Global ETD Search

191	Perfil de expressão de genes modulados pela Pioglitazona em ilhotas pancreáticas murídeas / Gene expression profile modulated by pioglitazone in rat pancreatic islets Rodrigo Nunes Lamounier 28 March 2008 (has links) O receptor ativado do peroxissomo γ (PPAR-γ) é regulador do metabolismo e diferenciação do tecido adiposo, sendo um alvo conhecido das tiazolidinedionas (TZD), utilizadas para o tratamento do diabetes tipo 2 (DM2). As TZD agem como um agente sensibilizador da ação da insulina nos tecidos periféricos e tem sido especulado que as TZDs podem ter um papel na função da célula , prevenindo perda de massa e melhorando a sua viabilidade a longo prazo. Este efeito seria supostamente mediado pela transcrição de genes que favoreceriam a lipólise, diminuindo o conteúdo intracelular de triglicérides e, portanto, diminuindo a lipotoxicidade. Entretanto, alguns estudos também mostraram efeito nulo ou mesmo deletério das TZDs sobre as ilhotas pancreáticas. Na realidade, o papel de genes-alvo para o PPAR- nas ilhotas pancreáticas é ainda pouco conhecido. Estudamos o perfil de expressão gênica induzido pelo tratamento com Pioglitazona (Pio), uma TZD aprovada e disponível para uso clínico no tratamento do DM2, em ilhotas pancreáticas murídeas em cultura primária, com concentrações normal e suprafisiológica de glicose no meio de cultura. As ilhotas foram obtidas de ratos wistar machos de dois meses de idade e isoladas pelo método do gradiente de Ficoll e então cultivadas em 5,6 mM ou 23 mM de glicose por 24h, sendo tratadas com Pio 10 M ou DMSO 0,1% (veículo). A Pioglitazona foi cedida pela Takeda Farmacêutica, Osaka, Japão. O RNA foi extraído com Trizol e purificado com o kit RNeasy (Qiagen). As amostras foram marcadas e hibridizadas no microarranjo de cDNA Mouse Panchip 13k, usando-se cinco replicatas biológicas diferentes para cada condição. A análise estatística dos dados do microarranjo foi feita com o uso do programa significance analysis of microarrays (SAM) com uso de taxa de descobrimento falso (FDR) de 20%. A análise das vias acometidas foi feita com o Ingenuity Pathway Analysis (www.ingenuity.com). Os resultados de expressão gênica foram confirmados por RT-qPCR. Em concentração de 5,6 mM de glicose no meio de cultura, 101 genes foram modulados pela Pio, sendo 49 regulados para cima, com aumento de sua expressão na presença da droga e 52 genes regulados para baixo. Em 23 mM de glicose, 1.235 genes foram afetados, sendo 621 para cima e 623 para baixo. A comparação entre as duas condições revelou 74 genes que foram modulados em ambas as concentrações de glicose. A análise das vias biológicas alteradas mostrou que genes relacionados ao metabolismo de lípides foram modulados em ambas as concentrações de glicose. Em 23 mM foi ainda significativo o grupo de genes relacionados a ciclo celular e morte celular que tiveram sua expressão modificada pela presença da droga na cultura. Este dado demonstrou que além de seus efeitos conhecidos nos adipócitos, o sensibilizador de insulina Pioglitazona modula a expressão de genes nas ilhotas pancreáticas, especialmente na presença de concentrações suprafisiológicas de glicose, afetando notadamente genes relacionados ao metabolismo lipídico, sendo vários deles ligados a lipogênese, como Srebf1, Scd2 e Fabp4 cujas expressões aumentaram em ambas as concentrações de glicose. Além disso foi observado aumento na expressão de genes com atividade pró-apoptótica como Tnf, Bad, Bax, Caspase4, Fadd e Myc. A Pioglitazona parece induzir um perfil gênico desfavorável em ilhotas pancreáticas mantidas em cultura em concentrações suprafisiológicas de glicose. / Peroxisome proliferator-activator receptor-γ (PPAR-γ) is a target for thiazolidinedione (TZD) antidiabetic drugs and a regulator of adipose tissue differentiation and metabolism. TZD act as an insulin sensitizing agent on peripheral tissues. It has been speculated that TZD could play a role on beta-cell function, preventing loss and improving viability in the long-term. This effect is supposed to be mediated through a potential benefit against lipotoxicity, favouring lypolisis and decreasing intracellular tryglicerides content. Nevertheless some studies also showed a lack or even a potential deleterious effect of TZD on islets. The role of PPAR-γ target genes in pancreatic islets is actually still largely unclear. We studied the gene expression profile induced by the treatment with Pioglitazone (Pio), an approved TZD for T2DM therapy, on rat pancreatic islets primary culture both at normal and supraphysiological glucose medium concentrations. Islets were obtained from 2 month-old, male, wistar rats and isolated through the Ficoll gradient method and then cultured with 5.6 mM or 23 mM of glucose concentration for 24h, being treated with Pio 10 µM or DMSO 0.1% (vehicle). Pioglitazone was provided by Takeda Pharmaceuticals, Osaka, Japan. RNA was extracted with Trizol (Sigma) and purified with RNeasy kit (Qiagen). Samples were labeled and then hybridized on the Mouse PanChip 13k cDNA microarray, using 5 different biological replicates for each test condition. Statistical Analysis of the microarray data was performed using significance analysis of microarrays (SAM) with a false discovery rate of 20%. Pathways assessment was performed through Ingenuity Pathway Analysis (www.ingenuity.com). Gene expression results were confirmed through RT-qPCR. At 5.6 mM glucose 101 genes were modulated by Pio, 49 upregulated and 52 downregulated. At 23 mM, 1,235 genes were affected, 612 upregulated and 623 downregulated. Comparison between both conditions revealed 74 genes that were similarly modulated at both glucose concentrations. Pathway analysis of perturbed genes revealed biologically relevant networks related to lipid metabolism at both glucose medium concentrations. At 23 mM, cell cycle and cell death pathways were significant modulated as well. These data demonstrates that in addition to known effect in adipocytes, the insulin sensitizing agent Pioglitazone modulates gene expression in pancreatic islets, especially in the presence of supraphysiological glucose concentrations, affecting especially lipid metabolism and mechanisms of cell death and cell cycle. Considering the ontology of modulated genes it seems to be a trend towards lypogenesis (increased Srebf1, Scd2 and Fabp4 RNA expressions) with Pio treatment also enhancing the abundance of some genes considered to be pro apoptotic like Tnf, Bad, Bax, Caspase4, Fadd and Myc. Pioglitazone seems to induce a negative gene expression profile in islets cultured at high glucose concentrations. Diabetes Mellitus Expressão gênica Ilhotas pancreáticas PPAR gama Tiazolidinedionas Diabetes Mellitus Gene expression Islets of Langerhans Oligonucleotide array sequence analysis PPAR gama
