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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
21

Comparação entre os resultados da expressão gênica da desmina, alfa-actina e TGF-beta1 obtidos a partir dos métodos da reação em cadeia de polimerase via transcriptase reversa (RT-PCR) semiquantitativa e em tempo real (qRT-PCR) no modelo / Comparison between the results of gene expression of desmin, alpha-actin and TGF-beta1 obtained from the methods of reverse transcriptase polymerase chain reaction (RT-PCR) semiquantitative and real-time (qRT-PCR) in model of selective bile ducts ligation in growing animals

Gonçalves, Josiane de Oliveira 10 April 2014 (has links)
Os mecanismos responsáveis pela fibrose hepática na infância são pouco conhecidos. Crianças com atresia das vias biliares, quando submetidas a portoenterostomia a Kasai com sucesso, se tornam anictéricas mas mesmo assim desenvolvem cirrose a longo prazo. Da mesma forma, a ocorrência de estenoses biliares segmentares intra-hepáticas no pós-operatório de transplante hepático podem levar ao desenvolvimento de cirrose em todo o órgão. Tais fatos sugerem que mecanismos endócrinos ou parácrinos estejam envolvidos na fibrogênese hepática. Para elucidar este processo o modelo de ligadura seletiva das vias biliares em ratos jovens foi desenvolvido em nosso laboratório. Usando este modelo, identificamos mudanças na expressão do gene da alfa-actina de músculo liso, tanto no parênquima hepático obstruído como no parênquima hepático adjacente à obstrução. No entanto, o perfil de expressão gênica da desmina, uma proteína presente em níveis elevados durante a ativação das células estreladas hepáticas e o TGF-beta1, principal citocina pró-fibrogênica, não demostraram diferenças significantes quando analisados pelo método do RT-PCR semiquantitativo. Assim, os mecanismos moleculares envolvidos na modulação da fibrogênese hepática nesse modelo experimental não estão totalmente compreendidos. A metodologia do qRT-PCR (PCR em tempo real), têm sido previamente descrita como um método mais preciso e sensível, possibilitando a detecção do aumento do número de cópias do gene à medida que ocorre a amplificação, enquanto que o método do RT-PCR semiquantitativo a análise dos transcritos só é realizada após a etapa da amplificação. O objetivo deste estudo foi avaliar as alterações moleculares no modelo experimental de ligadura seletiva das vias biliares e comparar os resultados obtidos entre os métodos do RT-PCR semiquantitativo e do qRT-PCR em tempo real. Foi realizada a ligadura seletiva do ducto biliar em ratos Wistar com 21 dias de vida, os grupos foram separados de acordo com o momento da morte: 7 ou 60 dias após a cirurgia. A expressão da desmina, alfa actina de músculo liso e TGF-beta1 foi avaliada no tecido do parênquima hepático com obstrução biliar (ducto ligado - DL) e no parênquima hepático adjacente à obstrução biliar (ducto não ligado - DNL) usando o RT-PCR semiquantitativo e o qRT-PCR em tempo real. A metodologia do qRT-PCR em tempo real permitiu identificar mudanças no perfil de expressão gênica que não foram demonstrados pelo método semiquantitativo. O parênquima DL mostrou reação fibrogênica mais intensa, com aumento na expressão da alfa actina de músculo liso e TGF-beta1 após 7 dias. O parênquima DNL apresentou resposta fibrogênica tardia, com aumento da expressão da desmina 7 dias e 60 dias após a cirurgia, além de aumento da alfa-actina de