Global ETD Search

201	Avaliação do efeito do alcaloide boldina sobre modelos experimentais de malignidades do sistema nervoso central e bexiga Gerhardt, Daniéli January 2012 (has links) As plantas são importantes fontes de produtos naturais com atividade biológica que diferem quanto a estrutura e propriedades biológicas. Uma das atividades biológicas dos componentes naturais que tem recebido grande atenção é a capacidade de exercer atividade antitumoral em diferentes tipos de câncer. A boldina é um alcaloide encontrado abundantemente nas folhas e cascas do boldo (Peumus boldus Mol), uma árvore de pequeno porte originária do Chile. Entre outras propriedades, já foi demonstrado que a boldina exerce feito antitumoral em linhagens de glioma in vitro. Neste contexto, o presente estudo avaliou os efeitos do tratamento com boldina em modelos experimentais de gliomas e câncer de bexiga. Boldina foi capaz de diminuir o crescimento celular das linhagens C6 e U-138 MG, por induzir parada do ciclo celular na fase G2/M e/ou apoptose. Estes achados parecem estar associados à inativação da proteína AKT e ativação da proteína GSK-3β. Além disso, a eficácia de boldina também está relacionada com uma diminuição na atividade da proteína ERK. Estes resultados nos levaram a investigar o efeito da boldina em um modelo experimental de glioma em ratos in vivo. O tratamento com 50 mg/Kg/dia de boldina i.p. por 10 dias reduziu significativamente o volume dos tumores implantados nos ratos. Adicionalmente, a análise patológica mostrou que as características de malignidade, como necrose, hemorragia e proliferação, diminuíram nos tumores dos ratos tratados. Experimentos toxicológicos com ratos sadios tratados com 50 mg/Kg/dia de boldina i.p. por 14 dias não revelaram sinais de toxicidade tecidual, danos gastrointestinais ou alteração de atividade de enzimas hepáticas. Ademais, a análise do efeito de boldina em um modelo de câncer de bexiga in vitro, mostrou resultados similares como os observados nas linhagens de glioma. Boldina diminui o crescimento celular da linhagem T24 e induziu parada em G2/M e apoptose. Estes achados também estão relacionados com diminuição da atividade das proteínas AKT e ERK, e aumento de atividade de GSK-3β. Juntos, nossos resultados propõem um novo componente natural, o alcaloide boldina, para o desenvolvimento de um novo agente anticâncer, o qual poderá ser usado em conjunto com os regimes de quimioterapia já estabelecidos. / Plants are important sources of biologically active natural products which differ in terms of structure and biological properties. One of the biological activities of plant compounds that has attracted great interest is the ability to exert antitumoral activity in different types of cancer. Boldine is an alkaloid that occurs abundantly in the leaves and barks of boldo (Peumus boldus Mol.) a widely distributed native tree of Chile. Among other properties, boldine has been shown to exert antitumoral activity against glioma cell lines cells in vitro. Within this context, the present study was designed to evaluate the effects of boldine treatment in experimental models of gliomas and bladder cancer. Boldine was able to diminish the cell growth of C6 and U-138 MG cell lines, by inducing cell cycle arrest at G2/M phase and/or apoptosis. These findings appear to be associated to the inactivation of AKT protein and activation of GSK-3β protein. Additionally, the efficacy of boldine is also correlated with decrease in ERK activity. These results lead us to investigate the effect of boldine in an in vivo rat glioma experimental model. Treatment with 50 mg/Kg/day of boldine i.p. for 10 days significantly diminished the volume of implanted gliomas in rats. Additionally, pathological analysis demonstrated that malignant characteristics, such as necrosis, hemorrhage and proliferation, appeared to be lower in boldinetreated rats. Toxicological experiments with healthy rats treated with 50 mg/Kg/day of boldine i.p for 14 days did not reveal signals of tissue toxicity, gastrointestinal damage or alteration in the activity of hepatic enzymes. Moreover, the analysis of boldine effect in a model of bladder cancer in vitro, showed similar results to those observed in glioma cell lines. Boldine diminished the T24 cell growth and induced G2/M arrest and apoptosis. These findings were also related to decrease in AKT and ERK activities and increase in GSK-3β activity. Taken together, our results propose a novel natural compound, the alkaloid boldine, for the development of a new anticancer agent, which could be used in conjunction with the established quemotherapies regimens. Neoplasias da bexiga urinária Glioma Plantas medicinais