192	Efeito da vitamina D no perfil transcricional de cultura organotípica de câncer de mama / Vitamin D effect in the transcriptional profile of breast cancer organotypic culture Cintia Milani 22 February 2010 (has links) 1,25(OH)2D3 em concentrações elevadas (10-100nM) exerce efeito antiproliferativo e altera o perfil de expressão gênica de linhagens de câncer de mama. Entretanto, o estudo de linhagens não considera as interações epitéliomesênquima, as quais regulam o desenvolvimento do tumor. Além disso, elevadas concentrações de 1,25(OH)2D3 induzem hipercalcemia in vivo. Nossa proposta foi avaliar as ações de uma dose relativamente baixa de 1,25(OH)2D3, concentração que pode ser alcançada in vivo (0,5nM), e uma concentração farmacológica (100nM) em cultura organotípica de câncer de mama, modelo próximo ao fisiológico que simula as condições in vivo, no perfil de expressão gênica.Para isto, avaliamos a integridade da via pela indução do gene alvo CYP24A1. Inicialmente foram avaliadas amostras de 5 pacientes. Biópsias de câncer de mama foram seccionadas, cultivadas e tratadas por 24h com 1,25(OH)2D3 0.5nM ou 100nM. A cultura organotípica manteve-se viável com preservação das características teciduais e índice de proliferação. O perfil de expressão gênica foi determinado pela análise do chip de microarray (U133 Plus 2.0, Affymetrix). Foram regulados 394 genes (Repeated Measures ANOVA, p<0.05, variação de expressão ³ 1,5) incluindo genes envolvidos em resposta imune e metabolismo celular primário. Foram selecionados 7 genes vitamina D induzidos (cuja variação de expressão foi ³ 2 e concordância no sentido da regulação). Análises complementares foram realizadas em um segundo grupo de pacientes (n=16) cujas amostras foram processadas da mesma maneira por qPCR. Estes genes eram: CD14, IL33, BMP6; DPP4, CA2, SHE e IL1RL1. Observou-se indução da expressão de CA2, DPP4 e CD14 mediante tratamento com 1,25(OH)2D3 100nM e CA2, também pela concentração 0,5nM. Além disso, avaliamos a expressão de genes candidatos num modelo in vitro de transformação mamária composto por células HME, HMELT, HMELT+Ras e também a linhagem MCF7, sob as mesmas condições de tratamento (por qPCR, western blotting, microscopia confocal e ELISA). Todos genes candidatos foram regulados positivamente pela vitamina D no modelo de progressão após o tratamento (RT-qPCR). Dentre eles, CD14, IL1RL1 e SHE também foram induzidos em células MCF7. A fração solúvel de CD14 mostrouse significativamente aumentada, assim como houve indução da proteína CA2 nas linhagens HME and HMELT tratadas com a VD. Concluindo, temos que a via de sinalização da vitamina D é funcional em secção de tecido tumoral cultivadas ex vivo, modelo que preserva as interações epitélio-estroma e simula as condições in vivo. Dentre os diversos genes modulados pela 1,25(OH)2D3, encontram-se CYP24A1, CA2, DPP4 e CD14, os quais podem representar biomarcadores da ação deste hormônio no câncer de mama. / High 1,25(OH)2D3 (VD) concentrations (10-100nM) exerts antiproliferative effects and modifies gene expression profile in breast cancer (BC) cell lines. However, studies conducted in cell lines disconsider stromal-epithelium interactions, which are known to regulate breast cancer development. Besides, high VD concentrations may cause hypercalcemia in vivo. Our aim was to evaluate the effects of a relatively low (0,5nM) concentrations of 1,25(OH)2D3 which can be attained in vivo, and pharmacological concentrations (100nM) in an organ culture model, a physiological model which mimics in vivo conditions, by means of differential gene expression profile. Vitamin D pathway integrity was evaluated by the expression of the target gene, CYP24A1. Freshly excised human BC tumor samples were sliced and cultivated in complete culture media containing vehicle, 0.5nM or 100nM 1,25(OH)2D3 for 24 hours. Organotypic culture remained viable with preserved tissue architecture and proliferation index for at least 24 hours. Affymetrix (U133 Plus 2.0) gene expression profiles obtained in five separate tissue samples for each treatment revealed 394 regulated genes (Repeated Measures ANOVA, p<0.05, fold induction ³ 1,5). Biological functions over-represented included immune response and primary cellular metabolism. Expression of seven candidate genes (CD14, IL33, BMP6; DPP4, CA2, SHE and IL1RL1; fold induction ³ 2) was further evaluated in a large number of samples (n=16) using qPCR. Among them, CA2, DPP4 and CD14 were induced by 1,25(OH)2D3 100nM. CA2 was also induced after 1,25(OH)2D3 0.5nM treatment. Expression of candidate genes was also assessed in a model of mammary epithelial cell transformation HME, HMELT, HMELT+Ras and also MCF7 cells treated with VD by qPCR, western blotting, confocal microscopy and ELISA assays. The seven genes were confirmed upregulated by VD (RT-qPCR analysis) in the cell transformation model. Among them, CD14, IL1RL1 and SHE were also modulated in MCF7 cells. A significant increase in soluble CD14 and induction of CA2 protein levels was also detected in HME and HMELT VD treated cells. In conclusion, VD signaling pathway is functional in BC slices cultured ex vivo, a model which preserves stromalepithelial interactions and mimics in vivo conditions. Several genes regulated by 1,25(OH)2D3 were identified in this model and CYP24A1, CA2, DPP4 and CD14 may represent biomarkers of vitamin D action in human breast cancer. Calcitriol Neoplasias da mama Reação em cadeia da polimerase Vitamina D Breast neoplasms Calcitriol Oligonucleotide array sequence analysis Polymerase chain reaction Vitamin D
