationship, trust and information about the effects of physical exercise together with individualised exercise recommendations is important for facilitating initiationof physical exercise in myocardial patients. Myocardial infarction initiating physical exercise barriers facilitators Medical and Health Sciences Medicin och hälsovetenskap
34	Explorando a quinase IKK como um alvo terapêutico para células iniciadoras de tumor pulmonares induzidas pelo oncogene KRAS / Exploring IKKb kinase as a therapeutic target for KRAS-driven lung tumour-initiating cells Felipe Silva Rodrigues 31 August 2018 (has links) As alterações genéticas mais frequentes em câncer de pulmão são mutações pontuais que ativam o oncogene KRAS. Embora estas mutações estejam causalmente relacionadas à oncogênese, até hoje diferentes abordagens para inibir as proteínas RAS diretamente não obtiveram sucesso. Portanto, para que melhores alvos terapêuticos para o câncer de pulmão se tornem disponíveis é necessário identificar os mecanismos moleculares ativados por KRAS que estão diretamente envolvidos com a aquisição de propriedades malignas importantes, como o desenvolvimento e a manutenção de um fenótipo tronco-tumoral pelas células iniciadoras de tumor (CITs). CITs, também conhecidas como células tronco-tumorais, são definidas como uma subpopulação de células tumorais capazes de se autorrenovar, iniciar a formação de tumores e sustentar o crescimento tumoral. O desenvolvimento de estratégias terapêuticas dirigidas a estas células é imprescindível para melhorar a eficácia da terapia antitumoral. Uma vez que KRAS está associada a manutenção de um fenótipo tronco-tumoral e ativa o fator de transcrição NF-kB através da quinase IKKβ para promover a tumorigênese pulmonar, nós hipotetizamos que a quinase IKKβ contribui para o fenótipo tronco-tumoral induzido por KRAS em câncer de pulmão. Nós utilizamos ensaios de formação de tumoresferas para enriquecer e avaliar a função de CITs das linhagens pulmonares positivas para KRAS A549 e H358. As células A549 e H358 formaram tumoresferas em cultura de baixa aderência e, quando comparadas às células derivadas da cultura aderente, as células oriundas da cultura de tumoresferas apresentaram maior crescimento clonogênico, maior expressão de genes associados ao fenótipo tronco por qPCR e maior atividade da quinase IKKβ. A inibição da atividade de IKKβ através de um inibidor farmacológico altamente específico (Composto A) diminuiu levemente a proliferação de células A549 e H358, sem resultar em morte celular significativa. Entretanto, a inibição da atividade ou da expressão de IKKβ por interferência de RNA reduziu a expressão de genes associados ao fenótipo tronco e diminuiu a formação de tumoresferas. A inibição da expressão de IKKβ em células A549 reduziu também a capacidade de autorrenovação de CITs. Estes resultados sugerem que IKKβ desempenha um papel importante na manutenção do fenótipo tronco-tumoral de CITs pulmonares induzidas por KRAS. Em seguida, nós demonstramos que a inibição da atividade de IKKβ afetou preferencialmente a proliferação celular e o crescimento clonogênico de células oriundas da cultura de tumoresfera, sugerindo que IKKβ desempenha um papel mais importante em CITs do que em células derivadas da cultura aderente. A análise por citometria de fluxo identificou que células derivadas da cultura de tumoresfera apresentam um enriquecimento para células CD24+ na linhagem A549 e células CD44+ na linhagem H358, sugerindo que estes possam ser marcadores promissores para purificação de CITs nestas linhagens. Adicionalmente, demonstramos, por ensaios de wound-healing de células A549 e H358, que a inibição da atividade de IKKβ reduziu a migração celular, uma outra uma propriedade aumentada em CITs. Além disso, mostramos que a atividade da quinase IKKβ em células A549 e H358 não depende das vias da MAPK ou PI3K/Akt. Interessantemente, a inibição combinada de IKK (um efetor downstream de KRAS) e de EGFR/ERRB2 (reguladores upstream de KRAS que ativam as vias MAPK e PI3K/Akt) reduziu de forma aditiva a formação de tumoresferas, proliferação e migração celular. Quando avaliados em conjunto, nossos resultados sugerem que a quinase IKKβ desempenha um papel importante na biologia de CITs pulmonares portadoras de KRAS oncogênica e que a inibição desta quinase sozinha ou em combinação com a inibição de outras vias pode representar uma estratégia terapêutica promissora a ser explorada para reduzir a recidiva e metástase no câncer de pulmão induzido por KRAS. / The most frequent genetic alterations in lung cancer are point mutations that activate the KRAS oncogene. Although these mutations are causally related to oncogenesis, different approaches to inhibit RAS proteins directly have not been successful to date. Therefore, for better therapeutic targets for lung cancer