202	Estudo do papel da ecto-5'-nucleotidase/CD73 na proliferação de gliomas Bavaresco, Luci January 2008 (has links) Os gliomas são os tumores primários mais comuns e devastadores que atingem o sistema nervoso central. O prognóstico para pacientes com estes tumores é ruim, e apesar de intensos esforços para o desenvolvimento de novas terapias, agentes efetivos ainda não estão disponíveis. A ecto-5‟-nucleotidase/CD73 (ecto-5‟-NT/CD73) regula os níveis extracelulares de AMP e adenosina, a qual tem sido amplamente descrita como fator indutor de proliferação celular. A ecto-5‟-NT/CD73 per se tem sido relatada como proteína envolvida no controle dos processos de crescimento, maturação, diferenciação, invasão e migração celular, além do processo de formação de metástases. No presente estudo nós avaliamos a atividade enzimática e as funções da ecto-5‟-NT/CD73 durante o processo proliferativo em linhagens de glioma C6 e U138-MG. Os resultados obtidos demonstram que ocorre um aumento da atividade da ecto-5‟-NT/CD73 com o aumento da confluência celular, quer seja esta obtida por semeadura de crescentes densidades celulares ou por crescentes dias de cultivo, em ambas as linhagens estudadas. As análises por RT-PCR e citometria de fluxo revelaram um aumento dos níveis de mRNA e proteína da ecto-5‟-NT/CD73, respectivamente quando comparadas culturas confluentes com culturas subconfluentes em linhagem de glioma humano U138-MG. Nesta mesma linhagem, o tratamento com 1 M de APCP, inibidor competitivo da ecto-5‟-NT/CD73 causou uma significativa redução de 20% na proliferação celular, enquanto a adenosina aumentou este processo em 25%. Por outro lado, 1 mM e 3 mM de AMP reduziram a proliferação em 29% e 42% respectivamente. Além disso, o silenciamento estável da ecto-5‟-NT/CD73 pela técnica do RNAi reduziu o processo de migração celular na linhagem de glioma humano U138-MG. Em conjunto, Estes resultados sugerem a participação da ecto-5‟-NT/CD73 na proliferação celular, sendo este processo desencadeado pela geração de adenosina (fator proliferativo), pela remoção dos níveis citotóxicos de AMP e pela participação per se da ecto-5‟-NT/CD73 como proteína de adesão. / Malignant gliomas are the most common and devastating primary tumors in the central nervous system. Despite treatment, patients with these tumors have a poor prognosis. Ecto-5‟-nucleotidase/CD73 (ecto-5‟-NT/CD73) may regulate the extracellular AMP and adenosine levels, which have been described as proliferation factor. The participation of ecto-5‟-NT/CD73 per se has been proposed as a proliferative factor, being involved in the control of cell growth, maturation, differentiation, invasion, migration and metastases processes. In the present study, we evaluate the ecto-5‟-NT/CD73 activity and functions in rat C6 and human U138-MG glioma cell lines proliferation process. Crescent confluences and culture times leads to an increase on ecto-5‟-NT/CD73 activity in both C6 and U138-MG glioma cells. RT-PCR analysis and flow cytometry showed a significant increase on ecto-5‟-NT/CD73 mRNA and protein levels respectively, when compared confluent cultures with subconfluent one in human U138-MG glioma cells. Treatment with 1 M APCP, a competitive ecto-5‟-NT inhibitor, caused a significant reduction in glioma cell proliferation of 20% for U138-MG glioma cell line. In addition, 100 M adenosine increases cell proliferation in 25% and AMP 1m M and 3 mM decrease U138-MG glioma cells proliferation in 29% and 42% respectively. The stable silencement of ecto-5‟-NT/CD73 by RNAi technique reduces cell migration in human U138-MG glioma cell line. Taken together these results suggest the participation of ecto-5‟-NT/CD73 in cell proliferation, being this process dependent of enzymatic activity generating adenosine, a proliferative factor and removing toxic levels of AMP, as well as a function as adhesive molecule. Glioma Enzimas 5'-nucleotidase Sistema purinérgico Ecto-5'-nucleotidase
203	Efeito de diferentes componentes da matriz extracelular sobre a ecto-5'-nucleotidase, proliferação, adesão e migração celular na linhagem de células de glioma humano U138-MG Cappellari, Angélica Regina January 2008 (has links) Glioblastoma multiforme é a forma mais comum e agressiva de tumor cerebral que apresenta um severo crescimento e um comportamento altamente invasivo. Linhagens de células de glioma em cultura apresentam alta atividade da enzima ecto-5’-nucleotidase que metaboliza AMP em adenosina. Em adição, ela também interage com componentes da matriz extracelular como molécula adesiva. Neste trabalho, nós avaliamos o efeito de diferentes componentes da matriz extracelular sobre a atividade da