193	Perfil de expressão gênica de fibroblastos associados ao câncer de mama submetidos ao tratamento com vitamina D / Gene expression profiling of breast carcinoma associated fibroblast following treatment with vitamin D Laura Tojeiro Campos 03 December 2010 (has links) O Papel da 1,25(OH)2D3 (VD3) ou calcitriol, o metabolito ativo da Vitamina D, em câncer de mama tem sido extremamente explorado. Os efeitos antiproliferativos, prodiferenciativos e antiinflamatórios da VD3 são bem documentados na literatura. Análises de microarray vêm auxiliando a identificação de vários genes responsivos e modulados pela VD3 e seus análogos. A maioria desses genes apresentados na literatura é proveniente de estudos utilizando linhagens celulares de câncer de mama ou modelos animais. Pouco é sabido sobre a ação da VD3 em outros tipos celulares constituintes do microambiente tumoral. Fibroblasto associado ao câncer (FAC), o principal componente do microambiente tumoral, apresenta um papel central no complexo processo de interação entre tumor e estroma e consequentemente em todos os passos envolvidos na tumorigênese. O objetivo do nosso estudo foi identificar genes chaves regulados pela VD3 em fibroblastos associados ao câncer de mama. Para isso, culturas primárias de fibroblastos provenientes de cinco amostras de carcinoma mamário ductal invasivo foram estabelecidas e posteriormente caracterizadas fenotipicamente por um conjunto de marcadores. Após a confirmação da presença de receptor de vitamina D, os fibroblastos de cada amostra foram divididos em três grupos: um grupo controle e grupos de tratamento com 0,5 nM e 100 nM de VD3 durante 24 horas. A determinação do perfil de expressão gênica foi realizado utilizando tecnologia de oligo microarray com o GeneChip Human Genome U133 Plus 2.0 (Affymetrix). Foram obtidos 274 genes diferentemente expressos entre os grupos controle e tratamento com 0,5 nM de VD3, muitos deles envolvidos em processos como apoptose e migração celular. Os 161 genes diferentemente expressos obtidos a partir da comparação entre grupos controle e tratamento com 100 nM de VD3 apresentaram-se funcionalmente envolvidos em diversos processos biológicos, sendo que os mais significativos processos regulados pela VD3 em fibroblastos associados ao câncer de mama foram respostas inflamatória e imune, sugerindo que a ação antiinflamatória da VD3, anteriormente relatada em estudos utilizando células epiteliais de câncer de mama, pode também ser aplicada a fibroblastos associados ao câncer de mama / The role of 1,25(OH)2D3 (calcitriol), the active metabolite of Vitamin D, in breast cancer has been extremely explored. Antiproliferative, prodifferentiating and anti-inflammatory effects of calcitriol have been reported in breast cancer. Expression profile by microarray analysis has identified many responsive genes modulated by calcitriol and analogs. The majority of them defined to date are based on studies using breast cancer cell lines or mouse models. Little is known about the action of calcitriol in the others cell types present into the tumor microenvironment. Cancerassociated fibroblasts (CAFs), the principal cell component of the tumor microenvironment, play a central role in the complex process of tumour stroma interaction and consequently in all breast cancer tumorigenesis steps. The aim of our study was to identify key genes that are regulated by calcitriol in breast cancer associated fibroblasts. Primary fibroblasts cell cultures from five breast cancer samples were established and then phenotyping characterized by a set of markers. The occurrence of vitamin D receptor was confirmed in all samples and fibroblasts were divided in three groups: one control group and two treatment groups, 0.5 nM and 100 nM of calcitriol during 24 hours. The determination of gene expression profile was performed by oligo microarray technology using the GeneChip Human Genome U133 Plus 2.0 (Affymetrix). Control and 0.5 nM calcitriol analysis resulted in 274 differentially expressed genes, many of then involved in biological processes as apoptosis and cell migration. The 161 differentially expressed genes obtained from comparison between groups control and 100 nM calcitriol treatment were functionally involved in several biological processes. The most significantive processes regulated by VD3 in breast CAFs were the inflammatory and immune responses, suggesting that the anti-inflammatory action of calcitriol, yet reported in several studies using epithelial breast cancer cells, may also been applied to breast cancer associated fibroblasts Calcitriol Fibroblastos Neoplasias da mama Perfilação da expressão gênica Breast neoplasms Calcitriol Fibroblasts Gene expression profiling Oligonucleotide array sequence analysis
194	Test de génotypage plaquettaire in vitro à base de sandwich de microparticules biofonctionnalisées : Détection par capteur de fluorescence à ondes évanescentes, imagerie de fluorescence et cytométrie en flux / Biofunctionnalized microparticles based sandwiches for in vitro platelet genotyping test : detection by evanescent waves biosensor, fluorescence scanner and flow cytometry Cornillon, Amandine 18 December 2014 (has links) Cette thèse porte sur l’élaboration d’un outil de capture d’ADN permettant d’identifier une mutation génétique (SNP) grâce à la formation de sandwichs avec des particules de carboxylatex biofonctionnalisées avec des oligonucléotides couplée à une détection de la fluorescence. Le modèle biologique choisi pour ce projet est le génotypage plaquettaire et plus particulièrement la recherche du gène biallélique HPA-1. Le principal objectif de ce travail a été d’optimiser un outil de capture préalablement développé dans l’équipe (Trévisan, 2011) afin de réduire le nombre d’étapes et de simplifier la mise en oeuvre globale du test en modifiant les interactions