Perfil de expressão de genes da via Wnt/beta-catenina em timócitos e linfócitos T CD4+ de camundongos BALB/c / Gene expression profile of Wnt/beta-catenin pathway elements in thymocytes and CD4 + T lymphocytes of BALB/c mice.

Ali, Taccyanna Mikulski

27 August 2015

INTRODUÇÃO: A molécula HIG2 pode atuar como agonista da via Wnt/beta-catenina, pois se liga ao receptor Frizzled 10 e induz a expressão de genes da mesma. Dados recentes do nosso grupo mostraram expressão diferencial do gene HIG2 em células mononucleares do sangue periférico e em especial linfócitos T CD4+ naïve, mas não em células diferenciadas de memória em indivíduos sadios. Também observamos in vitro em linfócitos T CD4+ de indivíduos saudáveis que o peptídeo sintético HIG2 induziu a ativação da via Wnt/beta-catenina, produção de HIG2 e outros produtos da via, além da proliferação de células T CD4+ naïve sugerindo um papel do HIG2 na proliferação homeostática de linfócitos T CD4+. HIPÓTESE: Como as células T CD4+ naïve são diretamente exportadas pelo timo, os níveis aumentados de HIG2 neste tipo celular sejam decorrentes da ativação da via Wnt/?-catenina nos estágios tardios da diferenciação de timócitos. Portanto, as células T CD4+ naïve e timócitos simples positivos para CD4 (SP CD4) apresentariam perfil semelhante de expressão de HIG2 e genes da via Wnt/beta-catenina, incluindo receptores, fatores de transcrição, genes estruturais da via e alvos quando comparadas as demais populações celulares. OBJETIVO: Avaliar a expressão de HIG2 e outros genes da via Wnt/beta-catenina em timócitos e linfócitos T CD4+ naïve e memória de camundongos. MÉTODOS: Isolamos timócitos duplo negativos (DN), timócitos duplo positivos (DP), simples positivos para CD4 e CD8 (SP CD4 e SP CD8) de timo e também células T CD4+ naïve e memória do baço dos mesmos camundongos pelo procedimento de citometria de fluxo. Analisamos a expressão de vários genes da via Wnt/beta-catenina por PCR em tempo real. RESULTADOS: Em timócitos DN há expressão significativa dos genes que codificam para Frizzled 6, LRP5, TCF-1 e TCF-4 em relação as outras populações celulares. Nos timócitos DP há maior expressão dos genes que codificam para LRP5, LRP6, beta-catenina, GSK-3beta, TCF-1 e Bcl-XL em relação às demais populações. Em timócitos SP CD4 foi detectada expressão diferencial de genes que codificam para Frizzled 10, LRP6, beta-catenina, LEF-1 e HIG2 enquanto que na população de timócitos SP CD8 não observamos expressão significativa de nenhum gene da via Wnt/beta-catenina. Nas células T CD4+ naïve há expressão significativa de Frizzled 5 e Frizzled 10 quando comparadas a timócitos SP CD8 e células T CD4+ de memória . Já nos linfócitos T CD4+ de memória, detectamos maior expressão de Frizzled 6, TCF-4, Bcl-XL e ciclina D1 em relação as demais populações. CONCLUSÃO: Cada população apresenta um perfil distinto de expressão gênica. As maiores semelhanças ocorrem entre os timócitos DN e DP onde as principais diferenças são a expressão de Frizzled 6 e Ciclina D1.Os timócitos SP CD4 e as células T CD4+ naïve não apresentaram níveis semelhantes de expressão gênica de elementos da via Wnt canônica, o que não corrobora a hipótese de que o perfil transcripcional de timócitos SP CD4 e linfócitos T CD4+ naïve é semelhante. Ainda, não observamos expressão aumentada de HIG2 em linfócitos T CD4+ naïve comparados aos de memória, o que contrasta com os resultados obtidos anteriormente por nosso grupo com amostras humanas sugerindo que camundongos não regulam a expressão de HIG2 em linfócitos T CD4+ como os seres humanos / INTRODUCTION: HIG2 molecule can act as an agonist of Wnt/?