- 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.
Search results
Showing 81 to 90 of 91 (0.047 seconds)Spelling suggestions: "subject:"catenin"" "subject:"katenin""
| 81 |
Mechanistic Insights into the Role of IGFBP-2 in GlioblastomaShilpa, S Patil January 2015 (has links) (PDF)
Insulin like Growth Factor Binding Proteins (IGFBPs) 1 to 6 have important physiological functions of regulating half life and bioavailability of Insulin like Growth Factors (IGFs). Consequently, these have been known to play important roles in embryonic development, postnatal growth and disease conditions like cancer. However, the physiological roles of IGFBPs are diverse and not restricted only to the IGF regulation. These molecules are found to be tumor suppressors or promoters depending on the physiological contexts. IGFBP-2 has been established as a tumor promoter and found to be unregulated in several cancers including breast, ovarian, prostate cancer and glioblastoma (GBM). Various in vitro and in vivo studies have convincingly demonstrated the role of IGFBP-2 in inducing tumor cell proliferation, migration, invasion and chemoresistance. Increased plasma and tissue levels of IGFBP-2 have been associated with poor clinical outcome with respect to patients’ response to the therapy, relapse and overall survival.
Various studies so far have demonstrated the role of IGFBP-2 in promoting glioma cell proliferation, migration, invasion, chemoresistance and determining stamens of GICs (Glioma Initiating Cells). However, the exact mechanisms underlying these functions remain unknown. Apart from being a diagnostic and prognostic indicator, IGFBP-2 has also been proposed as a therapeutic target. Therefore it is essential to understand mechanistic insights into pro-tumorigenic functions of IGFBP-2. Apart from the conventional function of regulating IGFs, IGFBP-2 has been shown to have several IGF independent functions. In a previous study, we reported IGFBP-2 as an upstream regulator of β-catenin signaling pathway in breast cancer. Interestingly, this study linked the association of higher expression of IGFBP-2 and β-catenin with the lymph node metastasis status of breast cancer. β-catenin signaling has been considered as one of the most important pro-tumorigenic pathways in several cancers including glioblastoma. Considering the importance of IGFBP-2 and β-catenin signaling pathways in glioblastoma, it becomes important to evaluate regulation of β-catenin activity by IGFBP-2 in glioma and address its clinical relevance. With this aim, the objectives of this study are,
To study mechanism of IGFBP-2 mediated regulation of β-catenin signaling in glioma cells and prognostic significance of IGFBP-2 and β-catenin expression in GBM tissues.
Isolation of human single chain variable fragment (scFv) against IGFBP-2 and its characterization as an inhibitor for IGFBP-2 pro-tumorigenic functions.
Towards this, we established stable IGFBP-2 knockdown U251 cell line and IGFBP-2 over expressing LN229 and U87 cell lines. IGFBP-2 modulation in these glioma cell lines did not alter the rate of proliferation but there was a significant effect on cellular migration and invasion. In case of U251 cell line, there was a significant decrease in the intracellular levels of β-catenin while in IGFBP-2 over expressing cell lines there was a marked increase in intracellular β-catenin suggesting that IGFBP-2 is involved in the regulation of β-catenin in these cells. It was observed that this regulation of β-catenin was not because of its transcriptional regulation or regulation of canonical Wnt ligands Wnt1, Wnt2 and Wnt3a. To further delineate the pathway and understand the mechanism behind regulation of β-catenin, upstream regulators of β-catenin were analyzed. GSK3β is an important negative regulator of β-catenin which primes it for ubiquitination and proteasomal degradation. Phosphorylation of GSK3β at Ser9 position renders this enzyme inactive. In our study, it was observed that there was a significant downregulation of p-GSK3β in U251 cells with IGFBP-2 knockdown and upregulation in IGFBP-2 over expressing cell lines. Overexpression of IGFBP-2 in LN229 and U87 cell lines resulted in considerable decrease in the GSK3β mediated phosphorylation of β-catenin. This study unequivocally established that regulation of β-catenin by IGFBP-2 is via inactivation of GSK3β. Furthermore, regulation of GSK3β was found to be due to action of FAK following binding of IGFBP-2 to integrins.
The expression pattern of IGFBP-2 and β-catenin protein in the tumor tissues of 112 GBM patients was studied and its correlation with patient survival was analysed. In this analysis it was observed that co-expression of IGFBP-2 and β-catenin is a strong predictor of patient prognosis. These results further implied the importance of understanding IGFBP-2 and β-catenin association in GBM pathology.
One of the interesting observations in our study is that, not only full length IGFBP-2 protein but also C-terminal domain of IGFBP-2 was sufficient to regulate β-catenin and other IGFBP-2 mediated functions. This strongly asserts the importance of C-terminal region of IGFBP-2 as a tumor promoter.