músculo liso 60 dias após a cirurgia. O qRT-PCR em tempo real apresentou maior sensibilidade para identificar mudanças no perfil de expressão gênica em relação ao método convencional do RT-PCR semiquantitativo. Nossos resultados ajudam a esclarecer a dinâmica das alterações moleculares envolvidas na modulação da fibrogênese hepática no modelo experimental de ligadura seletiva do ducto biliar e pode ser diretamente aplicado para o estudo de estenoses biliares intra-hepáticas e atresia das vias biliares / The mechanisms responsible for liver fibrosis in childhood are poorly understood. Children suffering from biliary atresia, when submitted to the successful Kasai portoentostomy, become anicteric, but nonetheless develop cirrhosis in the long term. Similarly, the occurrence of intrahepatic biliary stenosis in the postoperative period of liver transplantation may lead to cirrhosis of the whole organ. Such facts suggest that endocrine or paracrine mechanisms are involved in hepatic fibrogenesis. To elucidate this process, the selective bile duct ligation model in young rats was developed in our laboratory. Using this model, we identified changes in the expression of smooth muscle alpha-actin both in the obstructed parenchyma and the hepatic parenchyma adjacent to the obstruction. However, the expression profiles of desmin, a protein present at high levels during activation of hepatic stellate cells and TGF-beta1, the main pro-fibrogenic cytokine, were unchanged when analyzed with semiquantitative RT-PCR. Thus, the molecular mechanisms involved in the modulation of hepatic fibrogenesis in this experimental model are not fully understood. The methodology of qRT-PCR (real time PCR) has previously been described as a more precise and sensitive method, allowing the detection of increased copy number of the gene while amplification occurs, whereas by semiquantitative RT-PCR analysis transcripts is only perfomed after the amplification step. This study aimed to evaluate the molecular changes in experimental model of selective bile duct ligation and compare the results between semiquantitative RT-PCR and real-time qRT-PCR methods. Selective biliary duct ligation was performed on Wistar rats with 21 days of life, the groups were separated according to the moment of death: 7 or 60 days after surgery. The expression of desmin, alpha-actin smooth muscle and TGF-beta1 was examined in tissue from hepatic parenchyma with biliary obstruction (duct ligation - DL) and in the adjacent hepatic parenchyma (duct non-ligated - DNL) using semiquantitative RT-PCR and real-time qRT-PCR. The methodology of the real-time qRT-PCR allowed to identify changes in gene expression profile that were not shown by semiquantitative method. The DL parenchyma showed a more severe fibrogenic reaction, with increased alpha-actin smooth muscle and TGF-beta1 expression after 7 days. The DNL parenchyma presented a later fibrotic response, with increased desmin expression 7 and 60 days after surgery, besides of increased alpha-actin smooth muscle 60 days after surgery. Real-time qRT-PCR was more sensitive to identify changes in gene expression profile comparated to the semiquantitative method. Our results help to clarify the dynamic of molecular changes involved in the modulation of hepatic fibrogenesis in an experimental model of selective bile duct ligation and can be directly applied to the study of intrahepatic biliary stenosis and biliary atresia
22