-catenin pathway, because it able to bind to Frizzled 10 receptor and induce the expression of the genes related to this pathway. Recent data from our group have shown differential expression of the HIG2 gene in peripheral blood mononuclear cells, and particularly in naive CD4 + T cells, but not in memory T cells in healthy individuals. We have also observed that inducing the CD4 + T lymphocytes from healthy individuals with HIG2 synthetic peptide in vitro, led to the activation of Wnt/beta-catenin pathway, HIG2 production and expression of other target genes of this pathway and the proliferation of naïve CD4 + T cells, suggesting that HIG2 may play a role in homeostatic proliferation of CD4+ T cells. HYPOTHESIS: As naïve CD4 + T cells are directly exported from the thymus, we have hypothesized that increased levels of HIG2 in this cell type is due to the activation of Wnt/beta-catenin pathway in the later stages of thymocyte differentiation. Therefore, naïve CD4 + T cells and CD4 single-positive thymocytes (CD4 SP) may share a similar pattern of gene expression of HIG2 and Wnt/beta-catenin genes (genes that encodes receptors and co-receptors, transcription factors, structural and target genes) when compared to other cell populations. AIM: our major aim is to evaluate the expression of HIG2 and other genes of the Wnt/beta-catenin in thymocytes, naïve CD4 + T lymphocytes and memory CD4+ T cells from mice. METHODS: We have isolated thymocytes double negative (DN) T cells, positive double positive (DP) T cells, CD4 and CD8 single-positive thymocytes (CD4 SP and CD8 SP) of thymus from BALB/c mice and we have also isolated naïve CD4 + T cells and memory CD4+ T cells of the spleen from the same mice we have used the thymus. We have analysed the expression of several genes of Wnt/beta-catenin by real time PCR RESULTS: In DN cells there was expression of the Frizzled 6, LRP5, TCF-1 and TCF-4 genes compared to other cell populations. In DP thymocytes it could be observed a greater expression of LRP5, LRP6, beta-catenin, GSK-3beta, TCF-1 and Bcl-XL genes compared to other populations. In CD4 SP thymocytes, it was detected differential expression of the Frizzled 10, LRP6, beta-catenin, LEF-1 HIG2 genes and in CD8 SP cells we could not observe significant expression of any gene of Wnt/?-catenin pathway. In naïve CD4 + T cells there was a significant expression of Frizzled5 and Frizzled 10 genes when compared to all the samples. In memory CD4 + T cells, we have detected higher expression of Frizzled 6, TCF-4, Bcl-XL and cyclin D1 genes than in any other populations. CONCLUSION: Each population has a distinct gene expression pattern. The biggest similarities occur between DN and DP thymocytes where the main differences are the expression of Frizzled 6 and cyclin D1.However, the pattern of gene expression in SP thymocytes is not similar to those presented by naïve CD4+ T cells. Moreover, we have not observed increased expression of HIG2 in naïve CD4 + lymphocytes compared to memory CD4+ T cells, which contrasts the results obtained previously by our group with human samples suggesting that mice might not regulate the HIG2 expression in CD4 + T lymphocytes as human beings do