moléculaires utilisée pour capturer l’ADN cible et en utilisant des particules fluorescentes comme élément de détection. En présence d’ADN cible, des sandwichs sont formés entre les particules fluorescentes et les particules magnétiques biofonctionnalisées. Ces sandwichs sont purifiés par séparation magnétique et la fluorescence est détectée par trois méthodes : la cytométrie en flux, l’imagerie de fluorescence et l’Evareader (détection par ondes évanescentes). Dans un premier temps, les paramètres de fonctionnalisation chimique et biologique des différentes particules (magnétiques et fluorescentes) ont été déterminés et optimisés ainsi que les conditions d’hybridation pour la capture de l’ADN cible. Ensuite, la formation des sandwichs et leur détection ont été suivies par des mesures de fluorescence en utilisant trois méthodes différentes : la cytométrie en flux, l’imagerie de fluorescence et l’Evareader (capteur à ondes évanescentes). Les résultats obtenus avec les différentes méthodes de détection sont concordants et montrent que l’outil de capture d’ADN développé permet de capturer la cible synthétique (oligonucléotide) HPA-1 en réduisant le temps d’analyse de 45 min. Dans nos conditions, le test permet de discriminer l’allèle a de l’allèle b du gène HPA-1 qui ne diffère que d’un nucléotide. Le rapport des signaux de fluorescence issus du sandwich spécifique et du sandwich non spécifique est d’environ 2,5 à 3. Ce rapport devra être amélioré par la suite, en optimisant les conditions de formation des sandwichs. La prochaine étape consistera à optimiser le système de capture d’ADN développé pour gagner en spécificité et déterminer la limite de détection du test. Ce test devra également être validé avec des échantillons biologiques. A plus long terme, la fluorescence pourra être détectée par un photodétecteur miniaturisé actuellement développé à l’Université de Sherbrooke. Des études préliminaires présentées dans ce manuscrit montrent les potentialités de ce nouveau transducteur. / This thesis is about the development of a new assay to capture DNA. This assay is based on the formation of sandwiches between biofunctionnalized with oligonucleotides carboxylatex microparticles combined with fluorescence detection. It should be able to discriminate single nucleotide polymorphism (SNP). This assay is designed to be applied to platelet genotyping for the research of the gene HPA-1. The main goal of this work was to improve an assay previously developed (Trévisan, 2011) by INL and EFS Rhône-Alpes. The objectives are to reduce the number of steps and to simplify the test. To do so, the molecular interactions used in order to capture target DNA are modified and fluorescent microparticles are used for the detection. In the presence of target DNA, sandwiches are formed between both biofunctionnalized fluorescent and magnetic particles. Those sandwiches are purified through magnetic separation. Then, fluorescence is detected by three methods: flow cytometry, fluorescence imaging and Evareader (detection with an evanescent wave). First, chemical and biological parameters for the functionalization of the different particles (magnetic and fluorescent) are determined. The conditions for the capture of target DNA were optimized. Then, the formation and the detection of the sandwiches were estimated by measuring the fluorescence using three different methods: flow cytometry, fluorescence imaging and Evareader. The results obtained with the three methods are consistent. They show that the new system enables to capture synthetic target (oligonucleotide) HPA-1 with a reduction of total time analysis of 45 min. In our conditions, SNP can be discriminated for HPA-1 gene. For this discrimination, the fluorescence signal ratio about 2.5 to 3. This ratio should be improved by optimizing the conditions of sandwiches formation. Next step will consist in the optimization of the system developed to capture DNA in order to gain specificity and to determine the limit of detection. This test should also be validated with biological samples. In the long term, fluorescence could be detected by a miniaturized photodetector developed in the University of Sherbrook. Preliminary studies presented in this manuscript show the potentialities of this new transducer. Microparticules magnétiques Microparticules fluorescentes Sandwichs Génotypage plaquettaire Capteur à ondes évanescentes Cytométrie en flux Oligonucléotide Magnetic microparticles Fluorescent microparticles Sandwiches Platelet genotyping Evanescent wave sensor Flow cytometry Oligonucleotide
195	Multi-fonctionnalisation par synthèse supportée de nanoparticules de silice pour des applications biomédicales / Silica nanoparticle multifunctionalization by solid phase synthesis for biomedical applications De Crozals, Gabriel 11 December 2015 (has links) Les nanomatériaux combinant des fonctions de ciblage, d'imagerie, de thérapie et de détection font l'objet de nombreuses recherches dans le domaine de la santé. Les travaux présentés dans cette thèse concernent la multi‐fonctionnalisation de nanoparticules (NPs) par un procédé de synthèse supportée. Le support solide développé dans cette étude est constitué d'un matériau poreux en verre sur lequel sont greffées de manière temporaire des nanoparticules de silice. La fonctionnalisation de la surface des nanoparticules a été réalisée de façon automatisée par une chimie de synthèse dite aux phosphoramidites. Dans un premier temps, cette technique a permis d'obtenir des densités de greffage de l'ordre de 5000 à 7000 oligonucléotides par nanoparticule, ce qui représente une fonctionnalisation 10 à 20 fois supérieure à celles obtenues par des méthodes de greffage en solution. Les brins d'ADN synthétisés sur les NPs ont montré une bonne accessibilité pour l'hybridation avec un brin d'ADN complémentaire, ouvrant la voie à des applications thérapeutiques ou à l'intégration de ces objets dans des systèmes de détection. La deuxième partie de ces travaux est consacrée à la vectorisation d'une protéine thérapeutique, le G‐CSF (facteur de croissance