ecto-5’-nucleotidase, proliferação, adesão e migração celular na linhagem de células de glioma humano U138-MG. Os resultados obtidos mostraram uma inibição da atividade enzimática da ecto-5’- nucleotidase quando tratada com laminina sozinha e com fibronectina ou laminina em co-tratamento com dextran sulfato. O dextran sulfato mostrou reduzir a proliferação em 37%. O mesmo efeito foi observado para os co-tratamentos entre dextran/laminina (29%) e dextran/colágeno (28%). A presença de adenosina diminuiu a adesão celular em torno de 40% e o APCP aumentou a adesão em 75%. Laminina inibiu a adesão celular, já a condroitina sulfato aumentou em 70%. As células U138 apresentaram uma redução da adesão e migração celular quando tratadas apenas com dextran e também no co-tratamento deste com adenosina e APCP. Diante dos resultados podemos sugerir a modulação da atividade da ecto5’-nucleotidase e assim uma modulação da produção de adenosina por moléculas da matriz extracelular, afetando assim eventos celulares envolvidos no comportamento invasivo destas células tumorais. / Glioblastoma multiforme is the most aggressive form of brain tumor that shows a severe growth and highly invasiveness behavior. Glioma cell lines in culture present a high activity of the ecto-5’-nucleotidase (ecto-5’-NT/CD73) which metabolizes AMP to adenosine. In addition, ecto-5’-NT/CD73 also has contact with extracellular matrix components like adhesive molecule. In the present paper, we evaluate the effect of distinct extracellular matrix components on the ecto-5’- NT/CD73 activity, proliferation, adhesion and migration in U138-MG human glioma cell line. The results showed an inhibition of enzymatic activity of ecto-5’NT/CD73 in the presence of laminin, fibronectin plus dextran sulfate and laminin plus dextran sulfate. In the proliferation assay it was observed that dextran sulfate reduced the proliferation in 37% and in association with collagen type I or laminin, the proliferation was reduced too (28% and 29%, respectively). The presence of adenosina decreased of adhesion at about 40% and when treated with APCP increased in 75%. Laminin inhibited the cell adhesion and chondroitin sulfate increased in 70%. U138 cells presented reduction of adhesion and cell migration in the presence of dextran sulfate alone and in the presence of adenosine and APCP. Taken together these results suggest the modulation of ecto-5’-NT/CD73 activity and production of adenosin by extracellular matrix molecules, affecting cell events involved in the invasiveness behavior this tumor cells. Matriz extracelular Linhagem celular tumoral Ecto-5'-nucleotidase Glioma
204	Redução da proliferação celular e aumento da expressão de marcadores neurais de células-tronco de glioblastoma humano expostas a um inibidor de histona deacetilase Sassi, Felipe de Almeida January 2013 (has links) Os glioblastomas multiforme (GBM), são tumores cerebrais, que por sua malignidade, aliada ao seu rápido crescimento e frequente recorrência, exigem uma maior investigação da comunidade científica. Novas terapias devem afetar as células-tronco tumorais (CSC), as quais são responsáveis pela resistência e progressão tumoral. Neste trabalho fizemos o uso da Tricostatina A (TSA), um inibidor de histonas deacetilase, para se obter a modulação epigenética, e portanto, manipulação da expressão gênica, da linhagem celular U87-MG de GBM, utilizada aqui como um modelo para a pesquisa com CSC. Observamos a redução da proliferação e sobrevivência das tumoresferas de U87, as quais são formadas por CSC, seguida de alterações morfológicas nas células tratadas. A diferenciação das U87 foi confirmada pelo aumento dos níveis de marcadores neuronais e gliais, tais como NeuN e GFAP. Além disso, mostramos evidências de senescência celular após o tratamento com TSA. Nenhum efeito sobre a migração celular foi encontrado após a modulação epigenética. Portanto, os nossos resultados mostram a influência da TSA na diferenciação, proliferação e sobrevivência de CSC de glioma e também na indução da senescência celular, demonstrando o potencial da TSA na terapia dos tumores cerebrais. / Glioblastoma multiforme (GBM), because of its fast growth and recurrence, require further investigation by the scientific community in order to find promising new therapies for these tumors, specially affecting their Cancer stem cells (CSC), which drive many tumorigenic processes. In this work we have made use of the HDAC inhibitor Trichostatin A to achieve the epigenetic modulation of the U87-MG GBM cell line, as a model for CSC research. We have observed reduction of the U87 tumorspheres, which are enriched for CSC, proliferation and survival followed by morphological changes both in the treated tumorspheres and in single cells. Enhanced on the U87 differentiation was confirmed by increased levels of neuronal and glial markers such as NeuN and GFAP. Furthermore we showed evidences of cellular senescence after the TSA treatment. No effect on cell migration was found after TSA treatment. Therefore, these results demonstrate a plethora effects on differentiation, proliferation, survival of glioma cells and induction of cellular senescence by TSA, making TSA a promising agent for glioma therapy. Biologia molecular Biologia celular Glioma Glioblastoma Histona desacetilases