Células T CD4+ naive

HIG2

HIG2

Naive CD4+ T cells

Thymocytes

Timócitos

Via Wnt/beta-catenina

Wnt/beta-catenin pathway

Perfil de expressão de genes da via Wnt/beta-catenina em timócitos e linfócitos T CD4+ de camundongos BALB/c / Gene expression profile of Wnt/beta-catenin pathway elements in thymocytes and CD4 + T lymphocytes of BALB/c mice.

Taccyanna Mikulski Ali

27 August 2015

INTRODUÇÃO: A molécula HIG2 pode atuar como agonista da via Wnt/beta-catenina, pois se liga ao receptor Frizzled 10 e induz a expressão de genes da mesma. Dados recentes do nosso grupo mostraram expressão diferencial do gene HIG2 em células mononucleares do sangue periférico e em especial linfócitos T CD4+ naïve, mas não em células diferenciadas de memória em indivíduos sadios. Também observamos in vitro em linfócitos T CD4+ de indivíduos saudáveis que o peptídeo sintético HIG2 induziu a ativação da via Wnt/beta-catenina, produção de HIG2 e outros produtos da via, além da proliferação de células T CD4+ naïve sugerindo um papel do HIG2 na proliferação homeostática de linfócitos T CD4+. HIPÓTESE: Como as células T CD4+ naïve são diretamente exportadas pelo timo, os níveis aumentados de HIG2 neste tipo celular sejam decorrentes da ativação da via Wnt/?-catenina nos estágios tardios da diferenciação de timócitos. Portanto, as células T CD4+ naïve e timócitos simples positivos para CD4 (SP CD4) apresentariam perfil semelhante de expressão de HIG2 e genes da via Wnt/beta-catenina, incluindo receptores, fatores de transcrição, genes estruturais da via e alvos quando comparadas as demais populações celulares. OBJETIVO: Avaliar a expressão de HIG2 e outros genes da via Wnt/beta-catenina em timócitos e linfócitos T CD4+ naïve e memória de camundongos. MÉTODOS: Isolamos timócitos duplo negativos (DN), timócitos duplo positivos (DP), simples positivos para CD4 e CD8 (SP CD4 e SP CD8) de timo e também células T CD4+ naïve e memória do baço dos mesmos camundongos pelo procedimento de citometria de fluxo. Analisamos a expressão de vários genes da via Wnt/beta-catenina por PCR em tempo real. RESULTADOS: Em timócitos DN há expressão significativa dos genes que codificam para Frizzled 6, LRP5, TCF-1 e TCF-4 em relação as outras populações celulares. Nos timócitos DP há maior expressão dos genes que codificam para LRP5, LRP6, beta-catenina, GSK-3beta, TCF-1 e Bcl-XL em relação às demais populações. Em timócitos SP CD4 foi detectada expressão diferencial de genes que codificam para Frizzled 10, LRP6, beta-catenina, LEF-1 e HIG2 enquanto que na população de timócitos SP CD8 não observamos expressão significativa de nenhum gene da via Wnt/beta-catenina. Nas células T CD4+ naïve há expressão significativa de Frizzled 5 e Frizzled 10 quando comparadas a timócitos SP CD8 e células T CD4+ de memória . Já nos linfócitos T CD4+ de memória, detectamos maior expressão de Frizzled 6, TCF-4, Bcl-XL e ciclina D1 em relação as demais populações. CONCLUSÃO: Cada população apresenta um perfil distinto de expressão gênica. As maiores semelhanças ocorrem entre os timócitos DN e DP onde as principais diferenças são a expressão de Frizzled 6 e Ciclina D1.Os timócitos SP CD4 e as células T CD4+ naïve não apresentaram níveis semelhantes de expressão gênica de elementos da via Wnt canônica, o que não corrobora a hipótese de que o perfil transcripcional de timócitos SP CD4 e linfócitos T CD4+ naïve é semelhante. Ainda, não observamos expressão aumentada de HIG2 em linfócitos T CD4+ naïve comparados aos de memória, o que contrasta com os resultados obtidos anteriormente por nosso grupo com amostras humanas sugerindo que camundongos não regulam a expressão de HIG2 em linfócitos T CD4+ como os seres humanos / INTRODUCTION: HIG2 molecule can act as an agonist of Wnt/?