Comparação entre os resultados da expressão gênica da desmina, alfa-actina e TGF-beta1 obtidos a partir dos métodos da reação em cadeia de polimerase via transcriptase reversa (RT-PCR) semiquantitativa e em tempo real (qRT-PCR) no modelo / Comparison between the results of gene expression of desmin, alpha-actin and TGF-beta1 obtained from the methods of reverse transcriptase polymerase chain reaction (RT-PCR) semiquantitative and real-time (qRT-PCR) in model of selective bile ducts ligation in growing animals

Josiane de Oliveira Gonçalves 10 April 2014 (has links)
Os mecanismos responsáveis pela fibrose hepática na infância são pouco conhecidos. Crianças com atresia das vias biliares, quando submetidas a portoenterostomia a Kasai com sucesso, se tornam anictéricas mas mesmo assim desenvolvem cirrose a longo prazo. Da mesma forma, a ocorrência de estenoses biliares segmentares intra-hepáticas no pós-operatório de transplante hepático podem levar ao desenvolvimento de cirrose em todo o órgão. Tais fatos sugerem que mecanismos endócrinos ou parácrinos estejam envolvidos na fibrogênese hepática. Para elucidar este processo o modelo de ligadura seletiva das vias biliares em ratos jovens foi desenvolvido em nosso laboratório. Usando este modelo, identificamos mudanças na expressão do gene da alfa-actina de músculo liso, tanto no parênquima hepático obstruído como no parênquima hepático adjacente à obstrução. No entanto, o perfil de expressão gênica da desmina, uma proteína presente em níveis elevados durante a ativação das células estreladas hepáticas e o TGF-beta1, principal citocina pró-fibrogênica, não demostraram diferenças significantes quando analisados pelo método do RT-PCR semiquantitativo. Assim, os mecanismos moleculares envolvidos na modulação da fibrogênese hepática nesse modelo experimental não estão totalmente compreendidos. A metodologia do qRT-PCR (PCR em tempo real), têm sido previamente descrita como um método mais preciso e sensível, possibilitando a detecção do aumento do número de cópias do gene à medida que ocorre a amplificação, enquanto que o método do RT-PCR semiquantitativo a análise dos transcritos só é realizada após a etapa da amplificação. O objetivo deste estudo foi avaliar as alterações moleculares no modelo experimental de ligadura seletiva das vias biliares e comparar os resultados obtidos entre os métodos do RT-PCR semiquantitativo e do qRT-PCR em tempo real. Foi realizada a ligadura seletiva do ducto biliar em ratos Wistar com 21 dias de vida, os grupos foram separados de acordo com o momento da morte: 7 ou 60 dias após a cirurgia. A expressão da desmina, alfa actina de músculo liso e TGF-beta1 foi avaliada no tecido do parênquima hepático com obstrução biliar (ducto ligado - DL) e no parênquima hepático adjacente à obstrução biliar (ducto não ligado - DNL) usando o RT-PCR semiquantitativo e o qRT-PCR em tempo real. A metodologia do qRT-PCR em tempo real permitiu identificar mudanças no perfil de expressão gênica que não foram demonstrados pelo método semiquantitativo. O parênquima DL mostrou reação fibrogênica mais intensa, com aumento na expressão da alfa actina de músculo liso e TGF-beta1 após 7 dias. O parênquima DNL apresentou resposta fibrogênica tardia, com aumento da expressão da desmina 7 dias e 60 dias após a cirurgia, além de aumento da alfa-actina de músculo liso 60 dias após a cirurgia. O qRT-PCR em tempo real apresentou maior sensibilidade para identificar mudanças no perfil de expressão gênica em relação ao método convencional do RT-PCR semiquantitativo. Nossos resultados ajudam a esclarecer a dinâmica das alterações moleculares envolvidas na modulação da fibrogênese hepática no modelo experimental de ligadura seletiva do ducto biliar e pode ser diretamente aplicado para o estudo de estenoses biliares intra-hepáticas e atresia das vias biliares / The mechanisms responsible for liver fibrosis in childhood are poorly understood. Children suffering from biliary atresia, when submitted to the successful Kasai portoentostomy, become anicteric, but nonetheless develop cirrhosis in the long term. Similarly, the occurrence of intrahepatic biliary stenosis in the postoperative period of liver transplantation may lead to cirrhosis of the whole organ. Such facts suggest that endocrine or paracrine mechanisms are involved in hepatic fibrogenesis. To elucidate this process, the selective bile duct ligation model in young rats was developed in our laboratory. Using this model, we identified changes in the expression of smooth muscle alpha-actin both in the obstructed parenchyma and the hepatic parenchyma adjacent to the obstruction. However, the expression profiles of desmin, a protein present at high levels during activation of hepatic stellate cells and TGF-beta1, the main pro-fibrogenic cytokine, were unchanged when analyzed with semiquantitative RT-PCR. Thus, the molecular mechanisms involved in the modulation of hepatic fibrogenesis in this experimental model are not fully understood. The methodology of qRT-PCR (real time PCR) has previously been described as a more precise and sensitive method, allowing the detection of increased copy number of the gene while amplification occurs, whereas by semiquantitative RT-PCR analysis transcripts is only perfomed after the amplification step. This study aimed to evaluate the molecular changes in experimental model of selective bile duct ligation and compare the results between semiquantitative RT-PCR and real-time qRT-PCR methods. Selective biliary duct ligation was performed on Wistar rats with 21 days of life, the groups were separated according to the moment of death: 7 or 60 days after surgery. The expression of desmin, alpha-actin smooth muscle and TGF-beta1 was examined in tissue from hepatic parenchyma with biliary obstruction (duct ligation - DL) and in the adjacent hepatic parenchyma (duct non-ligated - DNL) using semiquantitative RT-PCR and real-time qRT-PCR. The methodology of the real-time qRT-PCR allowed to identify changes in gene expression profile that were not shown by semiquantitative method. The DL parenchyma showed a more severe fibrogenic reaction, with increased alpha-actin smooth muscle and TGF-beta1 expression after 7 days. The DNL parenchyma presented a later fibrotic response, with increased desmin expression 7 and 60 days after surgery, besides of increased alpha-actin smooth muscle 60 days after surgery. Real-time qRT-PCR was more sensitive to identify changes in gene expression profile comparated to the semiquantitative method. Our results help to clarify the dynamic of molecular changes involved in the modulation of hepatic fibrogenesis in an experimental model of selective bile duct ligation and can be directly applied to the study of intrahepatic biliary stenosis and biliary atresia
23