to become available, it is necessary to identify the molecular mechanisms activated by KRAS that are directly involved with important malignant features, such as the development and maintenance of a cancer stem-like phenotype by the tumour-initiating cells (TICs). TICs, also known as cancer stem cells, are defined as a subpopulation of tumour cells able to self-renew, promote tumour initiation, and sustain tumour growth. The development of therapeutic strategies to target these cells is imperative to improve the efficacy of antitumor therapy. Since KRAS is associated with the maintenance of a cancer stem-like phenotype and activates the transcription factor NF-kB through the IKKβ kinase to promote lung tumourigenesis, we hypothesised that IKKβ kinase contributes to the cancer stem-like phenotype induced by KRAS in lung cancer. We used tumoursphere formation assays to enrich and evaluate the function of TICs of KRAS-mutant cell lines A549 and H358. A549 and H358 cells formed tumourspheres in low adhesion culture and, when compared to cells grown in adherent culture, sphere-derived cells displayed increased clonogenic growth, higher expression of stemness genes by qPCR, and increased IKKβ kinase activity . Inhibition of IKKβ activity through a highly specific pharmacological inhibitor (Compound A) slightly decreased proliferation of A549 and H358 cells without inducing significant cell death. On the other hand, inhibition of IKKβ activity or expression by RNA interference reduced the expression of stemness genes and decreased tumoursphere formation. Inhibition of IKKβ expression in A549 cells also reduced TICs self-renewal . These results suggest that IKKβ plays an important role in maintaining the cancer stem-like phenotype of KRAS-driven lung TICs. Next, we demonstrated that IKKβ inhibition preferentially reduced cell proliferation and clonogenic growth of sphere-derived cells, suggesting that IKKβ plays a more important role in TICs than in adherent culture-derived cells. Flow cytometry analysis identified that sphere-derived cells display an enrichment for the surface marker CD24 in A549 cells and CD44 in H358 cells, indicating that these could be promising markers for the purification of TICs in these cell lines. Furthermore, we have shown by wound-healing assays of A549 and H358 cells that IKKβ inhibition reduced cell migration , another feature increased in TICs. In addition, we have shown that IKKβ activity in A549 and H358 cells does not depend on the MAPK or PI3K/Akt pathways. Interestingly, combined inhibition of IKKβ (a downstream effector of KRAS) and EGFR/ERBB2 (upstream regulators of KRAS that activate the MAPK and PI3K/Akt pathways) additively reduced tumoursphere formation, cell proliferation and migration. Taken together, our results suggest that IKKβ kinase plays an important role in the biology of KRAS-driven lung TICs, and that inhibition of this kinase alone or in combination with inhibition of other signalling pathways may represent a promising therapeutic strategy to be explored in order to reduce tumour recurrence and metastasis in KRAS-driven lung cancer. Câncer de pulmão Células iniciadoras de tumor KRAS Quinase IKKb IKKb kinase KRAS Lung cancer Tumour-initiating cells
35	Presença de marcadores de células-tronco em linhagens celulares humanas de câncer de mama: possível valor em diagnóstico, prognóstico e terapía / Analysis of stem cells markers in human breast cancer cell lines Aline Ramos Maia Lobba 28 April 2014 (has links) O câncer de mama é a doença maligna que mais acomete as mulheres no mundo. Apesar dos inúmeros tratamentos, o óbito se deve principalmente à doença metastática que pode se desenvolver a partir do tumor primário. Esta progressão tumoral decorre da dificuldade de se estabelecer um prognóstico mais preciso. Atualmente, a teoria de células iniciadoras de tumor vem sendo estudada para tentar explicar a biologia do câncer e descrever novos alvos para prognósticos e terapias. O carcinoma mamário foi o primeiro tumor sólido para o qual foi identificada uma subpopulação celular, definida como CD44+/CD24-, apresentando as características de células iniciadoras tumorais. Embora este fenótipo venha sendo muito utilizado para descrever as células iniciadoras tumorais de mama, muitos trabalhos tem questionado a relevância clínica desses marcadores, enfatizando que outros marcadores devem ser identificados. Assim, o objetivo deste trabalho é analisar e caracterizar marcadores de células-tronco que possam estar relacionados com o grau de malignidade no modelo de câncer de mama. Inicialmente, analisou-se a expressão de 10 marcadores de células-tronco em diferentes linhagens de câncer de mama que apresentam graus crescentes de malignidade. O CD90 foi selecionado devido à alta expressão desse marcador na linhagem mais agressiva Hs578T. Para