Towards an attempt to develop an inhibitor for IGFBP-2 actions, we screened a human single chain variable fragment (scFv) library using phage display technique. From this screening, one scFv (B7J) was identified which was a binder of full length IGFBP-2 as well as C-terminal domain of IGFBP-2. This scFv showed inhibition of IGFBP-2-cell surface interaction and also efficiently inhibited IGFBP-2-induced signaling pathways like ERK, FAK and GSK3β/β-catenin. B7J treatment also neutralized regulation of IGFBP-2 transcriptional targets like MMP2 and CD24. Gelatin zymography indicated the ability of B7J to decrease matrix metalloprotease activity in the conditioned medium of glioma cells. These effects ultimately reflected on the IGFBP-2-induced cellular migratory and invasive behaviour which was largely abrogated by B7J scFv treatment. Considering the therapeutic importance of scFvs because of their small size, better tumor penetration and tumor retention capacity than full length antibody molecules, such kind of strategy could be of great importance in the management of GBM.
Altogether, this study provides a mechanistic insight of IGFBP-2 mediated actions involving integrin/FAK/GSK3β/β-catenin pathways and the possible role of this crosstalk in the aggressiveness of glioblastoma. This study also provides a proof of principle that an inhibitor like anti IGFBP-2 scFv could be of importance for controlling invasive glioblastoma.
|
| 82 |
Úloha Wnt signalizační dráhy v proliferaci a diferenciaci neurálních kmenových buněk neonatálního a dospělého myšího mozku / The role of the Wnt signalling pathway in proliferation and differentiation of neural stem cells in the neonatal and adult mouse brainKoleničová, Denisa January 2016 (has links)
The canonical Wnt/β-catenin signalling pathway plays an important role in proliferation and differentiation of neural progenitors during embryogenesis as well as postnatally. In the present study, the effect of the Wnt signalling pathway on the differentiation potential of neonatal and adult neural stem cells (NS/PCs) isolated from subventricular zone (SVZ) of lateral ventricles and their membrane properties were studied eight days after the onset of in vitro differentiation. To manipulate Wnt signalling at different cellular levels, three transgenic mouse strains were used, which enabled inhibition or activation of the pathway using the Cre- loxP system. We showed that the activation of the Wnt signalling pathway leads to higher expression of β-catenin in both postnatal as well as adult NS/PCs, while Wnt signalling inhibition results in the opposite effect. To follow the fate of NS/PCs, the patch-clamp technique, immunocytochemistry, and Western blot were employed. After eight days of NS/PCs differentiation we identified three electrophysiologically and immunocytochemically distinct cell types of which incidence was significantly affected by the canonical Wnt signalling pathway, only in differentiated neonatal NS/PCs. Activation of this pathway suppressed gliogenesis, and promoted neurogenesis,...
|
| 83 |
Caractérisation de l’implication de β-caténine dans les tumeurs surrénaliennesDurand, Julien 08 1900 (has links)
Les lésions surrénaliennes surviennent dans la population générale à une fréquence d’environ 2-3%. Parmi les anomalies génétiques identifiées jusqu’à présent dans les tumeurs surrénaliennes, les mutations somatiques de β-caténine sont les plus prévalentes. Elles sont présentes dans environ 20% des adénomes et carcinomes cortico-surrénaliens. β-caténine est l’élément central de la voie canonique de WNT qui joue un rôle crucial dans le développement embryonnaire, l’homéostase et la tumourigenèse. Les mutations activatrices de β-caténine conduisent à l’accumulation nucléaire de β- caténine qui interagit avec les TCF/LEF-1 qui active la transcription des gènes cibles. Les gènes cibles de β-caténine, varient et dépendent du contexte cellulaire. Dans la glande surrénale, les gènes cibles de β-caténine sont inconnus. Nous avons effectué des études de microarray qui nous ont permis d’identifier 490 transcrits dérégulés dans les adénomes corticosurrénaliens porteurs de mutations ponctuelles de β-caténine. L’expression aberrante d’ISM1, RALBP1, PDE2A, CDH12, ENC1, PHYHIP et CITED2 dans les adénomes porteurs de mutations de β-caténine a été confirmée par PCR en temps réel. Le traitement des cellules humaines de carcinome cortico-surrénalien H295R (mutation de CTNNB1, Ser45Prol) avec les inhibiteurs de β-caténine/TCF (PKF115-584 et PNU74654) ont confirmé l'implication de β-caténine dans la régulation transcriptionelle d’ISM1, RALBP1, PDE2A, ENC1 et CITED2. En conclusion, nos travaux ont conduit à l’identification de nouveaux gènes cibles de β-catenin impliqués dans la tumourigenèse cortico-surrénalienne. / Adrenal lesions occur in the general population at a prevalence of about 2-3%. Several mutations have been identified in adrenocortical tumours. β-catenin mutations were recently found to be the most frequent genetic alteration in both sporadic adrenocortical adenomas and carcinomas (20-30%). β-catenin is the central player in canonical Wnt signaling which plays a key role in organ/ gland development, maintenance of homeostasis and tumourigenesis. Activation of Wnt signaling by altered regulation of β-catenin levels evokes -catenin accumulation in the nucleus, and interaction with the TCF/LEF-1 proteins that activates the transcription of target genes. These target genes are believed to be highly cell and context specific and are linked to developmental and cell cycling functions. β-catenin target genes in adrenocortical tumours are unknown. Using microarray technology, we found 490 transcripts that are deregulated in adrenocortical adenomas harbouring β-catenin activating mutations in comparison to non mutated adenomas and normal adrenal glands. These genes differ highly in function and many are poorly characterized genes. Differential expression of ISM1, RALBP1, PDE2A, CDH12, ENC1, PHYHIP and CITED2 in adenomas with activating β-catenin mutations was confirmed by real-time PCR. Treatment of human adrenocortical carcinoma cells, H295R (CTNNB1 Ser45Prol), with β-catenin/TCF inhibitors (PKF115-584 and PNU74654) further confirmed the implication of β-catenin on the transcriptional regulation of ISM1, RALBP1, PDE2A, ENC1 and CITED2. In conclusion, we have found new potential β-catenin target genes that may be involved in adrenocortical tumourigenesis.