205	Estudo dos efeitos do ATP extracelular e das ecto-nucleotidases no crescimento de gliomas Marrone, Fernanda Bueno January 2005 (has links) Glioblastomas são a forma mais comum de tumores cerebrais primários e, apesar do tratamento, os pacientes com estes tumores têm um prognóstico muito ruim. Os nucleotídeos da adenina (ATP, ADP e AMP) e também a adenosina possuem muitas funções importantes em condições fisiológicas e patológicas em vários organismos. O ATP é uma importante molécula sinalizadora no SNC, e os nucleotídeos e nucleosídeos podem induzir a proliferação de linhagens celulares de gliomas. Na invasão dos gliomas dois mecanismos podem liberar ATP: a morte excitotóxica do tecido adjacente e a lesão causada pela ressecção do tumor, que é o tratamento de primeira linha nestes casos. Neste estudo foram observados os efeitos do ATP extracelular na citotoxicidade em linhagens celulares de glioma humano U138 e na linhagem C6 de ratos, comparado com culturas organotícias de hipocampo. A citotoxicidade do ATP (0.1mM, 0.5mM, 5mM) foi medida usando os ensaios de incorporação de iodeto de propídeo e ensaio da lactato desidrogenase. O ensaio de caspases foi realizado para identificar à morte apoptótica. Os resultados mostraram que as células de gliomas apresentam resistência a morte induzida pelo ATP quando comparados com o tecido normal. Altas concentrações de ATP (5mM) induziram à morte celular após 24 h de tratamento em culturas organotípicas, mas não nas linhagens de gliomas estudados. Os nucleotídeos são hidrolisados muito lentamente pelas linhagens de gliomas, o que foi confirmado pela baixa expressão das enzimas NTPDases quando comparado com astrócitos. Portanto, para testar o papel do ATP extracelular no mecanismo de implante e crescimento dos gliomas, um milhão destas células de gliomas foram injetadas em 3µl de DMEM no estriado direito de ratos Wistar, e foi testada a co-injeção da enzima apirase no tratamento dos gliomas implantados. Após 20 dias, os ratos foram mortos e o cérebro foi seccionado e corado com hematoxilina e eosina. Nossos resultados mostraram que os ratos que sofreram co-injeção de apirase tiveram uma redução significativa no tamanho do tumor e menor índice mitótico (p<0,05), bem como menor imunodetecção para Ki67, VEGF e CD31 quando comparado com os grupos controle e controle apirase. A medida da hidrólise enzimática dos nucleotídeos no soro pode contribuir no diagnóstico de lesão celular em muitas condições patológicas. Com o objetivo de avaliar a atividade enzimática da ATPase, ADPase e AMPase in vivo, amostras de soro foram coletadas vinte dias após o implante dos gliomas em ratos. Os ratos com indução de gliomas mostraram um aumento significativo na hidrólise de ATP, ADP e AMP quando comparado com os respectivos controles. O tratamento com o fármaco temozolomida e com 10% dimetil sulfoxida diminuiu a hidrólise dos nucleotídeos. Nenhum dos animais incluídos neste trabalho apresentaram alterações significativas na atividade das enzimas alanina aminotransferase, aspartato aminotransferase e fosfatase alcalina. Nossos dados indicam que o ATP pode ter uma função importante no crescimento do glioma, pois quando liberado pode induzir a morte celular do tecido normal ao redor do tumor, abrindo espaço para o rápido crescimento e invasão do tumor. As avaliações da hidrólise dos nucleotídeos da adenina no soro podem ajudar no acompanhamento da progressão dos tumores cerebrais. Adenosina trifosfato Glioma Tumores cerebrais Nucleotideos : Bioquimica : Metabolismo
206	Etablierung und Charakterisierung eines experimentellen Modells für invasive Gliome / Establishment and characterization of an experimental model for invasive gliomas Richter, Christoph 05 April 2018 (has links) No description available. 610 Glioblastom Glioma Medizin (PPN619874732)