Étude in vitro de l’implication des cytokines de type Th17 dans la fibrose hépatique

Fabre, Thomas 01 1900 (has links)
Introduction: L’activation des cellules stellaires hépatiques (CSHs) est un point clé du processus de fibrose hépatique. Les lymphocytes T CD4+ intra-hépatiques sont une source majeure de cytokines anti-inflammatoires comme l’IL-10 et pro-inflammatoire (IL-17A), hépatoprotectrice (IL-22) produites par les Th17. Les Th17 sont impliqués dans de nombreuses pathologies inflammatoires mais l’effet de ces cellules sur les CSHs n’est pas encore élucidé. Objectif: Comprendre le rôle des cytokines de type Th17 dans le processus d’activation des CSHs. Méthodes: La lignée de CSHs humaine LX2 a été stimulée par l’IL-17A ou l’IL-22 puis comparée à des cellules traitées par le TGF-b et le tampon phosphate salin (PBS). L’activation des CSHs a été évaluée en examinant les molécules profibrotique alpha-smooth muscle actin (a-SMA), collagène de type I (COL1A1) et inhibiteur produits par les tissus des métalloprotéases matricielles I (TIMP-I) par q-PCR. L’expression protéique a été validée par immunobuvardage ou coloration au rouge de picro Sirius. L’expression membranaire de l’IL-10Rb, du TGF-b-RII et de l’IL-17RA a été mesurée par cytométrie en flux. Résultats: L’IL-17A et l’IL-22 n’activent pas les cellules LX2, car aucune induction d’a-SMA, de COL1A1 et de TIMP-I n’a été observée. Cependant, l’IL-17A et l’IL-22 sensibilisent les CSHs à l’action du TGF-b, tel que démontré par une forte expression et production d’a-SMA, collagène type I et TIMP-I. L’IL-17A, mais pas l’IL-22, induit la surexpression à la surface cellulaire du TGF-b-RII et inhibe partiellement la baisse d’expression du TGF--RII après stimulation au TGF-b. Conclusion: Nos résultats démontrent une fonction pro-fibrotique de l’IL-17A et de l’IL-22, car les deux cytokines sensibilisent les CSHs à l’action du TGF-b. L’IL-17A agit via la surexpression et la stabilisation du TGF-b-RII tandis que l’IL-22 agit probablement par des mécanismes intracellulaires. / Background: Activated hepatic stellate cells (HSCs) are key initiators of the fibrogenic process. Intrahepatic CD4+ T cells are major producers of hepatoprotective cytokines such as IL-10 produced by regulatory T cells (Tregs) or inflammatory and regulatory cytokines like IL-17 and IL-22 produced by Th17 cells. Th17 cells have been implicated in various conditions or liver damage but the mechanism of action of Th17 cytokines on HSC is still poorly understood. Aims: To understand the role of the different Th17 cytokines (IL17-A and IL-22) in modulating HSC activation. Methods: The HSC line LX2 was stimulated with increasing doses of IL-17A or IL-22, and compared to TGF-b and PBS-treated cells. Activation of HSCs was evaluated by examining the expression of the pro-fibrotic molecules alpha-smooth muscle actin (a-SMA), collagen type I (COL1A1) and tissue inhibitor of matrix metalloproteinase I (TIMP-I) by q-PCR. Protein expression was validated by either western blot or picro Sirius red stain. Cell surface expression of the cytokine receptors IL-10Rb, TGF-b-RII and IL-17RA was evaluated by flow cytometry. Results: IL-17A and IL-22 alone did not induce LX2 activation, as no induction of a-SMA, COL1A1 and TIMP-I was observed. However, both IL-17A and IL-22 sensitized HSCs to the action of suboptimal doses of TGF-b, confirmed by strong a-SMA, collagen type I and TIMP-I gene expression and protein production. IL-17A but not IL-22 upregulated TGF-b-RII cell surface expression and partially inhibited TGF-b-RII downmodulation upon TGF-b stimulation. Conclusion: Our results demonstrated a pro-fibrotic function for IL-17A and IL-22, as both cytokines sensitize HSC to the action of TGF-b. IL-17A acts through upregulation and stabilization of the TGF-b-RII while IL-22 probably acts through an intracellular mechanism.
24

