Global ETD Search

81	Rôle de la Podoplanine dans le développement et la tumorigenèse mammaires / Role of Podoplanin in mammary gland development and tumorigenesis Bresson, Laura 21 November 2017 (has links) L’épithélium mammaire est composé de cellules luminales et basales myoépithéliales. Il comprend des cellules souches et progénitrices qui gouvernent le développement de la glande. Leur dérégulation est probablement à l’origine de certains cancers du sein très agressifs, dits « triple-‐négatifs » (négatifs pour les récepteurs hormonaux et HER2), pour lesquels il n’existe pas de thérapie ciblée. L’équipe a identifié un nouveau marqueur spécifique du compartiment basal comprenant les cellules souches, la Podoplanine (Pdpn), dont l’expression est concentrée aux contactsintercellulaires basal-‐luminal. La Pdpn est une glycoprotéine transmembranaire connectée au cytosquelette, impliquée dans le développement denombreux tissus et la tumorigenèse. Son rôle dans la glande mammaire n’a jamais été étudié. A l’aide d’une délétion génique conditionnelle, nous avons trouvé que l’absence de Pdpn dans l’épithélium mammaire perturbe la fonction des cellules souches/progénitrices basales ainsi quel’expression de plusieurs composants du signalosome de la voie Wnt/b-‐caténine. De plus, la perte de Pdpn dans un modèle murin de tumorigénèsemammaire induite par l’activation de la signalisation Wnt/b-‐caténine réduit la fréquence des tumeurs mammaires triple-‐négatives, limite l’expansiondes cellules initiatrices de tumeurs et favorise l’expression de marqueurs moléculaires associés à un programme de transition mésenchymo-‐épithéliale. Au moyen d’expériences de gain de fonction dans une lignée de cellules basales mammaires, Nous avons montré que les phénotypes décrits précédemment reposent sur des mécanismes moléculaires impliquant la Pdpn dans le contrôle positif de l’activation de la voie Wnt/b-‐caténine. Notre étude révèle un rôle pour la Pdpn dans le contrôle des cellules souches et de leur réponse à la signalisation Wnt/b-‐caténine au cours du développement et de la tumorigénèse mammaire. / Stem cells (SC) drive mammary development, giving rise postnatally to an epithelial bilayer composed of luminal and basal myoepithelial cells. The molecular identity of SCs and the factors regulating their function remain poorly defined. We identified the transmembrane protein, Podoplanin (Pdpn), as a specific marker of the basal compartment, including multipotent SCs, and found Pdpn localized at the basal-luminal interface. Embryonic deletion of Pdpn targeted to basal cells diminished basal and luminal SC activity and affected expression of several Wnt/b-catenin (Wnt/b-cat) signaling components. Moreover, Pdpn deletion attenuated mammary tumor formation in a mouse model of b-cat-induced breast cancer, limiting tumor-initiating cell expansion and promoting molecular features associated with mesenchymal-to-epithelial cell transition. In line with the loss-of-function data, we demonstrated that mechanistically, Pdpn enhanced Wnt/b-cat signaling in mammary basal cells. Overall, our study reveals a role for Pdpn in mammary development and tumorigenesis through the control of Wnt/b-cat-responsive SCs. Glande mammaire Cellules souches Podoplanine Signalisation Wnt Cancer du sein Mammary gland Stem cells Podoplanin Wnt signaling Breast cancer
82	Regulation of Sensory Neurogenesis in the Trigeminal Placode: Notch Pathway Genes, Pax3 Isoforms, and Wnt Ligands Adams, Jason Samuel 02 November 2012 (has links) (PDF) This dissertation is divided into three chapters, each discussing the study of different regulatory molecules involved in sensory neurogenesis occurring in the trigeminal placode. Chapter one is a spatiotemporal description of Notch pathway genes in chick opV placode by stage-specific expression analysis, showing expression of many Notch pathway genes and effectors in the opV placode. Notch pathway gene expression is primarily confined to the ectoderm with highest expression of these genes at the beginning stages of peak neuronal differentiation. This information preceded studies of the functional roles that Notch signaling has in the opV placode and how it may affect the transcription factor, Pax3. Chapter two is a study of the transcription factor Pax3 and its role in opV placode development and sensory neuron differentiation. Pax3 is known to activate or repress gene transcription, and its activity may be dependent on the splice variant or isoform present. We show through RT-PCR that alternative splice forms of Pax3 are present at stages of chick development corresponding to cellular competence, cellular differentiation and ingression, and cellular aggregation. We have named these splice forms, Pax3V1 and Pax3V2. Using quantitative RT-PCR we show that Pax3V2 is consistently expressed at lower levels compared to Pax3 during cellular competence and differentiation. In order to determine the function of the three splice forms, we misexpressed them in the opV placode and analyzed the effect on neurogenesis. We looked at markers for neuronal differentiation of targeted cells after in ovo electroporation of Pax3, Pax3V1, and Pax3V2, which showed a significant difference between the control and each construct, but not between the groups of constructs. To enhance the process of neurogenesis