207	Image-based biomarkers for the invivo evaluation of human brain gliomas Sadeghi-Meibodi, Niloufar 23 June 2010 (has links) Gliomas constitute 36% of all primary brain tumors and 81% of all primary malignant brain tumors. The overall prognosis in patients with gliomas depends mainly on the location and histologic grade of the tumor.<p>The World Health Organization classification of gliomas is the primary basis for guiding therapy and assessing overall prognosis in gliomas. This classification system, based on histological features, often falls short of predicting therapeutic response of individual tumors within the same histological grade. Yet, it still remains the grading method for both research and clinical prospects.<p>Unlike any other organ the brain has multiple protective layers such as the skull that ensure a homeostatic environment. The resulting reduced access to the brain and the absence of plasmatic brain tumor markers bring neuroimaging in a central position in diagnosis and management of brain tumors. Moreover, neuroimaging has evolved from a purely morphologic investigation into a diagnostic tool that allows characterization of particular physical alterations within brain tissue. Understanding the relationship between the physical characteristics of tumor tissue, studied by MR imaging, and biological characteristics of the tumor is therefore important for the appropriate integration of neuroimaging in brain tumor management. The general objective of this work is to define the relationship between physiologybased MR imaging and biological features of glial tumors. Diffusion and perfusionweighted imaging, physiologybased MR techniques provide the data based on physical characteristics of the tissues. Diffusion weighted imaging (DWI) allows the measurement of water molecules diffusivity within the brain tissue by means of apparent diffusion coefficient (ADC) measurements. Perfusion weighted imaging (PWI) is based on changes of MR signal during the passage of contrast material through the intravascular space and allows hemodynamic measurements such as those of cerebral blood volume (CBV)within the brain tissue.<p>Highgrade diffuse gliomas are currently differentiated from low grade diffuse gliomas by increased cellularity with nuclear atypia, mitotic activity, endothelial proliferation and necrosis. Components of the extracellular matrix and angiogenesis constitute some other features of gliomas, which have established links with oncogenic processes that influence the proliferative and infiltrative potentials of these tumors. We have specifically targeted these features in our comparative studies with the working hypothesis that physiologybased MR measurements, obtained in vivo, might provide information that is pertinent in terms of tumor malignancy.<p>We chose to approach the biology of brain tumors in two ways: in vivo, by means of metabolic imaging techniques such as positron emission tomography (PET) and ex vivo, by means of histological and immunohistochemical analyses of tumor specimens.<p>Many studies have investigated the relation between ADC values and cellularity in gliomas. The underlining theory is based on the premise that water diffusivity within the 9 extracellular compartment is inversely related to the content and attenuation of the constituents of the intracellular space. Therefore when cellularity increases, intracellular space volume increases with a relative reduction of the extracellular space, leading to restricted diffusion of water molecules. However other factors may affect the value of ADC in gliomas such as the extracellular matrix which contains various amounts of hydrophilic macromolecules susceptible to change water molecules diffusivity. Hyaluronic acid is one highly hydrophilic component of the extracellular matrix of gliomas and its level of expression changes significantly during the progression to anaplasia in gliomas. Our hypothesis was that hyaluronan may influence ADC values in high and low grade gliomas.<p>We demonstrated a positive correlation between ADC values and the immunohistochemical level of hyaluronan in glial tumors.<p>Previous studies have confirmed the utility of positron emission tomography using C11 Methionine (PETMET) as a prognostic tool in patients with gliomas. Higher MET uptake is associated with greater proliferative potential and a higher level of malignancy in gliomas.<p>The increased aminoacid uptake in gliomas seems to reflect increased transport mediated by aminoacid carriers located in the endothelial cell membrane. Our hypothesis was that CBV measurements, index of tumor vascularity, may be related to tumor aminoacid metabolism.<p>We found a positive correlation between maximum CBV values and maximum MET uptake values in gliomas.