|
| 84 |
Etude des mécanismes fibro-inflammatoires au cours de la sclérodermie systémiqueMorin, Florence 08 November 2016 (has links)
La sclérodermie systémique (ScS) est une maladie auto-immune caractérisée par une fibrose cutanée et viscérale ainsi que par des anomalies microcirculatoires. Son origine multifactorielle et ses manifestations cliniques variées en font une maladie à la physiopathologie complexe. Cette maladie rare demeure une affection dont l’étiologie est encore inconnue et pour laquelle il n’existe aucun traitement curatif. Notre laboratoire a mis en évidence le rôle des formes réactives de l’oxygène en mettant au point un modèle animal induit par l’acide hypochloreux. Ce modèle nous a permis d’explorer différentes voies de signalisation intracellulaire, impliquées dans la formation de FRO, favorisant la fibrose. Dans ce travail, nous avons choisi d’explorer dans la sclérodermie systémique différentes voies de signalisation impliquées dans l’inflammation à l’aide d’un modèle de réaction du greffon contre l’hôte sclérodermiforme (GVH-Scl) et d’un modèle de sclérodermie induit par les formes réactives de l’oxygène. De plus, nous avons étudié l’impact de molécules ciblant ces voies afin de fournir de nouvelles données permettent d’enrichir l’arsenal thérapeutique de cette maladie, actuellement pauvre. Les souris obtenues à partir du premier modèle présentent une fibrose cutanée et pulmonaire, une alopécie, une diarrhée et une inflammation hépatique. Une quantité importante d’auto-anticorps ainsi qu’une activation du système immunitaire sont retrouvées. Nous avons observés une activation de la voie de l’EGFR, de STAT3, de Wnt/β-caténine, d’AKT, d’ERK1/2 et de Notch dans la GVH-Scl. L’inhibition de la voie de l’EGFR par l’erlotinib a montré une amélioration clinique associée à une réduction de la fibrose cutanée et de l’inflammation cutanée et hépatique. De plus, l’erlotinib agit sur le système immunitaire et restaure la proportion de LT CD4+ naïfs chez les souris malades ainsi que le taux d’auto-anticorps anti-topoisomérase 1. La co-inhibition des voies de signalisation STAT3, Wnt/β-caténine, AKT, ERK1/2 et Notch par le niclosamide améliore les symptômes de la GVH-Scl chez la souris. Nous avons noté une diminution de la fibrose cutanée et pulmonaire, une diminution de l’inflammation cutanée, hépatique et gastro-intestinale et une diminution de la production d’auto-anticorps. La proportion de cellules naïves parmi les LT CD4+ et CD8+ est plus élevée chez les souris malades traitées que chez les malades non traitées. Les souris du second modèle présentent une fibrose cutanée et pulmonaire et une activation du système immunitaire accompagnée d’une production d’autoanticorps anti-topoisomérase. Nous avons retrouvé une activation des voies de signalisation de STAT3, de Wnt/β-caténine et d’AKT chez les souris sclérodermiques. Nous avons également observés une activation de la voie de signalisation de STAT6 et une surexpression de KLF4 chez ces souris malades. La co-inhibition des voies de signalisation STAT3, Wnt/β-caténine et AKT par le niclosamide améliore la fibrose cutanée et pulmonaire chez les souris sclérodermiques. Cette molécule diminue le nombre et l’activation des LB et des LT CD4+ et CD8+ ainsi que la production des auto-anticorps chez les souris malades. Le traitement de souris sclérodermique par le léflunomide, inhibiteur de STAT6, a aussi montré une amélioration de la fibrose cutanée et pulmonaire et des anomalies immunitaires présentées par les souris sclérodermiques. De plus l’inhibition de STAT6 et de KLF4 par le léflunomide inhibe la polarisation des macrophages en macrophages M2. Ainsi nous avons mis en évidence le rôle des voies de signalisation de l’EGFR, de STAT3, de Wnt/β-caténine, d’AKT, de STAT6 et de KLF4 dans la physiopathologie de la sclérodermie systémique. (...) / Systemic sclerosis (SSc) is a connective tissue disorder that results in skin and inner organs fibrosis, microvascular injuries and auto-immunity. This rare disease has a complex physiopathology which is due to its multifactorial origin and its various clinical manifestations. Its etiology remains unknown and no curative treatment exists at present. Our team highlighted the role of reactive oxygen species (ROS) by developing a hypochlorous acid (HOCl)-induced mouse model of SSc. This model allowed the exploration of several intracellular signalizing pathways which were involved in ROS production and promote fibrosis. In this work, we choose to investigate inflammatory signalizing pathways in SSc with a sclerodermatous graft versus host disease (Scl-GVHD) mouse model and a ROS-induced mouse model. Moreover, we studied the effects of drugs targeting these pathways in order to reinforce data providing new therapeutics. Mice from Scl-GVHD model developed a diffuse cutaneous SSc with pulmonary fibrosis, alopecia, diarrhea and liver inflammation. Production of anti-DNA topoisomerase 1 auto-antibodies and immunological activation was also found. We observed an activation of EGFR, STAT3, Wnt/β-catenin, AKT, ERK1/2 and Notch signaling