we exposed the electroporated embryos to DAPT, a Notch signaling inhibitor that enhances sensory neurogenesis. Using this method we found that misexpression of Pax3 and Pax3V1 resulted in cells failing to differentiate, while Pax3V2 misexpression more closely resembles the neuronal differentiation seen in controls. These results show that the Pax3V2 isoform allows for neuronal differentiation of opV placodal cells after misexpression, while the Pax3 isoform and the Pax3V1 isoform block neuronal differentiation. Chapter three is a study of the necessity of Wnt signaling originating from the neural tube to induce Pax3 expression in the opV placode. A double knockout of Wnt1 and Wnt3a was produced to determine the necessity of these genes in opV placode development. Pax3 expression in the opV placode at E8.5 and E9.5 was markedly reduced in the double mutants when compared to wild type mice. This study shows that Wnt1 and Wnt3a genes are necessary for normal Pax3 expression, but that other signals may contribute to its induction. sensory neurogenesis Notch signaling Pax3 splice forms isoforms alternative splicing ophthalmic trigeminal placode Wnt signaling Cell and Developmental Biology Physiology
83	Immunocytochemical Analysis of Endogenous Frizzled-(Co-)Receptor Interactions and Rapid Wnt Pathway Activation in Mammalian Cells Neuhaus, Jochen, Weimann, Annett, Berndt-Paetz, Mandy 17 January 2024 (has links) The differential activation of Wnt pathways (canonical: Wnt/-catenin; non-canonical: planar cell polarity (PCP), Wnt/Ca2+) depends on the cell-specific availability and regulation of Wnt receptors, called Frizzled (FZD). FZDs selectively recruit co-receptors to activate various downstream effectors. We established a proximity ligation assay (PLA) for the detection of endogenous FZD–coreceptor interactions and analyzed time-dependent Wnt pathway activation in cultured cells. Prostate cancer cells (PC-3) stimulated by Wnt ligands (Wnt5A, Wnt10B) were analyzed by Cy3-PLA for the co-localization of FZD6 and co-receptors (canonical: LRP6, non-canonical: ROR1) at the single-cell level. Downstream effector activation was assayed by immunocytochemistry. PLA allowed the specific (siRNA-verified) detection of FZD6–LRP6 and FZD6–ROR1 complexes as highly fluorescent spots. Incubation with Wnt10B led to increased FZD6–LRP6 interactions after 2 to 4 min and resulted in nuclear accumulation of -catenin within 5 min. Wnt5A stimulation resulted in a higher number of FZD6–ROR1 complexes after 2 min. Elevated levels of phosphorylated myosin phosphatase target 1 suggested subsequent Wnt/PCP activation in PC-3. This is the first study demonstrating time-dependent interactions of endogenous Wnt (co-)receptors followed by rapid Wnt/-catenin and Wnt/PCP activation in PC-3. In conclusion, the PLA could uncover novel signatures of Wnt receptor activation in mammalian cells and may provide new insights into involved signaling routes info:eu-repo/classification/ddc/610 ddc:610
84	Chromatin-associated functions of the APC tumor suppressor protein Hankey, William C., IV January 2016 (has links) No description available. Biomedical Research APC tumor suppressor colorectal cancer canonical WNT signaling chromatin transcription AP-1 transcription factor ChIP-seq beta-catenin
85	Validation and Characterization of TCF7L1-SALL4 Protein-Protein Interaction in Mouse Embryonic Stem Cells Seo, Caleb January 2019 (has links) Here, we validate novel protein interactors of TCF7L1 (also known as TCF3), a downstream transcription factor in the Wnt/β-catenin signaling pathway, from an initial protein interaction screen that utilized the BioID system in mouse embryonic stem cells. The BioID-TCF7L1 screen identified multiple proteins including several transcription factors and numerous epigenetic regulators. Notably, SALL4, a key embryonic stem cell factor belonging to the SPALT family of transcription factors was validated to interact with TCF7L1 through Proximity Ligation Assay (PLA), and Co-Immunopreciptation (Co-IP). Analysing mRNA transcriptomic signatures of TCF7L1-null mEScs and SALL4 overexpressing mESCs, we observed similarly increased output of the pluripotency-gene, Tbx3, suggesting a transcriptionally opposing function between TCF7L1 and SALL4. Furthermore, we identified that SALL4 also interacted with TCF7, suggesting that SALL4 may interact with all four members of the TCF/LEF transcription factor family to regulate Wnt targets. This work further validates the utility and effectiveness of screening transcription factor interactors through the BioID system and provides important insights into SALL4 mediated Wnt regulation through the TCF/LEFs. / Thesis / Master of Science (MSc) / The biology of cells is highly complex. The genes within are under tight regulation to promote balance that is critical to the growth and status of the cell. Cells communicate with one another to support this balance through molecule secretion signaling which dictates biology. Understanding the complex biology within cells is critical, and therefore here we study one of many signaling pathways known as the Wnt Signaling Pathway. This work contributes to the knowledge of Wnt signaling by validating the interaction of proteins that dictate the onset or offset of important genes in mouse embryonic stem cells.