a caracterização deste marcador, realizou-se ensaios funcionais, através do silenciamento do CD90 na linhagem tumorigênica Hs579T e sua superexpressão na linhagem não-tumorigênica MCF10A. As linhagens celulares geradas foram caracterizadas quanto ao crescimento celular, potencial invasivo e metastático. Foi possível observar que houve uma alteração da morfologia nas linhagens transformadas com o CD90 e, também, um maior tempo de dobramento na linhagem Hs578T-CD90- e um menor na MCF10A-CD90+. Além disso, a linhagem MCF10-CD90+ foi capaz de crescer independentemente de EGF. Através da análise da via EGF, foi possível observar que houve um aumento da expressão da forma fosforilada do receptor e dos fatores Erk, c-Jun, e Jnk na linhagem MCF10A-CD90+ e uma diminuição dos mesmos na linhagem Hs578T-CD90-. A análise da atividade do elemento responsivo do fator de transcrição AP1 comprovou que a via de EGF é funcional na linhagem MCF10-CD90+. Também foram analisados os marcadores de transição epitélio-mesenquimal, verificando-se aumento da expressão dos marcadores mesenquimais na linhagem MCF10A-CD90+ e diminuição na linhagem Hs578T-CD90-. Os ensaios in vitro de invasão mostraram que as células MCF10-CD90+ são capazes de migrar e invadir e as células Hs578T-CD90- apresentam diminuição significativa da habilidade de migração e invasão. Além disso, os ensaios de metástase in vitro e in vivo, mostraram que a superexpressão de CD90 levou à malignização das células MCF10A. Por outro lado, a linhagem Hs578T-CD90- apresentou menor potencial metastático in vitro. Portanto, neste trabalho, pela primeira vez, o CD 90 foi caracterizado funcionalmente como um marcador envolvido na transformação maligna do carcinoma mamário, contribuindo, assim, para melhor entendimento da biologia do câncer de mama e para que se possa desenvolver novas ferramentas de diagnóstico/prognóstico e novos protocolos clínicos e terapêuticos. / Breast cancer is the malignant disease which affects the highest number of women in the world. In spite of the numerous treatments available, death is primarily due to the metastatic disease that may develop from the primary tumor. This tumor progression occurs because of the difficulty in establishing an accurate diagnosis/prognosis. Currently, the tumor initiating cells theory is being applied in an attempt to explain cancer biology and to unveil new diagnostic and therapeutic targets. Mammary carcinoma was the first solid tumor in which a cellular subpopulation, defined as CD44+/CD24-, was associated with tumor initiating cells. Although this phenotype has been widely used to describe breast tumor initiating cells, several studies have questioned the clinical relevance of these markers, emphasizing that additional markers should be identified. The objective of the present study is to analyze and characterize stem cell markers that may be related to malignancy stages in the breast cancer model. Initially, the expression of 10 stem cell markers was analyzed in different breast cancer cell lines displaying different malignancy grades. CD90 was selected due to its high expression levels in the most aggressive cell line, namely: Hs578T. In order to further characterize this marker, a functional study was performed in which CD90 was silenced in the Hs578T tumorigenic cell line and overexpressed in the non-tumorigenic MCF10A cell line. The resulting cell lines were characterized relative to growth rate and invasive and metastatic potential. A change in morphology readily was observed in the cell lines overexpressing CD90. In addition, the Hs578T-CD90-cell line presented an increased doubling time (DT), while the MCF10A-CD90+ cell line displayed a lower DT.. Furthermore, MC10-CD90+ cells were able to grow in the absence of EGF. Analysis of components of the EGF pathwayrevealed increased expression levels of the phosphorylated form of Erk, c-Jun and Jnk receptors in the MCF10-CD90+ cell line, while Hs578T-CD90- cells presented decreased expression of the same factors and receptors. Analysis of the activity of the AP1 responsive element allowed confirmation that the EGF pathway is functional in the MCF10-CD90+. . Epithelial-mesenquimal transition markers presented increased expression levels in the MCF10A-CD90+ cell line, accompanied by decreased expression levels in Hs578T-CD90- cells. In vitro invasion assays showed that MCF10A-CD90+ cells are capable of migrating and invading, while Hs578T-CD90- cells presented a significant decrease in their ability to migrate and invade. Additionally, in vitro and in vivo metastasis assays showed that malignization ensued upon overexpression of CD90 in MCF10A cells and a lower tendency to form metastasis in vitro was observed for the Hs578T-CD90- cell line. Therefore, the present study presents, for the first time in the literature, the functional characterization of CD90 as a genetic marker involved in the malignant transformation of mammary carcinoma, leading to a better understanding of the breast cancer biology, which may, in turn, lead to the development of new clinical and therapeutic protocols. Câncer de mama CD90 Células iniciadoras de tumor Células-tronco Breast cancer CD90 Stem cells Tumor initiating cells