pathways in Scl-GVHD. Inhibition of EGFR by Erlotinib showed clinical amelioration with a decreased skin fibrosis and decreased skin and liver inflammation. Moreover, Erlotinib decreased production of activated/memory CD4+ T cells and of auto-antibody anti-topoisomerase1. Co-inhibition of STAT3, Wnt/β-catenin, AKT, ERK1/2 and Notch pathways by Niclosamide reversed clinical symptoms of Scl-GVHD in mice. We observed an improvement of skin and lung fibrosis, of cutaneous, hepatic and intestinal inflammation, and a reduced production of auto-antibodies. The ratio of CD4 and CD8 naive T cells was higher in Niclosamide-treated GVHD mice than in untreated GVHD mice. Mice from HOCl-model present skin and lung fibrosis and an immune activation along with the production of auto-antibodies anti-topoisomerase. We found an activation of STAT3, Wnt/β-catenin and AKT signaling pathways in HOCl-mice. We also observed an activation of STAT6 signaling pathway and an overexpression of KLF4 in these sicked mice. Co-inhibition of STAT3, Wnt/β-catenin and AKT pathways by Niclosamide improves skin and lung fibrosis in HOCl-mice. This drug decreased number and activation of B cells and CD4+ and CD8+ T cells and auto-antibodies production in mice. Treatment of HOCl-mice with Leflunomide, STAT6 inhibitor, also showed an improvement of skin and lung fibrosis and of immunological abnormalities in HOCl-mice. Moreover, inhibition of STAT6 and KLF4 by Leflunomide inhibits M2 polarization of macrophages. Thus, we highlighted the role of EGFR, STAT3, Wnt/β-catenin, AKT, STAT6 and KLF4 signaling pathways in physiopathology of SSc. Use of inhibitors of these pathways such as Etrlotinib, Niclosamide and Leflunomide, indicate a clinical and biological efficacity in mouse. These drugs allow the control of the 3 characteristic features of SSc reproduced in these animal models: fibrosis, inflammation and autoimmunity and could thus be effective in fighting the development of clinical-biological abnormalities of SSc.
|
| 85 |
Blood-Brain Barrier during cerebral maturation : impact of neuro-inflammation on the regulation of drug-efflux/influx transporters / Barrière Hémato-Encéphalique au cours de la Maturation Cérébrale : impact de la Neuro-Inflammation sur la Régulation des Transporteurs d’Efflux/Influx des MédicamentsHarati, Rania 05 December 2012 (has links)
L’échec thérapeutique des maladies cérébrales est lié, entre autres, à la présence de barrières entre le sang et le Système Nerveux Central (SNC), en particulier la Barrière Hémato-Encéphalique (BHE). La BHE est une structure neuro-vasculaire localisée au niveau des MicroVaisseaux Cérébraux (MVC) limitant l’entrée des molécules thérapeutiques dans le cerveau. Ce rôle barrière est dû à plusieurs facteurs, dont principalement, l’existence du côté luminal et/ou abluminal de la BHE de plusieurs transporteurs d’efflux, dont les transporteurs de type ABC (ATP Binding Casette) et SLC (SoLute Carrier) et qui sont à l’origine des phénomènes de résistance aux médicaments. Les études de recherche actuelles visent à identifier les voies de signalisation régulant l’activité de ces protéines d’efflux afin d’optimiser la pharmacothérapie cérébrale. Mais la majorité de ces études sont effectuées chez l’adulte. Très peu de données existent chez l’enfant.Cette étude a été réalisé dans la perspective de 1) Etudier l’ontogenèse des transporteurs ABC et SLC de la BHE au cours de la maturation cérébrale, 2) Elucider le rôle fonctionnel de quatre transporteurs d’efflux ((P-glycoproteine (P-gp), Breast Cancer Resistance Protein (bcrp), Organic Anion Transporter 3 (oat3), and Transporting Peptide 1a4 (oatp1a4) transporters) dans le cerveau des enfants et 3) Elucider les mécanismes qui régulent leur expression fonctionnelle dans des conditions normales et pathologiques, notamment inflammatoires, parce que des modifications dans les composantes structurales et fonctionnelles de l'unité neurovasculaire ont été rapportées dans une longue liste de pathologies du SNC chez les enfants et les adultes. Nos résultats ont montré l’existence de différences fonctionnelles, en terme de passage de molécules, entre la BHE pédiatrique et celle adulte. De plus, cette étude a mis en évidence une régulation différentielle liée à l'âge des transporteurs d'efflux de médicaments de la barrière dans des conditions normales et inflammatoires.Ces résultats fournissent des preuves sur l’intérêt de prendre en compte les propriétés spécifiques de la BHE pédiatrique et la distinguer de la BHE adulte lors des définitions des stratégies thérapeutiques destinées à traiter les maladies cérébrales chez les enfants. / One major reason of CNS pharmacotherapy’s impediment is the existence of “barriers” between blood and CNS, especially the Blood-Brain Barrier (BBB), a neurovascular structure localized at the level of brain microvasculature. Main factors responsible for this barrier function are drug efflux transporters type ABC (ATP-Binding Cassette) and SLC (SoLute Carrier) expressed at BBB level and known to be at the origin of multi-drug resistance