Étude in vitro de l’implication des cytokines de type Th17 dans la fibrose hépatique

Fabre, Thomas 01 1900 (has links)
No description available.
25

The spatial and temporal characterization of hepatic macrophages during acute liver injury

Flores Molina, Manuel 08 1900 (has links)
La réponse immunitaire est régulée spatialement et temporellement. Les cellules immunitaires font partie d’une plus grande communauté de populations cellulaires interconnectées qui coordonnent leurs actions par la signalisation intercellulaire. Suivant une blessure hépatique, la distribution et la composition du compartiment immunitaire évoluent rapidement au fil du temps. Par conséquent, l’information sur la position des cellules immunitaires dans le tissu hépatique est essentielle à la bonne compréhension de leurs fonctions dans la santé et la maladie. Cependant, l’organisation spatiale des cellules immunitaires en réponse à une atteinte hépatique aiguë, ainsi que les conséquences fonctionnelles de leur distribution topographique spécifique, restent mal comprises. Les macrophages hépatiques sont des cellules effectrices clés pendant l’homéostasie et en réponse à des blessures, et sont impliqués dans la pathogenèse de plusieurs maladies du foie. L’hétérogénéité et plasticité des macrophages dans le foie a été exposée avec l’émergence du séquençage de l’ARN, la cytométrie en flux et la cytométrie de masse. Ces techniques ont sensiblement contribué à la compréhension de l’origine, et fonctions des macrophages dans le foie. Cependant, ces technologies impliquent la destruction du tissu pour la préparation de suspension cellulaires ce qui entraîne une perte d’information spatiale et de contexte tissulaire. Par conséquent, la caractérisation spatiale et temporelle des macrophages dans le tissu hépatique pendant l’homéostasie tissulaire, et en réponse à une blessure, fournit une nouvelle information sur la façon dont les macrophages se rapportent aux cellules voisines et leur comportement pendant les réponses immunitaires. Dans la première partie de cette étude, nous avons conçu une stratégie pour le phénotypage spatial des cellules immunitaires hépatiques dans des échantillons de tissus. Cette stratégie combine techniques d'imagerie et l’alignement numérique des images pour surmonter les limitations actuelles du nombre de marqueurs pouvant être visualisés simultanément. En outre, nous avons généré des protocoles pour la quantification automatisée des cellules d’intérêt dans des sections de tissus pour réduire la subjectivité associée à la quantification par inspection visuelle, et pour augmenter la surface et la vitesse de l’analyse. Par conséquent, un plus grand nombre de populations de cellules immunitaires ont été visualisées, quantifiées et cartographiées, et leurs relations spatiales ont été déterminées. Dans la deuxième partie de l’étude, nous avons déterminé la cinétique et la dynamique spatiale des cellules de Kupffer (KCs) et des macrophages dérivés de monocytes (MoMFs) en réponse à une atteinte hépatique aiguë au CCl4, afin de mieux comprendre leurs rôles fonctionnels, et la répartition du travail entre eux. Nous avons constaté que les KC et les MoMFs présentent des différences au niveau de la distribution tissulaire, la morphologie, et la cinétique. En plus, seulement les KCs ont proliféré pour repeupler la population de macrophages résidents pendant la réparation tissulaire. Finalement, nous avons montré que le degré de colocalization de KCs et des MoMFs avec les cellules stellaires est différent. En plus, cette colocalisation varie avec la progression de la réponse immunitaire. Dans l’ensemble, nous avons montré que les KCs et les MoMFs ont des profils spatiaux et temporels différents en réponse à une atteinte hépatique aiguë. Dans l’ensemble, les observations faites dans cette étude suggèrent que le comportement spatial et temporel d’une sous-population donnée de cellules