de colonies de granulocytes), par des nanoparticules présentant également des propriétés d'imagerie. Ces nanovecteurs thérapeutiques ont montré des propriétés de stimulation cellulaire in vitro et de ciblage de la rate, organe réservoir de neutrophiles, in vivo. Enfin il a été démontré que la modification de NPs sur support ouvre des perspectives intéressantes pour la préparation d'assemblages complexes de nanoparticules (dimères et NPs dissymétriques) / Nanomaterials combining targeting, imaging, therapy and sensing properties are of growing interest for biomedical applications. The work reported in this thesis concerns nanoparticle (NP) multifunctionalization by solid phase synthesis. The solid support developed in this study is composed of a porous glass material on which silica NPs are temporarily grafted. Nanoparticle surface functionalization was performed by automated synthesis using phosphoramidite chemistry. Firstly, high surface loadings from 5000 to 7000 oligonucleotides per NP were achieved, representing a functionalization 10 to 20‐fold greater than those obtained by coupling methods in solution. DNA strands synthesized on NPs showed a good accessibility for hybridization with a complementary DNA strand, paving the way for therapeutic applications or integration of these objects in detection systems. The second part of this work was devoted to the vectorization of a therapeutic protein, GCSF (Granulocyte‐Colony Stimulating Factor) by nanoparticles that also exhibited imaging properties. These therapeutic nanocarriers showed cell stimulating properties in vitro and spleen targeting, which is a reservoir of neutrophils, in vivo. Finally, it was demonstrated that the solid phase modification of NPs opens interesting perspectives for the production of complex nanoparticle assemblies (dimers and asymmetric NPs) Nanoparticule Silice Synthèse supportée Oligonucléotide Multi‐fonctionnalisation Immunothérapie Dimère Nanoparticle Silica Solid phase synthesis Oligonucleotide Multifunctionalization Granulocyte‐Colony Stimulating Factor Immunotherapy Dimer 540
196	Perfil de expressão gênica de fibroblastos associados ao câncer de mama submetidos ao tratamento com vitamina D / Gene expression profiling of breast carcinoma associated fibroblast following treatment with vitamin D Campos, Laura Tojeiro 03 December 2010 (has links) O Papel da 1,25(OH)2D3 (VD3) ou calcitriol, o metabolito ativo da Vitamina D, em câncer de mama tem sido extremamente explorado. Os efeitos antiproliferativos, prodiferenciativos e antiinflamatórios da VD3 são bem documentados na literatura. Análises de microarray vêm auxiliando a identificação de vários genes responsivos e modulados pela VD3 e seus análogos. A maioria desses genes apresentados na literatura é proveniente de estudos utilizando linhagens celulares de câncer de mama ou modelos animais. Pouco é sabido sobre a ação da VD3 em outros tipos celulares constituintes do microambiente tumoral. Fibroblasto associado ao câncer (FAC), o principal componente do microambiente tumoral, apresenta um papel central no complexo processo de interação entre tumor e estroma e consequentemente em todos os passos envolvidos na tumorigênese. O objetivo do nosso estudo foi identificar genes chaves regulados pela VD3 em fibroblastos associados ao câncer de mama. Para isso, culturas primárias de fibroblastos provenientes de cinco amostras de carcinoma mamário ductal invasivo foram estabelecidas e posteriormente caracterizadas fenotipicamente por um conjunto de marcadores. Após a confirmação da presença de receptor de vitamina D, os fibroblastos de cada amostra foram divididos em três grupos: um grupo controle e grupos de tratamento com 0,5 nM e 100 nM de VD3 durante 24 horas. A determinação do perfil de expressão gênica foi realizado utilizando tecnologia de oligo microarray com o GeneChip Human Genome U133 Plus 2.0 (Affymetrix). Foram obtidos 274 genes diferentemente expressos entre os grupos controle e tratamento com 0,5 nM de VD3, muitos deles envolvidos em processos como apoptose e migração celular. Os 161 genes diferentemente expressos obtidos a partir da comparação entre grupos controle e tratamento com 100 nM de VD3 apresentaram-se funcionalmente envolvidos em diversos processos biológicos, sendo que os mais significativos processos regulados pela VD3 em fibroblastos associados ao câncer de mama foram respostas inflamatória e imune, sugerindo que a ação antiinflamatória da VD3, anteriormente relatada em estudos utilizando células epiteliais de câncer de mama, pode também ser aplicada a fibroblastos associados ao câncer de mama / The role of 1,25(OH)2D3 (calcitriol), the active metabolite of Vitamin D, in breast cancer has been extremely explored. Antiproliferative, prodifferentiating and anti-inflammatory effects of calcitriol have been reported in breast cancer. Expression profile by microarray analysis has identified many responsive genes modulated by calcitriol and analogs. The majority of them defined to date are based on studies using breast cancer cell lines or mouse models. Little is known about the action of calcitriol in the others cell types present into the tumor microenvironment. Cancerassociated fibroblasts (CAFs), the principal cell component of the tumor microenvironment, play a central role in the complex process of tumour stroma interaction and consequently in all breast cancer tumorigenesis steps. The aim of our study was to identify key genes that are regulated by calcitriol in breast cancer associated fibroblasts. Primary fibroblasts cell cultures from five breast cancer samples were established and then phenotyping characterized by a set of markers. The occurrence of vitamin D receptor was confirmed in all samples and fibroblasts were divided in three groups: one control group and two treatment groups, 0.5 nM and 100 nM of calcitriol during 24 hours. The determination of gene expression profile was performed by oligo microarray technology using the GeneChip Human Genome U133 Plus 2.0 (Affymetrix). Control and 0.5 nM calcitriol analysis resulted in 274 differentially expressed genes, many of then involved in biological processes as apoptosis and cell migration. The 161 differentially expressed genes obtained from comparison between groups control and 100 nM calcitriol treatment were functionally involved in several biological processes. The most significantive processes regulated by VD3 in breast CAFs were the inflammatory and immune responses, suggesting that the anti-inflammatory action of calcitriol, yet reported in several studies using epithelial breast cancer cells, may also been applied to breast cancer associated fibroblasts Breast neoplasms Calcitriol Calcitriol Fibroblastos Fibroblasts Gene expression profiling Neoplasias da mama Oligonucleotide array sequence analysis Perfilação da expressão gênica