phenomenon. Recent researches aim at unraveling the signaling mechanisms regulating these transporters in order to modulate their activity and improve pharmacotherapy in brain diseases. For years, these transporters have been studied in adult organism. But, there is a wide spread belief that the BBB in embryo, fetus, new born and infant is “immature”, implying caution in giving drugs to infants. However, current knowledge on the functional status of the BBB in immature organism remains very limited.This study was performed in the aim of understanding: 1) The ontogenesis of ABC and SLC transporters during brain maturation, 2) the functional role of four BBB drug efflux transporters (P-glycoprotein (P-gp), Breast Cancer Resistance Protein (bcrp), Organic Anion Transporter 3 (oat3), and Transporting Peptide 1a4 (oatp1a4) transporters) in children’s brain, and 3) the mechanisms that regulate their functional expression under normal and pathological conditions, mostly under inflammatory conditions, because indeed alterations in structural and functional components of the BBB have been reported in a long list of CNS pathologies in adults. Our results showed changing properties of the BBB during ontogenesis, as well as an age-related differential regulation of BBB drug efflux transporters under normal and inflammatory conditions.These findings highlight the importance of considering an age-related response of CNS to drugs and of taking into account the specific properties of juvenile BBB during definition of therapeutic strategies designed to treat childhood brain diseases, and this in the clinical perspective of developing new drugs with enhanced efficacy in children’s CNS.
|
| 86 |
Investigarion of Activated Phosphaidylinositol 3’ Kinase Signaling in Stem Cell Self-renewal and TumorigenesisLing, Ling 31 August 2012 (has links)
The phosphatidylinositol 3' kinase (PI3K) pathway is involved in many cellular processes including cell proliferation, survival, and glucose transport, and is implicated in various disease states such as cancer and diabetes. Though there have been numerous studies dissecting the role of PI3K signaling in different cell types and disease models, the mechanism by which PI3K signaling regulates embryonic stem (ES) cell fate remains unclear. It is believed that in addition to proliferation and tumorigenicity, PI3K activity might also be important for self-renewal of ES cells. Paling et al. (2004) reported that the inhibition of PI3K led to a reduction in the ability of leukemia inhibitory factor (LIF) to maintain self-renewal causing cells to differentiate. Studies in our lab have revealed that ES cells completely lacking GSK-3 remain undifferentiated compared to wildtype ES cells. GSK-3 is negatively regulated by PI3K suggesting that PI3K may play a vital role in maintaining pluripotency in ES cells through GSK-3.
By using a modified Flp recombinase system, we expressed activated alleles of PDK-1 and PKB to create stable, isogenic ES cell lines to further study the role of the PI3K signaling pathway in stem cell fate determination. In vitro characterization of the transgenic cell lines revealed a strong tendency towards maintenance of pluripotency, and this phenotype was found to be independent of canonical Wnt signal transduction. To assess growth and differentiation capacity in vivo, the ES cell lines were grown as subcutaneous teratomas. The constitutively active PDK-1 and PKB ES cell lines were able to form all three germ layers when grown in this manner – in contrast to ES cells engineered to lack GSK-3. The resulting PI3K pathway activated cells exhibited a higher growth rate which resulted in large teratomas.
In summary, PI3K signaling is sufficient to maintain self-renewal and survival of stem cells. Since this pathway is frequently mutationally activated in cancers, its effect on suppressing differentiation may contribute to its oncogenicity.
|
| 87 |
Investigarion of Activated Phosphaidylinositol 3’ Kinase Signaling in Stem Cell Self-renewal and TumorigenesisLing, Ling 31 August 2012 (has links)
The phosphatidylinositol 3' kinase (PI3K) pathway is involved in many cellular processes including cell proliferation, survival, and glucose transport, and is implicated in various disease states such as cancer and diabetes. Though there have been numerous studies dissecting the role of PI3K signaling in different cell types and disease models, the mechanism by which PI3K signaling regulates embryonic stem (ES) cell fate remains unclear. It is believed that in addition to proliferation and tumorigenicity, PI3K activity might also be important for self-renewal of ES cells. Paling et al. (2004) reported that the inhibition of PI3K led to a reduction in the ability of leukemia inhibitory factor (LIF) to maintain self-renewal causing cells to differentiate. Studies in our lab have revealed that ES cells completely lacking GSK-3 remain undifferentiated compared to wildtype ES cells. GSK-3 is negatively regulated by PI3K suggesting that PI3K may play a vital role in maintaining pluripotency in ES cells through GSK-3.