36	Overexpression of HGF/MET axis along with p53 inhibition induces de novo glioma formation in mice Qin, Yuan, Musket, Anna, Kou, Jianqun, Preiszner, Johanna, Tschida, Barbara R., Qin, Anna, Land, Craig A., Staal, Ben, Kang, Liang, Tanner, Kirk, Jiang, Yong, Schweitzer, John B., Largaespada, David A., Xie, Qian 01 January 2020 (has links) BACKGROUND: Aberrant MET receptor tyrosine kinase (RTK) activation leads to invasive tumor growth in different types of cancer. Overexpression of MET and its ligand hepatocyte growth factor (HGF) occurs more frequently in glioblastoma (GBM) than in low-grade gliomas. Although we have shown previously that HGF-autocrine activation predicts sensitivity to MET tyrosine kinase inhibitors (TKIs) in GBM, whether it initiates tumorigenesis remains elusive. METHODS: Using a well-established Sleeping Beauty (SB) transposon strategy, we injected human and cDNA together with a short hairpin siRNA against (SB-hHgf.Met.ShP53) into the lateral ventricle of neonatal mice to induce spontaneous glioma initiation and characterized the tumors with H&E and immunohistochemistry analysis. Glioma sphere cells also were isolated for measuring the sensitivity to specific MET TKIs. RESULTS: Mixed injection of SB-hHgf.Met.ShP53 plasmids induced de novo glioma formation with invasive tumor growth accompanied by HGF and MET overexpression. While glioma stem cells (GSCs) are considered as the tumor-initiating cells in GBM, both SB-hHgf.Met.ShP53 tumor sections and glioma spheres harvested from these tumors expressed GSC markers nestin, GFAP, and Sox 2. Moreover, specific MET TKIs significantly inhibited tumor spheres' proliferation and MET/MAPK/AKT signaling. CONCLUSIONS: Overexpression of the HGF/MET axis along with p53 attenuation may transform neural stem cells into GSCs, resulting in GBM formation in mice. These tumors are primarily driven by the MET RTK pathway activation and are sensitive to MET TKIs. The SB-hHgf.Met.ShP53 spontaneous mouse glioma model provides a useful tool for studying GBM tumor biology and MET-targeting therapeutics. HGF/MET signaling genetically engineered mouse model glioblastoma glioma initiating cells targeted therapy Biomedical Sciences Pathology
37	Two Novel Roles for TGFß Signaling in Epithelial Differentiation and Cancer McCauley, Heather A. January 2015 (has links) No description available. Molecular Biology transition zone squamous cell carcinoma cancer stem cell tumor-initiating cell metastasis differentiation
38	Characterizing the Role of Bmi1 in Human Brain Tumour Initiating Cells O`Farrell, Erin L. 10 1900 (has links) <p>Bmi1 is a member of the Polycomb Group proteins and has been demonstrated as being vital in stem cell regulation. Bmi1 is overexpressed in many cancers, including glioblastoma, and has been shown to regulate cancer cell self-renewal and proliferation both <em>in vitro</em> and <em>in vivo</em>. This study aimed to determine if Bmi1 modulates brain tumour initiating cell properties using a spontaneous primary glioblastoma cell line and a commercial glioblastoma cell line. To determine the role of Bmi1 in glioblastoma cells, stem cell assays and <em>in vivo</em> analysis of tumour formation was performed on both control cells and Bmi1 knockdown cells. In both cell lines, Bmi1 was found to play a positive regulatory role in stem cell properties. When Bmi1 was knocked down in brain tumour initiating cells, properties such as self-renewal, proliferation and tumour formation were impaired compared to control cells. This study supports recent literature which shows that Bmi1 regulates stem cell properties in glioblastoma cells and supports the potential use of Bmi1 as a therapeutic target in glioblastoma brain tumours.<strong><br /> </strong></p> / Master of Science (MSc) Bmi1 Cancer Glioblastoma Brain Tumour Initiating Cell Medicine and Health Sciences Medicine and Health Sciences