86	Altération de l’interaction entre la PTH et LRP6 dans les ostéoblastes humains arthrosiques via DKK2 Bichra, Madiha 01 1900 (has links) L’ostéoarthrose (OA) se caractérise par une perte du cartilage articulaire, une sclérose osseuse, et une inflammation de la membrane synoviale. Des études in vivo et in vitro indiquent que les modifications du tissu osseux sont responsables de la perte du cartilage articulaire. Les ostéoblastes (Ob) OA présentent une réduction de la réponse à l’hormone parathyroïdienne (PTH), un signal anabolique important pour le tissu osseux, versus les Ob normaux. Le récepteur à la PTH (PTH-R) interagit avec le LRP6, le récepteur des ligands Wnts, et les antagonistes Dickkopf (DKK) bloquent cette interaction. Puisque le niveau de DKK2 est élevé en réponse au TGF-β1 dans les OA Ob, nous proposons que DKK2 altère l’interaction LRP6/PTH-R, le recyclage de PTH-R, et inhibe la réponse à la PTH. Nous avons utilisé des Ob OA et normaux humains en culture primaire. L’expression de PTH-R, LPR6 et DKK2 est mesurée par RT-PCR. Les niveaux protéiques de LRP6, PTH-R et DKK2 ont été déterminés par immunobuvardage. L’inhibition de DKK2 s’est effectuée par siRNA et l’AMP cyclique (AMPc) a été mesurée par ELISA. L’effet de TGF-β1 sur l’expression de DKK2 et PTH-R a été testé sur des cellules d’ostéosarcome SaOS-2. L’expression de PTH-R et LRP6 est similaire entre Ob normaux et OA, mais le niveau protéique de PTH-R est réduit dans les Ob OA. Par contre, l’expression et la production de DKK2 sont plus élevées dans les Ob OA. L’inhibition de DKK2 ne modifia pas l’expression de LRP6 et PTH-R dans les Ob OA mais a augmenté le niveau protéique de PTH-R détecté par immunobuvardage alors que celui de LRP-6 demeura inchangé. L’inhibition de DKK2 dans les Ob OA entraîna une augmentation de PTH-R dans la fraction membranaire et une diminution de la fraction intracellulaire. Les résultats de l'inhibition de la voie de clathrine par le triflupromazine ont montré une expression accrue du récepteur PTH dans la fraction membranaire qui peut être due à l'inhibition de sa dégradation par la voie de clathrine. L’induction de DKK2 dans les cellules SaOS-2 par TGF-β1 entraîna l’inhibition de PTH-R mais non celle de LRP6. L’inhibition de DKK2 dans les Ob OA a stimulé la production d’AMPc en réponse à la PTH par les Ob OA. En outre, le traitement de TGF-β1 dans les cellules SaOS-2 réduit la production d'AMPc en réponse à la PTH.Ces résultats démontrent que les niveaux élevés de DKK2, via l’inhibition de la signalisation Wnt/bcaténine, sont aussi responsables de l’altération de la réponse à la PTH observée dans les Ob OA. Le niveau élevé de DKK2 diminue spécifiquement l’affichage membranaire de PTH-R dans ces cellules et non son expression. Ces résultats suggèrent donc une altération du cross-talk entre LRP6 et PTH-R dans les Ob OA en lien avec leur niveau de DKK2. / Osteoarthritis (OA) is characterized by loss of articular cartilage, bone sclerosis and synovial membrane inflammation. In vivo and in vitro studies indicate that the changes in bone tissue are responsible for the loss of articular cartilage. OA Osteoblasts (Ob) show a reduced response to parathyroid hormone (PTH), an important anabolic signal for bone tissue, versus normal Ob. The PTH receptor (PTH-R) interacts with LRP6, a receptor of Wnt ligands, and DKK antagonists block this interaction. Since DKK2 production is high in OA Ob whereas DKK2 is increased in normal Ob in response to TGF-β1, we propose that DKK2 alters the LRP6/PTH-R interaction, PTH-R recycling and inhibits the response to PTH. We used human OA and normal osteoblasts in primary culture. PTH-R, DKK2 and LRP6 expression were measured by RT-PCR. LRP6, PTH-R and DKK2 protein levels were determined by immunoblotting. Inhibition of DKK2 levels in OA Ob was performed by DKK2-siRNA, and cAMP production was measured by ELISA. The effect of TGF-β1 on DKK2, PTH-R and cAMP production was tested in osteosarcoma cells SaOS-2. In OA Ob, PTH-R and LRP6 mRNA levels were not changed following DKK2 siRNA treatment. However, PTH-R protein expression increased while that for LRP-6 remained unchanged after