<p>A limitation to these preliminary studies was lack of direct correlation between MRbased measurements and histologic and metabolic data. Indeed, glial tumors are known for their remarkable tissue heterogeneity across different grades, within the same grade, and even within a single given tumor. Therefore we used image coregistration and stereotactic biopsies to further assess the relationship between MRbased imaging data and both metabolic and histologic analysis.<p>The second part of our studies was based on measurements at the exact same localization on both MR and PET images where biopsy specimens were performed. We found a local relationship between CBV and MET uptake values. Both measurements correlated with mitotic activity and endothelial proliferation; two features of tumor aggressiveness.<p>In order to quantify tumor cellularity and tumor angiogenesis, we respectively measured cell density and vessel density using immunohistochemical markers to identify vessels. We found a regional relationship between CBV and cell density, as well as vessel density in gliomas whereas no correlation was found regionally between ADC and cell density.<p>We concluded that CBV measurements may be used locally as indices of angiogenesis and cellularity in gliomas; whereas local ADC measurements are more variable and may not be used as a marker of cellularity in heterogeneous tumors such as gliomas. / Doctorat en Sciences médicales / info:eu-repo/semantics/nonPublished Médecine pathologie humaine Gliomas Gliome Pet diffusion MR Perfusion glioma
208	Rôle de l'activation de STAT3 dans l'agressivité des glioblastomes. : Cancérologie expérimentale. / Role of STAT3 activation in glioblastoma aggressiveness Ouedraogo, Zangbewende guy 19 December 2014 (has links) Les gliomes sont des tumeurs du système nerveux central. Leur plus haut degré de malignité est le glioblastome (GBM), le plus fréquent des cancers du cerveau. Les patients atteints de GBM sont d’abord opérés (si possible) puis traités par la radiothérapie avec témozolomide concomitant et adjuvant. Ce traitement n’est cependant pas curatif, en partie en raison d’une radiorésistance primaire élevée des cellules de GBM. La voie de signalisation JAK/STAT3 (Janus Kinase/Signal Transducer and Activator of Transcription 3) semble contribuer à la gravité des GBM. STAT3 est une protéine intracellulaire de transduction du signal. Elle est activée par phosphorylation de ses résidus tyrosine 705 (pSTAT3-Y705) et sérine 727 (pSTAT3-S727). L’activation de la tyrosine 705 se produit en aval du signal induit par la liaison de la cytokine interleukine 6 (IL-6) à son complexe récepteur transmembranaire gp130-IL-6Rα. Les mécanismes d’activation de la sérine 727 sont moins bien caractérisés. Le rôle de l’activation de STAT3 dans la radiorésistance des GBM a été ici étudié. Une évaluation du niveau basal de pSTAT3-Y705, pSTAT3-S727 et de la radiorésistance intrinsèque a été faite sur un panel de 15 lignées de GBM humain. L’activation de STAT3 dans les lignées cellulaires de gliomes a été évaluée par western blot et la radiorésistance par la survie cellulaire à l’irradiation. En plus de la description de l’état basal d’activation de STAT3 dans les lignées cellulaires de gliomes, cette étude a mis en évidence pour la première fois, une corrélation de pSTAT3-S727 avec la radiorésistance intrinsèque des GBM. Une stratégie de blocage pharmacologique de STAT3 nous a permis d’identifier le Gö6976 comme inhibant la phosphorylation Y705 de STAT3 dans les cellules de GBM. Celui-ci s’est avéré inhiber aussi la phosphorylation S727 mais seulement dans les lignées de GBM pSTAT3-Y705 négatives. Le traitement par le Gö6976 ralentit la croissance des cellules de GBM, indépendamment du statut d’activation de STAT3. De façon intéressante, le Gö6976 a montré un pouvoir radiosensibilisant très significatif sur les lignées pSTAT3-Y705 négatives, ce qui est concordant avec la baisse du niveau de pSTAT3-S727. La pertinence de ces résultats est confortée par un marquage immunohistochimique sur des échantillons cliniques de GBM, montrant la présence à des degrés variables de pSTAT3-S727 dans toutes les cellules cancéreuses de tous les patients. En parallèle, une étude in vitro des fonctions de pSTAT3-S727 utilisant des dominants positif et négatif est en cours. En somme, nous avons démontré que pSTAT3-S727 participe à la radiorésistance intrinsèque et que pSTAT3-Y705 est un marqueur prédictif négatif de la réponse des cellules de GBM au Gö6976 à la fois comme inhibiteur de pSTAT3-S727 et radiosensibilisant. L’ensemble de nos résultats conforte l’intérêt d’une inhibition spécifique de pSTAT3-S727 pour radiosensibiliser les GBM et ainsi améliorer le traitement des patients. / Gliomas are tumors of the central nervous system. The highest degree in glioma