immunitaires est distinct et sous-tend sa capacité à remplir ses fonctions spécifiques pendant la réponse immunitaire. / The immune response is spatially and temporally regulated. Immune cells are part of a larger community of interconnected immune and non-immune cell populations that coordinate their actions mostly through cell-cell intercellular signaling. In the liver, the distribution pattern, and the composition of the immune compartment evolve during an immune response to injury influencing disease pathology, progression, and response to treatment. Hence, information on the location and interacting partners of immune cells in the hepatic tissue is critical for the proper understanding of their functions in health and disease. However, the spatial organization of hepatic resident and infiltrating immune cells in response to acute injury, and the functional consequences of their specific topographical distribution, remain poorly defined. Hepatic macrophages are key effector cells during homeostasis and in response to injury and are involved in the pathogenesis of several liver diseases. The heterogeneity and plasticity of the macrophage compartment in the liver have only recently started to be appreciated with the emergence of RNA sequencing, flow cytometry, and mass cytometry. Detailed transcriptomic and phenotypic profiling have deeply expanded our understanding of macrophage biology. However, these technologies involve tissue disruption with loss of spatial information and tissue context. Therefore, the spatial and temporal profiling of liver macrophages in tissue samples during the steady state, and in response to injury, provide novel information on how the macrophages relate to neighboring cells and their behavior during immune responses. In the first part of this study, we designed a strategy for the spatial phenotyping of hepatic immune cells in tissue samples. This strategy combined serial and sequential labeling, and digital tissue alignment to overcome current limitations in the number of markers that can be simultaneously visualized. In addition, we generated protocols for automated quantification of cells of interest in whole tissue sections which removed the subjectivity associated with quantification by visual inspection and greatly increased the area and the speed of the analysis. As a result, a larger number of immune cell populations were visualized, quantified, and mapped, and their spatial relations were determined in an unbiased manner. In the second part of this study, we monitored the kinetics, and spatial dynamics of resident Kupffer cells (KCs) and infiltrating monocyte-derived macrophages (MoMFs) in response to acute liver injury with CCl4, to gain insight into their functional roles, and the distribution of labor between them. KCs and MoMFs exhibited different tissue distribution patterns and cell morphology, different kinetics, and occupied neighboring but unique microanatomical tissue locations. KCs and MoMFs displayed a different capacity to replenish the macrophage pool upon acute injury, and were differentially related to hepatic stellate cells. Different kinetics and spatial profiles revealed that KCs and MoMFs have distinct spatial signatures and suggest that they perform distinct functions during the wound-healing response to acute liver injury. In summary, we optimized techniques and put together a strategy for the spatial profiling of hepatic immune cells. Then, we used this methodology to profile resident and infiltrating macrophage subpopulations to gain insight into their biology and distinct contribution to healing in response to acute liver injury. Overall, the observations made in this study suggest that the spatial and temporal behavior of a given subpopulation of immune cells underlie its ability to perform its specific functions during the immune response.

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