treatment with DKK2-siRNA. Compared to control, the distribution of PTH-R was higher in the membrane fraction and lower in the intracellular fraction in OA Ob following DKK2 inhibition. In contrast, LRP6 levels remained almost unchanged following these treatments. The results of the inhibition of the clathrin pathway by triflupromazin showed an increased expression of the PTH receptor in the membrane fraction that may be due to inhibition of their degradation by clathrin pathway. In OA Ob, DKK2 inhibition stimulated cAMP production in response to PTH. DKK2 induction by TGF-β1 in SaOS-2 cells, as assessed by qRT-PCR, caused the inhibition of PTH-R protein expression but not of LRP6. In addition, TGF-β1 treatment in SaOS-2 cells reduced cAMP production in response to PTH. These results demonstrate that high levels of DKK2 in OA Ob are responsible for the altered response to PTH. DKK2 antagonists decrease specifically PTH-R membrane display while they do not affect LRP6 recycling. These results suggest an altered cross-talk between LRP6 and PTH-R in OA Ob due to high levels of DKK2 in these cells. Ostéoarthrose Os sous-chondral Ostéoblaste Signalisation Wnt PTH-R DKK2 LRP-6 Osteoarthritis subchondral bone osteoblast Wnt signaling
87	Adjusting Wnt signaling, nové regulační mechanismy signální dráhy Wnt / Adjusting Wnt signaling, new regulatory mechanisms of the Wnt pathway Fafílek, Bohumil January 2012 (has links) 4 Abstract The Wnt pathway is one of the major signaling cascades contributing to multiple cellular processes during embryogenesis, and adult tissue homeostasis and regeneration. Moreover, aberrant activation of the Wnt signaling pathway is connected with development of neoplasia, notably colorectal cancer. The aim of the thesis was to identify new ways of the Wnt pathway regulation to understand better physiological as well as non-physiological mechanisms of Wnt signaling. The results are summarized in four publications. The first article deals with TROY, a member of tumor necrosis factor receptor family. We identified TROY as a Wnt target gene during our search for Wnt responsive genes in colorectal cancer cell lines. Additionally, we detected expression of Troy in tumors of two mouse models of intestinal cancer. In the healthy gut, Troy is produced in fast cycling intestinal stem cells where negatively regulates the Wnt pathway. The second study focuses on processing and posttranslational modification of murine Wnt1 and Wnt3a. Wnts are glycosylated and double acetylated by lipid adducts and our results revealed that O-linked acylation of serine is required for the subsequent S-palmitoylation of cysteine. Moreover, acylation of Wnts is connected with their signaling activity which is related to Wnt1 and...
88	Wnt signalizace "skrz naskrz" / Wnt signaling inside out Doubravská, Lenka January 2011 (has links) Signaling pathways function as molecular instruments mediating cellular response to intrinsic and extrinsic inputs, which can consequently lead to cell division or differentiation on one side and cell death on the other. Molecular network of different pathways enables the intercellular communication and hence the whole organism can exist and function coordinately. The Wnt signaling pathway belongs among evolutionarily old and conserved molecular pathways and acts in many different processes during development. Moreover, it is necessary for maintenance of adult tissues as it participates in regeneration. Diverse malignancies, where repressive components of the Wnt pathway are non-functional, represent seamy side of the scope. This thesis is based on 4 publications covering Wnt signaling on very multifarious levels. Firstly, I focus on processing of Wnt protein which stands at the beginning of the cascade as extracellular morphogen. Secondly, survival effect of Wnt producing fibroblasts on leukemia cells after induction of apoptosis by ligand TRAIL is discussed. The third issue shows novel components of the Wnt signaling pathway and introduces us into nucleus - "bottom" level of the pathway. 1. Fatty acid modification of Wnt1 and Wnt3a at serine is prerequisite for lipidation at cysteine and is...