By using a modified Flp recombinase system, we expressed activated alleles of PDK-1 and PKB to create stable, isogenic ES cell lines to further study the role of the PI3K signaling pathway in stem cell fate determination. In vitro characterization of the transgenic cell lines revealed a strong tendency towards maintenance of pluripotency, and this phenotype was found to be independent of canonical Wnt signal transduction. To assess growth and differentiation capacity in vivo, the ES cell lines were grown as subcutaneous teratomas. The constitutively active PDK-1 and PKB ES cell lines were able to form all three germ layers when grown in this manner – in contrast to ES cells engineered to lack GSK-3. The resulting PI3K pathway activated cells exhibited a higher growth rate which resulted in large teratomas.
In summary, PI3K signaling is sufficient to maintain self-renewal and survival of stem cells. Since this pathway is frequently mutationally activated in cancers, its effect on suppressing differentiation may contribute to its oncogenicity.
|
| 88 |
Caractérisation de l’implication de β-caténine dans les tumeurs surrénaliennesDurand, Julien 08 1900 (has links)
Les lésions surrénaliennes surviennent dans la population générale à une fréquence d’environ 2-3%. Parmi les anomalies génétiques identifiées jusqu’à présent dans les tumeurs surrénaliennes, les mutations somatiques de β-caténine sont les plus prévalentes. Elles sont présentes dans environ 20% des adénomes et carcinomes cortico-surrénaliens. β-caténine est l’élément central de la voie canonique de WNT qui joue un rôle crucial dans le développement embryonnaire, l’homéostase et la tumourigenèse. Les mutations activatrices de β-caténine conduisent à l’accumulation nucléaire de β- caténine qui interagit avec les TCF/LEF-1 qui active la transcription des gènes cibles. Les gènes cibles de β-caténine, varient et dépendent du contexte cellulaire. Dans la glande surrénale, les gènes cibles de β-caténine sont inconnus. Nous avons effectué des études de microarray qui nous ont permis d’identifier 490 transcrits dérégulés dans les adénomes corticosurrénaliens porteurs de mutations ponctuelles de β-caténine. L’expression aberrante d’ISM1, RALBP1, PDE2A, CDH12, ENC1, PHYHIP et CITED2 dans les adénomes porteurs de mutations de β-caténine a été confirmée par PCR en temps réel. Le traitement des cellules humaines de carcinome cortico-surrénalien H295R (mutation de CTNNB1, Ser45Prol) avec les inhibiteurs de β-caténine/TCF (PKF115-584 et PNU74654) ont confirmé l'implication de β-caténine dans la régulation transcriptionelle d’ISM1, RALBP1, PDE2A, ENC1 et CITED2. En conclusion, nos travaux ont conduit à l’identification de nouveaux gènes cibles de β-catenin impliqués dans la tumourigenèse cortico-surrénalienne. / Adrenal lesions occur in the general population at a prevalence of about 2-3%. Several mutations have been identified in adrenocortical tumours. β-catenin mutations were recently found to be the most frequent genetic alteration in both sporadic adrenocortical adenomas and carcinomas (20-30%). β-catenin is the central player in canonical Wnt signaling which plays a key role in organ/ gland development, maintenance of homeostasis and tumourigenesis. Activation of Wnt signaling by altered regulation of β-catenin levels evokes -catenin accumulation in the nucleus, and interaction with the TCF/LEF-1 proteins that activates the transcription of target genes. These target genes are believed to be highly cell and context specific and are linked to developmental and cell cycling functions. β-catenin target genes in adrenocortical tumours are unknown. Using microarray technology, we found 490 transcripts that are deregulated in adrenocortical adenomas harbouring β-catenin activating mutations in comparison to non mutated adenomas and normal adrenal glands. These genes differ highly in function and many are poorly characterized genes. Differential expression of ISM1, RALBP1, PDE2A, CDH12, ENC1, PHYHIP and CITED2 in adenomas with activating β-catenin mutations was confirmed by real-time PCR. Treatment of human adrenocortical carcinoma cells, H295R (CTNNB1 Ser45Prol), with β-catenin/TCF inhibitors (PKF115-584 and PNU74654) further confirmed the implication of β-catenin on the transcriptional regulation of ISM1, RALBP1, PDE2A, ENC1 and CITED2. In conclusion, we have found new potential β-catenin target genes that may be involved in adrenocortical tumourigenesis.
|
| 89 |
Roles of <em>Wnt4/5a</em> in germ cell differentiation and gonad development & <em>ErbB4</em> in polarity of kidney epitheliumNaillat, F. (Florence) 25 October 2011 (has links)
Abstract
The embryonic urogenital system generates the metanephric kidneys, the gonads and the adrenal glands, and its development is based on sequential and reciprocal cell and tissue interactions. The mechanisms which regulate urogenital ontogeny are still poorly understood.