-catenin pathway, because it able to bind to Frizzled 10 receptor and induce the expression of the genes related to this pathway. Recent data from our group have shown differential expression of the HIG2 gene in peripheral blood mononuclear cells, and particularly in naive CD4 + T cells, but not in memory T cells in healthy individuals. We have also observed that inducing the CD4 + T lymphocytes from healthy individuals with HIG2 synthetic peptide in vitro, led to the activation of Wnt/beta-catenin pathway, HIG2 production and expression of other target genes of this pathway and the proliferation of naïve CD4 + T cells, suggesting that HIG2 may play a role in homeostatic proliferation of CD4+ T cells. HYPOTHESIS: As naïve CD4 + T cells are directly exported from the thymus, we have hypothesized that increased levels of HIG2 in this cell type is due to the activation of Wnt/beta-catenin pathway in the later stages of thymocyte differentiation. Therefore, naïve CD4 + T cells and CD4 single-positive thymocytes (CD4 SP) may share a similar pattern of gene expression of HIG2 and Wnt/beta-catenin genes (genes that encodes receptors and co-receptors, transcription factors, structural and target genes) when compared to other cell populations. AIM: our major aim is to evaluate the expression of HIG2 and other genes of the Wnt/beta-catenin in thymocytes, naïve CD4 + T lymphocytes and memory CD4+ T cells from mice. METHODS: We have isolated thymocytes double negative (DN) T cells, positive double positive (DP) T cells, CD4 and CD8 single-positive thymocytes (CD4 SP and CD8 SP) of thymus from BALB/c mice and we have also isolated naïve CD4 + T cells and memory CD4+ T cells of the spleen from the same mice we have used the thymus. We have analysed the expression of several genes of Wnt/beta-catenin by real time PCR RESULTS: In DN cells there was expression of the Frizzled 6, LRP5, TCF-1 and TCF-4 genes compared to other cell populations. In DP thymocytes it could be observed a greater expression of LRP5, LRP6, beta-catenin, GSK-3beta, TCF-1 and Bcl-XL genes compared to other populations. In CD4 SP thymocytes, it was detected differential expression of the Frizzled 10, LRP6, beta-catenin, LEF-1 HIG2 genes and in CD8 SP cells we could not observe significant expression of any gene of Wnt/?-catenin pathway. In naïve CD4 + T cells there was a significant expression of Frizzled5 and Frizzled 10 genes when compared to all the samples. In memory CD4 + T cells, we have detected higher expression of Frizzled 6, TCF-4, Bcl-XL and cyclin D1 genes than in any other populations. CONCLUSION: Each population has a distinct gene expression pattern. The biggest similarities occur between DN and DP thymocytes where the main differences are the expression of Frizzled 6 and cyclin D1.However, the pattern of gene expression in SP thymocytes is not similar to those presented by naïve CD4+ T cells. Moreover, we have not observed increased expression of HIG2 in naïve CD4 + lymphocytes compared to memory CD4+ T cells, which contrasts the results obtained previously by our group with human samples suggesting that mice might not regulate the HIG2 expression in CD4 + T lymphocytes as human beings do