89	Molekulární mechanismy a geny podílející se na kontrole signální dráhy Wnt / Molecular mechanisms and components controlling the Wnt signaling pathway output Krausová, Michaela January 2014 (has links) Beyond its essential roles in embryonic development, the Wnt-mediated signal transduction cascade is critically implicated in homeostasis of adult tissues. In the gastrointestinal epithelium, the threshold of active Wnt signaling is kept in a physiological range by a spectrum of regulatory networks and loops, thereby balancing the opposing processes of cell fate determination, proliferation and stem cell self-renewal. Furthermore, compelling evidence undoubtedly link an aberrant Wnt activity to the onset of bowel cancer. Understanding the principle causes and effects secondary to excessive Wnt signaling can provide valuable insights into the pathology of the malignant transformation of the colorectum. The proposed thesis attempts to focus on novel modes of the Wnt pathway modulation; both general and context-specific nuances of the Wnt level adjustment are thereby delineated. The results are presented in three distinct research publications and one review article. The first study examines the contribution of the distinct post-translational modifications, which the Wnt proteins undergo, to their proper processing, secretion and signaling activity. First, we investigated the sequential order and mutual interdependence of cysteine and serine-linked fatty acylation and N-linked glycosylation of murine...
90	Genetische Analyse von Conductin durch zielgerichtete Mutagenese in der Maus Jerchow, Boris-Alexander 06 May 2003 (has links) Die Signalübertragung durch Wnt/beta-Catenin stellt einen der wichtigsten Signalwege während der Embryogenese sowie im adulten Organismus dar. Die homologen Gerüstproteine Conductin und Axin stehen im Mittelpunkt eines zentralen Multiproteinkomplexes, der im Zytoplasma für die Regulation des Wnt/beta-Catenin-Signalwegs verantwortlich ist. In der vorliegenden Arbeit habe ich eine kombinierte genetische Analyse von Conductin und Axin in der Maus durchgeführt. Dazu habe ich mit Hilfe der Technik der homologen Rekombination das Conductin-Gen deletiert und ein Reportergen unter die Kontrolle des endogenen Conductin-Promotors gebracht. Im Weiteren habe ich festgestellt, dass der gemeinsame Verlust von Conductin und einem Axin-Allel (Con-/-;Ax+/-) zu Holoprosenzephalie (HPE) führt, die durch schwere kraniofazialen und Vorderhirndefekten in der Maus charakterisiert ist. Dabei zeigte die detaillierte Analyse eine genetische Interaktion des Wnt-Signalwegs mit dem Shh-Signalweg. Störungen im Shh-Signalweg sind auch beim Menschen für die Ausbildung von HPE verantwortlich gemacht worden. Daneben führt die gleichzeitige Abwesenheit von Conductin und Axin (Con-/-;Ax-/-) zum Verlust der anterior-posterioren Achse in einem frühen Entwicklungsstadium und zum Absterben der Embryonen nach dem Tag 6,5 der Entwicklung. Die vorliegende Arbeit zeigt, wie Unterschiede in der biologischen Bedeutung zweier funktionell redundanter Faktoren mit genetischen Methoden in der Maus aufgeklärt werden können. / The Wnt/beta-Catenin pathway represents one of the most important signaling cascades during development as well as in the adult organism. The homologous scaffolding proteins Conductin and Axin are the backbone of a central multi protein complex that is responsible for the tight regulation of the Wnt/beta-Catenin pathway in the cytoplasm. In the present study I have performed a combined genetic analysis of Conductin and Axin in the mouse. To this end I have deleted the Conductin gene by homologous recombination in embryonic stem cells and inserted a reporter gene under the control of the endogenous Conductin promoter. I could show that the simultaneous loss of Conductin and one Axin allele (Con-/-;Ax+/-) causes Holoprosencephaly (HPE), which is characterized by severe craniofacial and forebrain defects in the mouse. The detailed analysis of the mutant mice reveals a genetic interaction of Wnt and Shh signaling and defective Shh signaling has previously been implicated in the formation of HPE in human patients. Moreover, complete absence of both Conductin and Axin (Con-/-;Ax-/-) leads to loss of the anterior-posterior axis early in development and death of the embryos after E6.5. The present study exemplifies how differences in the biological function of two mechanistically redundant factors can be studied by genetic means in the mouse. Tiermodell Wnt-Signalweg Shh-Signalweg Holoprosenzephalie Wnt-Signaling Shh-Signaling Holoprosencephaly Animal Model 590 Tiere (Zoologie) 32 Biologie WX 6000 ddc:590

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