malignancy is Glioblastoma (GBM) that is the most frequent of the brain cancers. GBM patients are treated by surgery at first (if it is possible), followed by radiotherapy and concomitant and adjuvant temozolomide. However, this treatment is not curative in part because GBM cells display an outstanding primary radioresistance. The JAK/STAT3 (Janus Kinase/Signal Transducer and Activator of Transcription 3) signaling pathway seems to be involved in the GBM aggressiveness. STAT3 is an intracellular signal transducer protein. It is activated by phosphorylation on its tyrosine 705 (pSTAT3-Y705) and serine 727 (pSTAT3-S727) residues. The tyrosine 705 activation is produced downstream the signal induced by the binding of interleukine-6 (IL-6) cytokine to its gp130-IL-6Rα transmembrane receptor complex. The mechanisms of the serine 727 phosphorylation are less characterized. The role of STAT3 activation in the radioresistance of GBM was studied here. Basal levels of pSTAT3-Y705, pSTAT3-S727 and intrinsic radioresistance were evaluateded in a panel of 15 GBM cel lines. Activation of STAT3 in the glioma cell lines was assessed by western blotting and radioresistance through cell surviving fraction to irradiation. In addition to the description of the basal activation of STAT3 in the glioma cell lines, this study evidenced, for the first time, a correlation between pSTAT3-S727 and GBM intrinsic radioresistance. Using a pharmacological inhibition strategy, we identified Gö6976 as a chemical blocking Y705 phosphorylation of STAT3 in GBM cells. Gö6976 also inhibited pSTAT3-S727 but only in the pSTAT3-Y705-negative cell lines. Treating GBM cell with Gö6976 slowed their growth regardless of STAT3 activation status. Interestingly, Gö6976 showed a highly significant radiosensitizing effect on pSTAT3-Y705-negative cell lines that was consistent with the down-modulation of pSTAT3-S727. The relevance of these results is strengthened by immunohistochemical assay performed of GBM clinical samples that showed a variable level of pSTAT3-S727 positive staining in all tumor cells of all the patients. Furthermore, we are currently running on an in vitro study of the pSTAT3-S727 biological function by the mean of STAT3 dominant positive and dominant negative proteins. In summary, we showed that pSTAT3-S727 is involved in the intrinsic radioresistance and that pSTAT3-Y705 is a negative predicting marker of GBM cell response to Gö6976 as both a pSTAT3-S727 inhibitor and a radiosensitizer. Altogether, our results strengthen the clinical relevance of a specific inhibition of pSTAT3-S727 to radiosensitize GBM and then improve the patient treatment. Gliome Radiothérapie Resistance STAT3 Glioma Radiotherapy Resistance STAT3 616.8
209	Translocator protein expression and microglial activation in gliomas Su, Zhangjie January 2013 (has links) Background: Gliomas are the most frequent primary brain tumours in adults with two main histological subtypes: astrocytoma and oligodendroglioma. Translocator protein (TSPO) is a pro-inflammatory molecule over-expressed predominantly in activated microglia under pathological conditions. In astrocytoma samples, TSPO has also been found to be up-regulated and correlated with the malignancy of the tumours. [11C]-(R)PK11195 is a selective radioligand for the TSPO widely applied in clinical PET studies. We used [11C]-(R)PK11195 PET to investigate in vivo cerebral TSPO expression and microglial activation in patients with gliomas of different histological subtypes and grades. Methods: 24 glioma patients and 10 healthy volunteers underwent volumetric MRI and dynamic [11C]-(R)PK11195 PET scans. Tissue time-activity curves (TACs) were extracted from tumour regions and normal grey and white matter of the brains. Parametric maps of binding potential (BPND) were generated with the simplified reference tissue model. Co-registered MRI/PET was used to guide tumour biopsies. Tumour tissue was quantitatively assessed for TSPO expression and microglial infiltration by immunohistochemistry. Results: Three types of tumour TAC were observed in gliomas (grey matter-like kinetics, white matter-like kinetics and mixed kinetics), which differed between low-grade astrocytomas and low-grade oligodendrogliomas but were independent of the tumour grade. [11C]-(R)PK11195 BPND also differed between the two subtypes of low-grade gliomas, and low-grade gliomas demonstrated lower BPND than high-grade gliomas. 