In this thesis, the roles of Wnt-4 and ErbB4 functions in gonad and kidney development were analysed by using in vivo functional genomic technologies. Wnt-4 is crucial in female development since its absence leads to a partial female to male sex reversal. We found that Wnt-4 mediated the interactions between the somatic and the germ cells and played a role in meiosis which is regulated in part by the secreted signal retinoic acid (RA). Expression of certain meiosis-controlling genes (Stra8, Spo11) was inhibited in the Wnt-4 deficient germ cells, while certain pluripotency genes (Oct4, Fgf9, Sox2 and Dnmt3l) were activated similarly as in the wild-type male gonad. In addition to this, we noted that a gene encoding for a Cyp26b1 enzyme, which degrades RA in the embryonic testis, was ectopically expressed in the Wnt-4 deficient ovary. Microarray analysis was used to identify candidate Wnt-4 target genes by using the Wnt-4 knock-out mouse. Of these genes, Runx-1 may represent a novel signalling target to mediate Wnt-4 activity in the control female development
The role of receptor-tyrosine kinase ErbB4 in kidney development was studied by using both in vivo gain and loss of function approaches. In the gain-of-function situation, we found that certain markers for the epithelial tubules and collecting ducts lost their polarized expression pattern. At the same time, the orientation of the cells in the kidney tubules was deregulated and an increase in cell proliferation was noticed. We suggest that the observed defects gave rise to an increase in the tubule diameter and to cyst formation in the kidney cortex. In the loss-of-function mouse, the lack of ErbB4 expression led to a similar phenotype as with the gain of function, and the renal functions of the mutant adult kidneys were compromised.
In conclusion, the results point to specific roles for Wnt-4 and ErbB4 in the control of urogenital development. Wnt-4 appears to be crucial in sustaining proper female somatic cell and germ cell differentiation, and maintenance of gonad development during and after the sex determination event, while ErbB4 activity is critical for the regulation of tubular growth in embryonic kidney development. / Tiivistelmä
Sekä nisäkkään jälkimunuainen, lisämunuainen että sukurauhanen kehittyvät alkion urogenitaalialueen järjestelmästä ja solu- ja kudosvuorovaikutukset ohjaavat elinkehitysprosessia. Tapahtuman molekyylitason mekanismit ovat kuitenkin huonosti tunnettuja.
Tässä väitöskirjatyössä tutkittiin Wnt-4 signaalin tehtäviä sukurauhasen ja ErbB4- proteiinin munuaisen kehityksessä. Wnt-4 signaali on keskeinen naisen sukupuolisuuden kehityksessä, koska signaalin puutos aiheuttaa alkion sukupuolen osittaisen kääntymisen naaraasta koiraaksi. Tarkastelimme aluksi sitä, välittääkö Wnt-4 itusolujen ja sukurauhasen somaattisten solujen vuorovaikutuksia ohjaten itusolujen meioosia, jota mm. A-vitamiini säätelee. Havaitsimme, että Wnt-4 geeni puuttuessa tietyt meioosia säätelevät geenit kuten Stra8 ja Spo11 olivat heikentyneet, kun taas solujen monikykyisyyteen liittyvät geenit kuten Oct4, Fgf9, Sox2 ja Dnmt3l aktivoituivat vastaavalla tavalla kuin havaitaan normaalisti koirasalkion kivesaiheessa. Tämän lisäksi havaitsimme, että Cyp26b1-geeni, joka johtaa A-vitamiinin hajoamiseen alkiossa ja estää normaalisti meioosin koirasalkion kivesaiheessa oli aktivoitunut munuaisrauhasaiheessa, jolta puuttuu Wnt-4 aktiivisuus. Tuloksemme osoittavat, että Wnt-4 säätelee osaltaan naarasalkion itusolujen meioosia.
Tarkastelimme myös mikrosirututkimusten avulla niitä geenejä, joita Wnt-4 säätelee sukuelinaiheessa. Identifioimme useissa Wnt ja β-catenin signaalireittiin liittyvissä geeneissa muutoksia. Muuntuneet geenit voivat olla Wnt-4 signaalireitin kohdegeenejä. Näistä Runx-1 saattaa olla keskeinen Wnt signaalitien kohdegeeni, joka säätelee merkittävällä tavalla naaraan munarauhasen kehitystä.
Väitöskirjan toisessa osassa tarkastelimme ErbB4-reseptorityrosiinikinaasin tehtäviä munuaisen kehityksen säätelyssä. ErbB4-geenin tehtäviä tutkittiin käyttäen hyväksi siirtogeenisiä malliorganismeja, joissa ErbB4-geenin määrä oli joko koholla tai ajastetusti inaktivoitu. ErbB4- geenin kokeellinen yliaktiivisuus muutti spesifisti tekijöitä, jotka säätelevät osaltaan jälkimunuaisen epiteeliputkien solujen orientaatiota ja solun jakautumista. Solujen orientaatiomuutoksen yhteydessä myös solujen jakautuminen häiriintyi. Oletuksemme on, että nämä epiteelikudoksessa tapahtuneet muutokset ovat syy, miksi kohotettu ErbB4-aktiviteetti muuttaa epiteeliputkien paksuutta ja pituutta erityisesti munuaisen pintakerroksissa. Havaitsimme myös, että ErbB4-geenin ajastettu poistaminen munuaisen epiteelikudoksessa johti hyvin samankaltaisiin, mutta vastakkaisiin muutoksiin kuin ErbB4-aktiviteetin kohottaminen. Muutokset johtivat myös muutoksiin munuaisen toiminnassa.