Células T CD4+ naive

HIG2

Timócitos

Via Wnt/beta-catenina

HIG2

Naive CD4+ T cells

Thymocytes

Wnt/beta-catenin pathway

Possível ativação da via de sinalização Wnt/beta-catenina no processo de hiperplasia compensatória da célula beta pancreática em modelo animal de resistência periférica à insulina / Possible activation of the Wnt/beta-catenin signaling pathway in the compensatory hyperplasia of pancreatic beta cell in animal model of peripheral insulin resistance

Maschio, Daniela Aparecida, 1983-

24 August 2018

Orientador: Carla Beatriz Collares Buzato / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-24T14:09:15Z (GMT). No. of bitstreams: 1 Maschio_DanielaAparecida_M.pdf: 3472469 bytes, checksum: c4faacd3683560adfb7bc1ddb9464f73 (MD5) Previous issue date: 2014 / Resumo: Tem havido um grande interesse na determinação das vias envolvidas na proliferação das células beta pancreáticas e a aplicação deste conhecimento em terapias moleculares e celulares da diabetes. Em especial, a via de sinalização da Wnt/beta-catenina (ou via Wnt canônica) tem sido pouco investigada no pâncreas endócrino. Em determinados tecidos/órgãos, é sabido que a proteína beta-catenina constitui não somente um componente estrutural das junções de adesão, mas também é uma molécula sinalizadora juntamente com a Wnt, participando de vários processos celulares, tais como diferenciação e proliferação. Hiperplasia da célula beta parece ocorrer em certas condições experimentais e in vivo, como no estado de resistência periférica à insulina. Entretanto, as vias intracelulares envolvidas nesse processo ainda permanecem desconhecidas. Os objetivos desta Dissertação de Mestrado foram: 1) verificar se as alterações metabólicas induzidas pela exposição à dieta hiperlipídica (DHL) por um curto período de tempo (60 dias) são acompanhadas por alterações morfométricas compensatórias do pâncreas endócrino de camundongos C57BL/6; 2) investigar o possível envolvimento da via de sinalização da Wnt/beta-catenina no processo de proliferação da célula beta neste modelo, analisando-se a localização celular (por imunofluorescência indireta), o conteúdo proteico (por immunoblotting) e a expressão gênica (por PCR de Tempo Real ou qPCR) de proteínas associadas à via Wnt/beta-catenina (a saber, beta-catenina, Ciclina D1/2, c-Myc, GSK-3? e Axina2 e, 3) analisar a expressão da proteína beta-catenina não fosforilada (forma ativa da via) em ilhotas não hiperplásicas de animais tratados com a DHL por apenas 30 dias. Nossos resultados demonstraram que, após 60 dias de tratamento com DHL, os animais se tornaram obesos e apresentaram acentuadas alterações metabólicas, tais como hiperglicemia em jejum e pós prandial, hiperinsulinemia em jejum e pós-prandial e, ainda, uma significativa resistência periférica à insulina (administrada intraperitonealmente), sendo esses animais, portanto, caracterizados como pré-diabéticos. Este quadro foi acompanhado por um aumento significativo da massa relativa de células beta e do seu número por ilhota, o que indica hiperplasia deste tipo celular no pâncreas endócrino, provavelmente compensatória ao quadro de resistência periférica à insulina apresentado pelos animais do grupo tratado. Como mostrado por immunoblotting, houve um aumento significativo na expressão de proteínas ativadoras ou alvo da via, como beta-catenina ativada (não fosforilada) e Ciclina D1/2 em ilhotas dos animais pré-diabéticos. Quanto às proteínas Axina2 e GSK-3? (inibidoras da via), não foi observada alteração significativa na expressão de Axina2, mas supreendemente houve aumento do conteúdo celular de GSK-3? nas ilhotas do grupo pré-diabético. A imunofluorescência para beta-catenina ativada mostrou a presença desta proteína tanto na região de contato intercelular como no citoplasma e núcleo das células beta para ambos os grupos. As outras três proteínas relacionadas à via, Ciclina D1/2, GSK-3? e Axina2, por sua vez, apresentaram uma distribuição exclusivamente citoplasmática nas células endócrinas das ilhotas pancreáticas, o que está de acordo com as suas respectivas funções. A análise por qPCR não revelou alteração significativa no conteúdo celular de RNAm de ?