197	Desarrollo de biosensores nanofotónicos de alta sensibilidad para la detección de biomarcadores microRNA en aplicaciones de diagnóstico médico Ruiz Tórtola, Ángela 02 September 2021 (has links) [ES] El interés en desarrollar biosensores de alta sensibilidad para identificar y cuantificar una amplia gama de moléculas ha aumentado notablemente durante las últimas décadas en numerosos campos de aplicación. Entre ellos probablemente el más demandado sea el diagnóstico médico, el cual ha sido impulsado por el descubrimiento de nuevos biomarcadores de enfermedades, tales como los miRNAs. No obstante, la mayoría de las técnicas existentes para realizar la detección requieren el uso de marcadores debido a la falta de sensibilidad para detectar analitos en bajas concentraciones. Las estructuras ópticas basadas en campo evanescente, donde la luz es usada para transformar interacciones bioquímicas en variaciones de las señales ópticas, constituyen una interesante alternativa para el desarrollo de este tipo de biosensores sin la necesidad de utilizar marcadores (label-free). Concretamente las estructuras fotónicas integradas en tecnología Silicon On Insulator exhiben alta sensibilidad, bajo límite de detección y alto nivel de multiplexación en aplicaciones de detección, especialmente cuando se utilizan materiales y procesos basados en silicio y compatibles con CMOS. En esta Tesis Doctoral se muestra el desarrollo de un biosensor fotónico integrado label-free para la detección de oligonucleótidos, y más concretamente biomarcadores de cáncer miRNAs. Este biosensor está basado en la combinación de estructuras de band gap fotónico y la inmovilización de sondas de tipo molecular beacon sobre su superficie. La combinación de sendos elementos de transducción y bioreconomiento ha proporcionado una elevada sensibilidad en la detección de oligonucleótidos manteniendo un footprint por debajo de 100 µm2. El uso de este biosensor fotónico ha permitido también estudiar experimentalmente una novedosa técnica de amplificación de detección. Esta técnica explota el cambio conformacional sufrido por la sonda molecular beacon tras la hibridación con su oligonucleótido complementario, permitiendo alejar una partícula/molécula de la superficie del sensor, lo cual podría ser utilizado para amplificar la respuesta de detección del sensor. Finalmente se propone una estrategia de regeneración en línea de los biosensores nanofotónicos desarrollados mediante una estrategia química basada en el uso de formamida. Esta estrategia no solo permite ahorrar tiempo sino que también reduce la variación entre las medidas obtenidas en experimentos diferentes, siendo especialmente útil cuando se testean niveles similares de analito. / [CA] L'interés en desenvolupar biosensors d'alta sensibilitat per a identificar i quantificar una àmplia gamma de molècules ha augmentat notablement durant les últimes dècades en nombrosos camps d'aplicació. Entre ells probablement el més demandat siga el diagnòstic mèdic, el qual ha sigut impulsat pel descobriment de nous biomarcadors de malalties, com ara els miRNAs. No obstant això, la majoria de les tècniques existents per a realitzar la detecció requereixen l'ús de marcadors a causa de la falta de sensibilitat per a detectar anàlits en baixes concentracions. Les estructures òptiques basades en camp evanescent, on la llum és usada per a transformar interaccions bioquímiques en variacions dels senyals òptics, constitueixen una interessant alternativa per al desenvolupament d'aquesta tipus de biosensors sense la necessitat d'utilitzar marcadors (label-free). Concretament les estructures fotòniques integrades en tecnologia Silicon On Insulator exhibeixen alta sensibilitat, baix límit de detecció i alt nivell de multiplexació en aplicacions de detecció, especialment quan s'utilitzen materials i processos basats en silici i compatibles amb CMOS. En aquesta Tesi Doctoral es mostra el desenvolupament d'un biosensor fotònic integrat label-free per a la detecció d'oligonucleòtids, i més concretament biomarcadors de càncer miRNAs. Aquest biosensor està basat en la combinació d'estructures de band gap fotònic i la immobilització de sondes de tipus molecular beacon sobre la seua superfície. La combinació d'ambdós elements de transducció i bioreconeixement ha proporcionat una elevada sensibilitat en la detecció d'oligonucleòtids mantenint un footprint per davall de 100 µm². L'ús d'aquest biosensor fotònic ha permés també estudiar experimentalment una nova tècnica d'amplificació de detecció. Aquesta tècnica explota el canvi conformacional patit per la sonda molecular beacon després de la hibridació amb el seu oligonucleòtid complementari, permetent allunyar una partícula/molècula de la superfície del sensor, la qual cosa podria ser utilitzada per amplificar la resposta de detecció del sensor. Finalment es proposa una estratègia de regeneració en línia dels biosensors nanofotònics desenvolupats mitjançant una estratègia química basada en l'ús de formamida. Aquesta estratègia no sols permet estalviar temps sinó que també redueix la variació entre les mesures obtingudes en experiments diferents, sent especialment útil quan es testen nivells similars d'anàlit. / [EN] The interest in developing highly sensitive biosensors to identify and quantify a wide range of molecules has