39	THE DEVELOPMENT OF A MODEL SYSTEM FOR THE CHARACTERIZATION OF CANCER STEM CELL PROPERTIES IN BRAIN METASTASES FROM THE LUNG Nolte, Sara M. 04 1900 (has links) <p>Brain metastases are most common in adults suffering from lung cancer, predicting uniformly poor patient outcome and short survival time. Despite their frequency and severity, very little is known about the tumorigenesis of brain metastases. Previously developed primary brain tumour-initiating cell (BTIC) models were used to determine the presence of a stem-like population in brain metastases from the lung. Use of clinical samples and the NCI-H1915 cell line allowed for the development of useful strategies for study of brain metastasis.</p> <p>The sphere formation capacity and expression of known BTIC markers in brain metastases was suggestive of a self-renewing population. Differentiation studies demonstrated that neither clinical samples nor NCI-H1915 cells had neural lineage potential. Intracranial xenotransplant of clinical samples and NCI-H1915 cells into NOD-SCID mice led to formation of multiple focal masses throughout the ventricles; the tumours were also serially transplantable, further implicating a TIC population. Of known BTIC markers, only CD15 expression levels and patterns were similar enough in clinical samples and NCI-H1915 cells to warrant prospective sorting experiments in the cell line. Use of CD15 failed to identify a CSC or TIC population in NCI-H1915 cells.</p> <p>These findings suggest that a TIC population is present in brain metastases; however, this remains to be identified. It is recommended that due to the limitations of cell surface markers, the study of brain metastasis should use a selective gene expression approach, in order to target genes and pathways essential to metastasis. It was shown that NCI-H1915 cells could be useful for such an approach, studying the effects on proliferation, sphere formation, and tumour formation capacity of brain metastases from the lung. Further study using this model could ultimately lead to the disruption of pathways essential to the metastatic process, transforming a uniformly fatal disease into a more localized and treatable one.</p> / Master of Science (MSc) brain metastasis metastatic lung cancer cancer stem cell tumour-initiating cell Cancer Biology Cancer Biology
40	Identification and validation of DKK1 as a novel candidate therapeutic target for glioblastoma / DKK1 as a novel candidate therapeutic target of glioblastoma Yelle, Nicolas 22 November 2018 (has links) Glioblastoma (GBM) is a very aggressive and invasive tumour that relapses within nine months of diagnosis and remains incurable despite advances in multimodal therapy including surgical resection, chemotherapy and radiation. Poor patient outcome has been correlated to specific markers of brain tumour initiating cells (BTIC) and intratumoural heterogeneity (ITH), which have also been associated with treatment resistance and tumour recurrence. ITH can be explained at the cellular level by the existence of multiple populations of cancer cells, including some which have acquired stemness properties like self-renewal, proliferation, and multilineage differentiation, also known as cancer stem cells (CSCs). In brain tumours, CSCs or BTICs, have been shown to be resistant to both chemotherapy and radiation treatment, allowing them to escape therapy and consequently generate for tumour recurrence. As a result, therapies that focus on targeting the BTIC compartment within the bulk GBM tumour would provide better treatment and prognosis for patients. To profile GBM BTICs we conducted two transcriptomic screens. The first compared GBM BTICs to neural stem cells (NSCs), their healthy counterparts, and for the second we developed a pipeline utilizing a dynamic BTIC patient-derived xenograft (PDX) model of human GBM recurrence allowing for the profiling of GBM BTICs at engraftment, after chemoradiotherapy delivery in a phase we have termed "minimal residual disease" (MRD), and at tumour recurrence. In this study, Dickkopf-1 (DKK1) was identified as a potential therapeutic target for GBM from each transcriptomic screen and was studied using short hairpin knockdowns, blockade with monoclonal antibodies, and subsequent functional stem cell assays. / Thesis / Master of Science (MSc) / Glioblastoma (GBM) is a very aggressive tumour that relapses within nine months of diagnosis and remains incurable despite chemotherapy, radiation, and surgery. Relapse is believed to be caused by the presence of a wide variety of cell types, including cancer stem cells (CSCs), which have been shown to be resistant to both chemotherapy and radiation in GBM. As a result, therapies that focus on targeting the CSCs within the bulk GBM tumour would provide better treatment for patients. In this study, we analyzed this cell population by conducting two screens. The first compared the level at which genes are expressed in GBM CSCs in comparison to how they are expressed in their healthy counterparts, neural stem cells, whereas the second compared the primary patient GBM tumour to its relapsed form in a mouse model of the disease. In this study, the protein Dickkopf-1 (DKK1) was identified and validated as a potential therapeutic target of GBM using well established molecular and stem cell functional assays.

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