-catenina, mas uma tendência de aumento na expressão gênica de Ciclina D1 e c-Myc, genes alvo da via, em ilhotas hiperplásicas dos animais pré-diabéticos. Ainda, por immunoblotting para beta-catenina ativada, não observamos aumento significativo da expressão proteica dessa proteína em ilhotas do grupo tratado com DHL por apenas 30 dias, os quais não desenvolveram hiperplasia do pâncreas endócrino. Em conclusão, nossos dados sugerem que a via Wnt/beta-catenina parece estar ativada na pré-diabetes experimental, e provavelmente participa do processo de hiperplasia compensatória das células beta pancreática neste estado metabólico / Abstract: The role of the Wnt/beta-catenin signaling pathway (as known as the canonical Wnt pathway) in the endocrine pancreas physiology has not been thoroughly explored. In certain tissues/organs, it is known that beta-catenin, besides being a structural component of adhesion junctions, participates as a key protein in the Wnt signaling pathway, therefore being involved in crucial cellular processes such as differentiation and proliferation. Beta cell hyperplasia appears to occur under certain experimental conditions, and in vivo during the peripheral insulin resistance state. However, the intracellular pathways involved in this process are still unknown. The objectives of this Master's Dissertation were as follows: 1) to investigate whether the metabolic changes induced by exposure of adult male C57BL/6 mice to a high-fat diet (HFD) for a relatively short period of time (30 or 60 days) are accompanied by compensatory morphometric changes of the endocrine pancreas indicative of beta cell hyperplasia; and 2) to study the possible involvement of the pathway Wnt/?-catenin signaling in the process of beta cell proliferation in this animal model. For this, we carried out the analysis of the cellular localization (by indirect immunofluorescence), the protein cell content (by immunoblotting) and the gene expression (by PCR or Real-Time qPCR) of proteins associated to the Wnt/beta-catenin pathway (i.e., ?-catenin, Cyclin D1/2, c-Myc, Axin2 and GSK-3?). Our results showed that, after 60 days of treatment with HFD, the animals became obese, as well as, hyperglycemic, hyperinsulinemic (both at fast and fed states) and resistant to intraperitoneally injected insulin, being therefore characterized as prediabetic. This metabolic condition was accompanied by a significant increase in the relative mass of beta cells and the number of beta cells per islet, which indicates hyperplasia of this pancreatic endocrine cell, probably compensatory to the relatively higher insulin demand presented by the HFD-treated animals. As shown by immunoblotting, there was a significant increase in islet expression of the activator and target proteins, such as the active (unphosphorylated) beta-catenin and Cyclin D1/2 in prediabetic animals. Regarding Axina2 and GSK- 3? proteins (antagonists of the pathway), no changes were observed concerning Axin2 islet content between the experimental groups, but surprisingly there was a significant increase in cellular content of GSK-3? in islet homogenates from the prediabetic group. The immunofluorescence for active beta-catenin showed the presence of this protein at the intercellular contact region as well as within the cytoplasm and nucleus of beta cells in both groups. Meanwhile, Cyclin D1/2, GSK-3? and Axin2 displayed an exclusively cytoplasmic distribution in pancreatic endocrine cells, which is in accordance with their respective functions. The qPCR analysis revealed no significant change in mRNA expression of ?-catenin, but a tendency of increase in gene expression of Cyclin D1 and c-Myc, target genes of the pathway, in hyperplastic islets of the prediabetic animals. Additionally, the immunoblotting of active beta-catenin in homogenates of non-hyperplastic islets, isolated from mice fed a HFD for only 30 days, showed no significant change in expression this protein as compared to the control group. In conclusion, our data suggest that the Wnt/beta-catenin pathway may be activated during the process of compensatory hyperplasia of the beta cells seen in our animal model of obesity-associated prediabetes / Mestrado / Biologia Celular / Mestra em Biologia Celular e Estrutural