4 cases of high-grade glioma with minor or no contrast enhancement on MRI showed pronounced [11C]-(R)PK11195 binding. Immunohistochemistry confirmed that expression of TSPO correlated with [11C]-(R)PK11195 BPND of the tumour. It was related mainly to expression by neoplastic cells while the contribution from tumour-infiltrating microglia was minimal. When compared with control subjects, increased [11C]-(R)PK11195 BPND was found in patients’ normal appearing cerebral structures, being more prominent in the tumour-bearing than the tumour-free hemisphere. This extra-tumoral [11C]-(R)PK11195 binding was correlated with the duration of epileptic seizures, the symptom shared by the majority of our patients. Conclusions: Gliomas show differences in [11C]-(R)PK11195 kinetics and binding that are related to histological subtype and grade. Neoplastic cells rather than activated microglia are the main cellular sources expressing TSPO and determine the [11C]-(R)PK11195 binding within the tumours. [11C]-(R)PK11195 PET has the potential to detect malignant transformation of non-enhancing gliomas and facilitate the targeting of more aggressive areas in tumour biopsy. The high extra-tumoral [11C]-(R)PK11195 binding indicates widespread microglial activation in otherwise normal appearing cerebral structures of glioma patients. It is associated with epilepsy and could open up novel therapeutic perspectives for seizure control in this patient population. 616.99
210	Propriétés d'agent de ciblage et de molécules cytotoxiques pour l'IRM et la thérapie de gliomes / Properties of targeting agent and cytotoxic molecules for MRI and therapy of glioma Moncelet, Damien 14 October 2014 (has links) L'objectif de cette thèse concerne la possibilité d'améliorer le diagnostic et la thérapie des gliomes par le ciblage des intégrines à l’aide du RGD et par le développement d'agents multimodaux de type alcoxyamine. L’étude de l’internalisation du RGD révèle une régulation par la densité cellulaire, paramètre histologique dans la catégorisation des gliomes. Dans notre modèle, la densité cellulaire impacte la contribution de l’endocytose clathrine-dépendante et le métabolisme mais n’influence pas le rôle du cytosquelette. La régulation de l’internalisation des peptides RGD par la densité cellulaire reste à mieux comprendre afin de perfectionner les agents utilisant ce ciblage pour l’imagerie et le diagnostic des gliomes. Dans le même temps, les propriétés multimodales des alcoxyamines ont été évaluées àdes fins théranostiques. Ces molécules s’homolysent spontanément pour libérer un nitroxyde et un radical alkylant cytotoxique pouvant en plus induire une réactivation immunitaire antitumorale. Le nitroxyde est un agent de contraste pour l’IRM rehaussée par effet Overhauser. Le fort rehaussement du signal observé à proximité du nitroxyde assure un suivi en temps réel de l’apparition de l’agent alkylant. L’adaptation des alcoxyamines pour une homolyse conditionnelle dans le gliome permettrait une action thérapeutique avec un contrôle spatial et un suivi temporel du composé cytotoxique. L’acheminement de molécules d’intérêt vers la cible est rendu difficile par la présence de barrières physiologiques. Dans ce travail, la progression de nanoparticules par la voie intratrachéale peut se substituer à celle intraveineuse avec une augmentation du temps de rétention dans le gliome. / The aim of this thesis is to improve the diagnostic and the therapy of glioma through both the integrin targeting by RGD and the development of Alkoxyamine as multimodal agent. The RGD internalization is regulated by the cellular density, a histologic parameterfor the glioma classification. In our model, the cellular density increases the contribution of both the clathrin-mediated endocytosis and the metabolism but not the one of the cytoskeletal. A better knowledge about the RGD internalization regulation by the cell density could help the MRI probe development for glioma diagnosis. Properties of alkoxyamine as multimodal agent were evaluated to perform theranostic. The spontaneous alkoxyamine homolysis give a nitroxide radical and a cytotoxic alkylating agent that could induce immune reactivation against the tumor. This nitroxide is an Overhauser enhanced MRI contrast agent. The strong signal enhancement in the nitroxide vicinity gives information in real-time about the release of the alkyl radical. Alkoxyamine adaptation for a conditional homolysis through specific glioma proteolysis activity could induce a localized alkyl therapeutic effect with a real-time monitoring. Physiological barriers limit the drug accumulation in the targeted sites. In this study, the intratracheal instillation of nanoparticles can substitute the intravenous administrationincreasing their intratumoral retention time. Gliomes Thérapie IRM RGD Alcoxyamines Glioma Therapy MRI RGD Alkoxyamines

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