remarkably been increasing during the last decades in numerous application fields. Among them, medical diagnosis is probably the most demanded, which has been driven by the discovery of new biomarkers of diseases, such as miRNAs. However, most of the existing techniques to perform the detection require the use of labels due to the lack of sensitivity to detect analytes at low concentrations. Evanescent-wave optical structures, where light is used to transduce biochemical interactions into variations of the optical signals, are an interesting alternative for the development of this type of biosensors allowing a label-free detection. Specifically, the planar integrated photonic structures based on Silicon On Insulator technology exhibit an extremely high sensitivity, a low detection limit and a high level of multiplexing in detection applications, especially when using materials and processes based on silicon and being CMOS compatible. This PhD Thesis is focused on the development of label-free integrated photonic biosensors for the detection of oligonucleotides, and more specifically miRNA cancer biomarkers. This biosensor is based on the combination of photonic band gap structures and the immobilization of molecular beacon probes on its surface. The combination of both transduction and biorecognition elements has provided a very high sensitivity towards the detection of target oligonucleotides while keeping a sensor footprint below 100 µm2. The use of this photonic biosensor also allowed the experimental study of a novel detection amplification technique. This technique exploits the conformational change suffered by the molecular beacon probe after hybridization with its complementary oligonucleotide, allowing the displacement of a particle/molecule away from the sensor surface, what might be used for amplifying the sensor's detection response. Finally, an online regeneration strategy for nanophotonic biosensors developed through a chemical strategy based on the use of formamide is proposed. This strategy not only saves time but also reduces the variation between measurements obtained in different experiments, being especially useful when testing similar levels of analyte. / Ruiz Tórtola, Á. (2021). Desarrollo de biosensores nanofotónicos de alta sensibilidad para la detección de biomarcadores microRNA en aplicaciones de diagnóstico médico [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/172631 / TESIS Photonic biosensor Photonics Medical diagnosis Silicon Oligonucleotide Biosensor Fotónica Molecular beacon Band gap MicroRNA Detección Diagnóstico médico Silicio Oligonucleótido TEORIA DE LA SEÑAL Y COMUNICACIONES
198	The impact of various chromatographic conditions on the separation of modified and unmodified oligonucleotides / Påverkan av olika kromatografiska förhållanden på separationen av modifierade och omodifierade oligonukleotider Frazer, Lewis January 2021 (has links) In this study, the effects of certain chromatographic conditions on various modified and unmodified oligonucleotides were investigated. At the forefront of this study was the investigation of a new Ion-pair Reversed-phase liquid chromatography (IP-RPLC) method, that had the potential to replace a previously established triethylammonium acetate (TEAA) IP-RPLC method developed for oligonucleotide separations. This method, utilising the counter ion dibutyl amine (DBA) and a Tris-buffer at pH 8, produced promising results indicating that the strong binding strength of DBA creates a hybrid IEX/RPLC separation method – the separation of oligonucleotides is dynamically based on both charge and length. Higher concentrations of DBA appear to produce better results that include improved efficiency, increased retention and even the potential discovery of hidden impurities. In conjugation with Ultra-high-pressure liquid chromatography (UHPLC) systems, sub-2 µm particle columns and gradient optimisations, separations of complex oligonucleotides could be achieved in short analysis times. Furthermore, effective separations at the analytical level can be applied and adapted to larger scale Prep-LC, potentially also improving the purification process of crude oligonucleotide samples. Further development and validation are, however, required for any future work with this method. / I denna studie har effekten av vissa kromatografiska förhållanden på olika modifierade och icke-modifierade oligonukleotider undersökts. I framkanten av denna studie var undersökningen av en ny IP-RPLC metod, vilken har potential att ersätta den tidigare etablerade trietylammonium acetat (TEAA) IP-RPLC metoden, vilken utvecklats för separationen av oligonukleotider. Denna metod, vilken använder dibutylamin (DBA) som motjon och en Tris-buffert vid pH 8, gav lovande resultat vilka indikerar att den starka bindningsstyrkan av DBA skapar en hybrid IEX/RPLC separationsmetod – separationen av oligonkuleotider styrs både av dess laddning och dess längd. Höga koncentrationer av DBA verkade ge bättre resultat som inkluderar hög effektivitet, ökad retention och även den potentiella upptäckten av gömda föroreningar. I samband med UHPLC systemer, kolonner med mindre än 2µm i partikelstorlek och optimiserade gradienter, separationer av komplexa oligonukleotider erhölls på korta analystider. Effektiva separationer vid den analytiska nivån kan appliceras och adapteras till storskalig preparative-LC, med potential att kunna förbättra reningsprocessen för syntetiserade oligonukleotider. Vidare utveckling och validering krävs för framtida användning av denna metod. Oligonucleotide Modified oligonucleotides Ion-pair chromatography Chromatography Analytical chemistry TEAA DBA Chemistry Oligonukleotid Modifierade oligonukleotider Jonpars kromatografi Kromatografi Analytisk kemi TEAA DBA Kemi Chemical Sciences Kemi
199	Expression analysis of the 3p25.3-ptelomere genes in epithelial ovarian cancer Rossiny, Vanessa Delphine. January 2008 (has links) No description available. Gene Expression Profiling -- methods. Chromosomes, Human, Pair 3 -- genetics. Ovarian Neoplasms -- genetics.