Pré-diabetes

Células secretoras de insulina

Via Wnt/beta-catenina

Proliferação celular

Prediabetes

Pancreatic beta cells

Wnt/beta-catenin pathway

Cell proliferation

Effets phénotypiques de deux mécanismes d’activation de la voie Wnt/beta caténine dans le carcinome hépatocellulaire / Molecular phenotypes and clinical features associated with two types of Wnt/beta catenin activation in hepatocellular carcinoma

Désert, Romain

16 December 2016

Le carcinome hépatocellulaire (CHC) est une des principales causes de mortalité par cancer dans le monde. Dans environ 50% des tumeurs, on observe les signes d’une activation de la voie Wnt/β-caténine, causée par une mutation de l’exon 3 du gène CTNNB1 ou par stimulation du récepteur FRZD. Des études transcriptomiques du CHCs ont montré que ces deux modes d’activation étaient associés à des sous-types de tumeurs différents. Nous avons cherché à mieux comprendre les caractéristiques cliniques et le phénotype moléculaire de ces deux sous-types de CHCs. Dans un premier temps, nous avons fait le lien entre l'activation Wnt extracellulaire, un phénotype de cellules cancéreuses souches ou progénitrices et la présence de foyers de fibrose discrète intra-tumorale, observable par examen histopathologique, que nous avons appelés "nids fibreux". Nous avons également mis en évidence HAPLN1, une protéine de la matrice extracellulaire dont l’expression est stimulée par Wnt3a dans un modèle de cellules hépatiques progénitrices HepaRG, comme un nouveau marqueur d’agressivité du CHC. Ces résultats montrent une association entre l’activation Wnt extracellulaire et une agressivité tumorale passant par un remodelage matriciel. Dans un second temps, une Méta-analyse de données publiques de transcriptomique a permis de mettre évidence 4 sous-types de CHCs. La mutation CTNNB1, prédite par l’expression de 5 marqueurs par une méthode développée durant la thèse, était associée à un de ces sous-types et à un bon pronostic clinique. Nous avons également isolé un nouveau sous-type de CHC de bon pronostic exprimant un phénotype de tumeur différenciée et des signatures de métabolisme hépatique périportales. Ce sous-type a probablement été un facteur confondant dans les études précédentes mesurant l’association de la mutation CTNNB1 avec un bon pronostic. Enfin, nous avons mis en évidence une forte association négative entre la mutation CTNNB1 et l’inflammation ainsi que la fibrose tumorale dans trois cohortes indépendantes. Cet effet pourrait être provoqué par une inhibition de NF-κB par la β-caténine mutée, comme suggérée par des résultats préliminaires issue d’un modèle in vitro d’HepaRG mutés T41 stimulés par LPS. Nos résultats suggèrent donc que les deux modes d’activation de la voie Wnt/β-caténine sont associés à des mécanismes moléculaires, des profils d’expression, des phénotypes et des pronostics cliniques très différents. / Hepatocellular carcinoma (HCC) is the third cause of cancer-related death worldwide. Half of them show activation of Wnt/β-catenin pathway, caused by activating CTNNB1 exon 3 mutation of by stimulation of FRZD receptor. Transcriptomic based HCC classifications showed that this two types of activation were associated with distinct tumor subtypes. We tried to better understand the molecular phenotypes and the clinical features associated with these subtypes. In a first part, we linked extracellular Wnt activation with a stem/progenitor phenotype and with fibrous hotspot in HCC. Fibrous hotspot, which were called “fibrous nest”, can be detected by routine anatomic pathology analyses. We also showed that HAPLN1, an extracellular matrix protein induced by Wnt3a in progenitor HepaRG cells, was a new marker of stemness and bad outcome in HCC. Those results shows the associations between extracellular Wnt activation, extracellular matrix remodeling and tumor aggressiveness. In a second part, a transcriptome meta-analysis of 1133 HCCs highlighted 4 robust subclasses. CTNNB1 mutation, predicted by a 5-genes score based method, was associated with one of these subclasses and with good clinical features. We also highlighted a new subclass of CTNNB1 wild type HCCs associated with tumor differentiation, signatures of periportal metabolism and good outcome. This subclass was probably a confounding factor in survival studies comparing HCCs carrying mutant versus those carrying wild-type CTNNB1. Finally, we highlighted strong negative associations between CTNNB1 mutation and inflammation as well as tumor fibrosis in three independent cohorts. Preliminary results of in vitro HepaRG cells mutated for CTNNB1 in T41 and stimulated by LPS suggest an inhibitory effect of β-caténine on NF-κB. In conclusion, our results show that the two types of Wnt activation in HCC are associated with very distinct molecular phenotypes and clinical features.