Yhteenvetona toteamme, että näillä Wnt-4 ja ErbB4 solusignallointiin liittyvillä molekyyleillä on keskeinen tehtävä alkion munarauhasen ja munuaisen aiheen kehityksen säätelyssä. Wnt-4 ohjaa sekä itusolujen että somaattisten solujen erilaistumista ja samalla sukupuolen määräytymistä ja jatkokehitystä, kun taas ErbB4-signallointireseptorin tehtävä on avainasemassa munuaisen epiteeliputken kasvun säätelyssä.
|
| 90 |
Relations fonctionnelles entre les voies des hormones thyroïdiennes et WNT dans la physiopathologie intestinale : étude de la fonction de sFRP2 / Functional relations between the thyroïd hormones and WNT pathways in the intestinal physiopathology : study of sFRP2 functionSkah, Seham 27 September 2012 (has links)
L'épithélium intestinal est un tissu en constant renouvellement, grâce à des cellules souches somatiques présentes dans les cryptes intestinales. Le renouvellement perpétuel et l’homéostasie de ce tissu sont assurés par plusieurs réseaux de signalisation. Il est maintenant admis que la dérégulation de ces mêmes voies est impliquée dans le processus d’initiation et/ou de progression tumorale. Mon laboratoire a décrit l'implication des hormones thyroïdiennes (HT) et de leur récepteur nucléaire TRα1 dans le contrôle de l'homéostasie intestinale, via la régulation de la voie Wnt, jouant un rôle clé dans la physiopathologie de ce tissu. Plus précisément, TRα1 active l’expression et la stabilisation de β-caténine via un mécanisme impliquant le facteur sFRP2. Au cours de ma thèse, j’ai participé, d’une part à l’étude de souris transgéniques surexprimant TRα1 dans l’épithélium intestinal et à l’analyse des mécanismes moléculaires de la régulation croisée entre TRα1 et la voie Wnt canonique dans l’induction des tumeurs intestinales. Nous avons donc démontré un rôle oncogénique de TRα1 dans l’épithélium intestinal. De plus, le mécanisme moléculaire et fonctionnel implique les deux effecteurs de la voie canonique, β-caténine et TCF4. D’autre part, j’ai analysé la fonction de sFRP2 dans la physiopathologie intestinale, et son action sur la voie Wnt. D’une manière intéressante, l’étude de la fonction de sFRP2 nous a permis de révéler son rôle original dans la différenciation des cytotypes épithéliaux. De plus, nous avons montré que sFRP2 est un modulateur positif des voies Wnt canonique et non canonique (JNK). Par ailleurs, l’absence d’expression de sFRP2 a pour conséquence d’augmenter l’apoptose dans les cryptes intestinales et ainsi diminuer le nombre de tumeurs chez des animaux double mutants sFRP2-/-/Apc+/1638N comparé aux simple mutants Apc+/1638N. Ces résultats fournissent des éléments originaux et importants sur les relations fonctionnelles entre les voies des HT et Wnt. / The intestinal epithelium is a tissue constantly renewing through somatic stem cells located within the crypts. Several signalling pathways control this process and the homeostasis in this tissue. It is now recognized that the deregulation of these pathways is involved in the process of initiation and/or progression of intestinal tumors. My laboratory has described the involvement of thyroid hormones (TH) and their nuclear receptor TRα1 in the control of the intestinal homeostasis via the regulation of Wnt pathway, which plays a key role in the intestinal physiopathology. Specifically, TRα1 directly activates the expression of β-catenin and controls its stabilization through a mechanism involving sFRP2 (secreted frizzled-related protein 2). During my thesis, I participated to the characterization of transgenic mice overexpressing TRα1 in the intestinal epithelium. Moreover, I have been involved in the study of the molecular mechanisms of the cross-regulation between TRα1 and the canonical Wnt in the induction of intestinal tumors. We have therefore demonstrated an oncogenic role of TRα1 in the intestinal epithelium. In addition, the molecular and functional mechanisms involve both effectors of the canonical pathway, β-catenin and TCF4. On the other hand, I carried out the study of sFRP2 function in the intestinal physiopathology, and its action on the Wnt pathway. My data strongly suggest that sFRP2 plays an essential role in the differentiation of epithelial cytotypes. In addition, we showed that sFRP2 is a positive modulator of the canonical and non-canonical (JNK) Wnt. For instance, the absence of sFRP2 expression increases the apoptosis in the intestinal crypts and thus reduces the number of tumors in the double mutant sFRP2-/-/Apc+/1638N compared to simple mutant Apc+/1638N. These results provided original and important data of the functional relationships between TH and Wnt pathways.
|
Page generated in 0.0978 seconds