200	Conditional Activation and Synergistic Enhancement of Smac Mimetic Peptides with Nucleic Acids Altrichter, Yannic 14 March 2022 (has links) Smac-Mimetika (SMCs) sind eine Klasse von Tetrapeptid-abgeleiteten Medikamenten, die dem homodimeren, pro-apoptotischen Protein Smac nachempfunden sind. Sie binden und hemmen die Apoptose-Inhibitoren (IAPs), eine Klasse von anti-apoptotischen Proteinen, die von vielen medikamentenresistenten Krebszellen überexprimiert werden. In dieser Arbeit wurden Strategien zur Steigerung und Kontrolle der Aktivität von SMCs durch Konjugation an Oligonukleotide (ON) untersucht. ONs wie Desoxyribonukleinsäure (DNA) oder das peptidbasierte Analogon Peptidnukleinsäure (PNA) bieten einzigartige Erkennungseigenschaften, die zur Detektion und/oder zur Modulation der Expression krebsspezifischer Genprodukte genutzt werden können. Letzteres kann z. B. mit Antisense-Oligonukleotiden (ASOs) erreicht werden, kurzen einzelsträngigen DNA- oder RNA-Molekülen, die die Translation einer komplementären Zielsequenz blockieren. Im ersten Teil der Arbeit wurden Konjugate aus SMCs und ASOs auf Synergie-Effekte getestet. Viele menschliche Krebszelllinien sind gegen SMCs resistent, weil andere anti-apoptotische Proteine wie das zelluläre FLICE-ähnliche Protein (c-FLIP) als Ausfallsicherung wirken. Es konnte gezeigt werden, dass diese Resistenz durch Kupplung eines SMC an ein anti-c-FLIP ASO überwunden werden kann. Im zweiten Teil wurden kurze ON-Sonden verwendet, um ein templiertes Reaktionssystem zur gezielten Aktivierung eines SMCs in Gegenwart von X-linked Apoptose-Inhibitor (XIAP) mRNA zu erzeugen. Es wurden zwei verschiedene Ansätze untersucht: Ein templierter Acyl-Transfer, bei dem hochaffine, bivalente SMCs aus niedrig affinen, monovalenten Vorläufern erzeugt werden und eine Demaskierung der für die Bindungsaffinität von SMCs entscheidenden, N-terminalen Aminogruppe durch templierte Reduktion eines Azids. Für die zweite Strategie wurden zwei verschiedene Reaktionen verglichen, die Staudinger-Reduktion mit Phosphinen und eine katalytische Photoreduktion mit einem Ruthenium-Komplex. / Smac mimetic compounds (SMCs) are a class of tetrapeptide-derived drugs, modelled after the homodimeric, pro-apoptotic protein Smac. They bind and antagonize Inhibitor of Apoptosis Proteins (IAPs), a class of anti-apoptotic proteins overexpressed by many drug-resistant cancer cells. In this work, strategies to enhance and control the activity of SMCs by conjugating them to oligo-nucleotides (ON) were investigated. ONs like deoxyribonucleic acid (DNA) or the peptide-based analog peptide nucleic acid (PNA) offer unique recognition properties that can be used to detect and/or modulate the expression of cancer-specific gene products. The latter can be achieved with antisense oligonucleotides (ASOs), short single-stranded DNA or RNA molecules that block the translation of a complementary sequence of interest. In the first part of this work, conjugates between SMCs and ASOs were tested for synergy. Many human cancer cell lines are resistant to SMCs because other anti-apoptotic proteins like the cellular FLICE-like protein (c-FLIP) act as a failsafe. It could be demonstrated that by joining an SMC with an anti-c-FLIP ASO this resistance can be overcome. In the second part, short ON probes were used to create a templated reaction system to conditionally activate an SMC in the presence of x-linked inhibitor of apoptosis (XIAP) mRNA. Two different approaches were explored: A templated acyl transfer that yields high affinity bivalent SMCs from low affinity, monovalent precursors and unmasking of the N-terminal amino group, which is crucial for the binding affinity of SMCs, by templated reduction of an azide. For the second strategy, two different chemistries were compared, Staudinger reduction with phosphines and a catalytic photoreduction using a ruthenium complex. Smac-Mimetika Antisense Peptid-Oligonukelotid Synergie Templierte Chemie Smac mimetics antisense peptide-oligonucleotide synergy templated chemistry 547 Organische Chemie VK 8577 VK 8567 ddc:547

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