Carcinome hépatocellulaire

Voie Wnt/beta catenine

Métabolisme hépatique

Remodelage matriciel

Fibrose tumorale

Hepatocellular carcinoma

Wnt/beta catenin pathway

Liver metabolism

Extracellular matrix remodeling

Tumor fibrosis

Impacts des oxystérols par le biais des LXRs et du AhR dans la myélinisation / Impact of oxysterols on myelination processes through LXRs and AhR

Shackleford, Ghjuvan'Ghjacumu

17 June 2014

La formation de la gaine de myéline est un processus complexe et finement régulé. Une altération de l’expression des gènes codant pour les protéines structurales de cette gaine entraine de graves neuropathies démyélinisantes. Notre objectif est d’identifier de nouvelles voies de signalisation capables de moduler l’expression de ces gènes. Les cellules de Schwann et les oligodendrocytes contiennent et synthétisent de grande quantité de dérivés oxydés du cholestérol : les oxystérols. Ces molécules sont connues pour leurs rôles dans le maintien de l’homéostasie du cholestérol et dans la progression des maladies neurodégénératives. Les oxystérols peuvent être classés en deux groupes : ceux dont l’oxydation a lieu sur la chaine carbonée latérale (25OH) et ceux qui portent une oxydation sur l’un des cycles du cholestérol (7KC). Nous nous sommes tout d’abord intéressés à la première catégorie d’oxystérols. Nous avons montré que le 25OH, réprimait l’expression des gènes de la myéline périphérique P0 et PMP22. Cette activité répressive était le fruit d’un mécanisme direct conduisant à une augmentation de la quantité des LXRs liés à leurs éléments de réponse sur les promoteurs des gènes de la myéline, et d’un mécanisme indirect provoquant une diminution de l’activité de la voie Wnt/β-caténine. En revanche, dans le SNC, nos résultats indiquent que le 25OH active l’expression des gènes de la myéline PLP et MBP. Le traitement, par ces oxystérols, de cultures organotypiques de cervelet démyélinisées par la lysolécithine permet une remyélinisation des axones des cellules de Purkinje. Nous nous sommes ensuite penchés sur le rôle du corégulateur transcriptionnel RIP140. Ce dernier peut soit agir comme un corépresseur soit comme un coactivateur. Il peut interagir avec le LXR. L’invalidation de RIP140 dans le poisson zèbre altère les gaines de myéline. Nous avons montré que RIP140 possédait des rôles bivalents dans la régulation de la myélinisation. En effet, il est capable d’activer mais aussi de réprimer l’activité transcriptionnelle de P0 et de PMP22. Enfin, nous nous sommes intéressés à la seconde catégorie d’oxystérols. Le 7KC est l’oxystérol majoritairement présent dans le SNP et la CS. Il est connu pour moduler l’action du récepteur aux dioxines : le AhR. Ce récepteur a été très largement étudié dans un cadre toxicologique. Cependant ses rôles et ses ligands endogènes restent à ce jour encore assez méconnus. Nos résultats indiquent que le AhR est impliqué dans le contrôle de l’expression des gènes de la myéline périphérique. L’invalidation du AhR, chez la souris, provoque des anomalies structurales de la gaine de myéline conduisant à des déficits moteurs. Cette étude a permis de mieux comprendre les dialogues entre les voies de signalisation gouvernant le processus de myélinisation. Ce travail apporte également de nouvelles perspectives thérapeutiques des maladies neurodégénératives comme la CMT1A ou la sclérose en plaques. / The myelination of axons is a complex process performed by Schwann cells (SC) and by oligodendrocytes (OL) respectively in the peripheral nervous system (PNS) and in the central nervous system (CNS). A slight change in expression of myelin structural proteins has a deep impact on the development and preservation of nerve fibers and their myelin sheaths, as observed for example in Charcot-Marie-Tooth disease or in Pelizaeus-Merzbacher disease. Our aim is to identify new signaling pathways able to control the expression of these structural proteins. SC and OL contain and synthesize high amount of reactive molecules generated from the oxidation of cholesterol: the oxysterols. Their implication in cholesterol homeostasis and in the progression of neurodegenerative disorders is well known but few data are available for their functions in myelination of PNS and CNS. Firstly, we demonstrate that oxysterols inhibit peripheral myelin gene expression: MPZ and PMP22. This downregulation is mediated by two mechanisms: by increasing the binding of LXRs to myelin genes promoters and by inhibiting the Wnt/β-catenin pathway leading to a decrease of b-catenin recruitment at the levels of the MPZ and PMP22 promoters. However, in the CNS, our data demonstrate that activation of LXRS by oxysterols stimulate myelin genes expression (PLP and MBP). Interestingly, by using demyelinated organotipc culture of cerebellum, we show that oxysterols enhance OL differentiation and promote remyelination, via LXRs. Then, we studied the role of the transcriptional coregulatory, RIP140, in myelination. RIP140 is able to act as a corepressor or as a coactivator and can interact with LXRs. In Zebrafish, the knocked down of the orthologue of RIP140 led to a decrease of peripheral and central myelin gene expression and to a defect in myelin sheath ultrastructure. Finally, we focused on impact of AhR in myelination process. AhR is a ligand activated transcription factor mostly known to interact with environmental pollutant like dioxins to mediate their toxic and carcinogenic effect. However, its detoxifying activity is posterior to the apparition of the gene and its physiological roles and endogenous ligands remain elusive. We show that the main oxysterol in the nervous system is 7-ketocholesterol which is an endogenous modulator of AhR. We report that the constitutive absence of AhR in mice leads to defects in locomotion behaviors. We studied the impact of this invalidation on the myelin of sciatic nerve. We observed a severe demyelinating phenotype and deregulation of myelin genes expression. Moreover, we demonstrated a cross-talk between AhR and Wnt/β-catenin pathways. Our data reveal a new endogenous role of AhR in myelination process.

Myéline

Myélinisation

Système nerveux

Cervelet

Nerfs

Cellule de Schwann

Oligodendrocytes

Gène de la myéline

Oxystérol

LXR

AhR

Dioxine

TCDD

PCB

Wnt/beta-caténine

RIP140

NRIP1a

Maladie de Charcot-Marie-Tooth

Sclérose en plaques

Schwannome

Myelin

Myelination

Nervous system

Nerve

Cerebellum

Schwann cell

Oligodendrocyte

Myelin genes

Oxysterols

LXR

AhR

Dioxin

TCDD

PCB

Wnt/beta-catenin pathway

RIP140

NRIP1a

Charcot-Marie-Tooth disease

Multiple sclerosis

Schwannoma

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