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INVESTIGATION OF AXIN2 IN ZEBRAFISH (DANIO RERIO) DEVELOPMENT AND ITS ROLE IN CANONICAL WNT SIGNALINGLum, Whitney 25 August 2011 (has links)
Canonical Wnt signaling is involved in many aspects of development including axis specification and anterior-posterior neuroectoderm formation during vertebrate embryogenesis. Axin2, a homologue of Axin1, is thought to have a similar regulatory role within the cell, but differences in their expression and binding partners suggest Axin2 is not completely redundant with Axin1. To better understand Axin2 in canonical Wnt signaling, I utilized several approaches to explore its expression and function. In the zebrafish embryo, I found Axin2 is expressed in known active domains of Wnt signaling, suggesting an inducible regulatory role. Additionally, canonical Wnt signaling was sufficient and necessary to induce Axin2 expression and Axin2 was sufficient and necessary to inhibit Wnt signaling. As Wnt signaling is important in development and its dysregulation has been implicated in diseases such as colorectal cancer, this study helps advance our understanding of how Wnt signaling regulates itself through the use of negative feedback inhibitors, such as Axin2.
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CAMK-II: AN INTEGRAL PROTEIN IN CELL MIGRATIONMcLeod, Jamie Josephine Avila 25 April 2013 (has links)
Coordinated inductive and morphogenetic processes of gastrulation establish the zebrafish body plan. Gastrulation includes massive cell rearrangements to generate the three germ layers and shape the embryonic body. Three modes of cell migration must occur during vertebrate gastrulation and include: epiboly, internalization of the presumptive mesendoderm and convergent extension (C&E). C&E movements narrow the germ layers mediolaterally (convergence) and elongate them anteroposteriorly (extension) to define the embryonic axis. The molecular mechanisms regulating coordinated cell migrations remain poorly understand and studying these has become of great interest to researchers. Understanding cell migration during development is highly relevant to a number of human physiological processes. Abnormal cell migration during early development can lead to congenital defects, with improper cell migration during adult life potentially leading to the invasion and metastasis of cancer. By studying cell migration events, in vivo, new insights are to be found to both the function and malfunction of key embryonic and postembryonic migratory events. The non-canonical Wnt pathway has been identified as an evolutionarily conserved signaling pathway, regulating C&E cell movements during vertebrate gastrulation. With the absence of the non-canonical Wnts (ncWnts), Wnt5 and Wnt11, during zebrafish development leading to a shorter and broader body axis with defects in elongation during segmentation resulting in undulation of the notochord. While it is clear ncWnts are necessary for C&E, many of the downstream effectors regulating these cell movements have not been defined. Previous research has shown that activation of ncWnt signaling through Wnt5 or Wnt11 results in an increase in intracellular Ca2+ during zebrafish gastrulation. To determine if the Ca2+/Calmodulin-dependent protein kinase, CaMK-II, is a potential downstream target of the Ca2+ increases during ncWnt activation, CaMK-II’s role in C&E was assessed. This study identifies camk2b1 and camk2g1 as being necessary for C&E movements, and outlines the phenotype of the overall embryo as well as individual cells of camk2b1 and camk2g1 morphants. The defects of CaMK-II morphants are specifically linked to alterations in C&E cell movements, while cell fate and proliferation are unaffected. An increase in CaMK-II activation during gastrulation produces similar C&E defects, demonstrating the specificity of CaMK-II’s activation in facilitating these highly coordinated cellular movements. We show that CaMK-II is working downstream Wnt 11 and in parallel to JNK signaling during gastrulation C&E. Overall, these data identify CaMK-II as a required component of C&E movements during zebrafish development, downstream ncWnt signaling, and altering cell migration through changes in cell shape
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Caractérisation fonctionnelle du complexe LKB1/STRADß au cil primaire et les conséquences au cours de la tumorigenèse / Functional characterization of LKB1/Stradβ complex in the primary cilia and the consequences during tumorigenesisMaurin, Pauline 14 December 2016 (has links)
Des mutations du gène STK11 furent initialement décrites comme responsable du syndrome Peutz-Jeghers, dont la gravité est lliée à une incidence accrue d’apparition de tumeurs. Le produit de ce gène, la sérine/thréonine kinase LKB1, a une expression ou une activité catalytique réduite, voir perdue, consécutivement à des mutations somatiques dans plusieurs types de cancer mais principalement du poumon (30% des NSCLC). Cette kinase est considérée de ce fait comme un suppresseur de tumeur d’importance. Les mécanismes moléculaires responsables de sa propriété suppresseur de tumeur restent à identifier. En effet, alors que sa fonction dans le métabolisme cellulaire, au travers de l’activation de la kinase AMPK, fut longtemps privilégiée, elle est actuellement remise en cause au profit de sa fonction de régulatrice de la signalisation Wnt canonique. Mes travaux de thèse confortent cette éventualité dans le cas des tumeurs pulmonaires (NSCLC). En effet, parmi les deux complexes fonctionnels que forme LKB1 avec les pseudokinases STRADα ou β, mes résultats démontrent que seul celui impliquant STRADβ intervient dans la régulation de la voie Wnt. Pour cela, le complexe LKB1/STRADβ se localise au niveau du cil primaire et participe à l’activation de la kinase MARK3. Ces résultats, étayés par un modèle murin invalidé pour STRADβ ainsi que l’analyse, a posteriori, de bases de données transcriptomiques adossées aux données cliniques de patients atteints de NSCLC, suggèrent que l’activité suppresseur de tumeur de LKB1 est associée à sa localisation et à sa fonction au niveau du cil primaire en participant à l’activation de MARK3 et à la régulation de la signalisation Wnt canonique. / STK11 gene mutations were originally identified as responsible for the Peutz-Jeghers syndrome of which severity is mainly related to an increase incidence of tumor development. The product of this gene the serine/threonine kinase LKB1 gets its activity or its expression reduced, sometimes even lost, following somatic mutations in several types of cancer such as pancreas, liver but mainly from lung. Indeed, almost 30% of non-small cell lung carcinoma (NSCLC) does not express anymore or only an inactive form, has led to consider this kinase as tumor suppressor of importance. While there is no doubt of the involvement of its catalytic activity molecular mechanisms responsible for its tumor suppressor properties remain to be identified. Indeed, whereas its function as regulator of cellular metabolism through AMPK has been favor for a while, it is currently re-assess to benefit to its regulator function on canonical Wnt signaling. My thesis work, reinforce this eventuality in NSCLC. Indeed, among the two functional complexes formed by LKB1 through its association with STRADα or β pseudokinases, my results show that only the complex related to STRADβ is involved in the canonical Wnt pathway regulation. For that, LKB1/STRADβ complex localizes at primary cilia and participates to MARK3 kinase activation. These results strengthened by a STRADβ knockout mouse model and an a posteriori transcriptomic analysis of lung adenocarcinoma patient datasets related to their clinical records, suggest that LKB1 tumour suppressor activity is associated with its localization and its function at primary cilia participating in the activation of MARK3 and thus regulation of canonical Wnt signaling.
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Critical functions of Reck in mouse forebrain developmentLi, Huiping 25 November 2019 (has links)
京都大学 / 0048 / 新制・課程博士 / 博士(生命科学) / 甲第22133号 / 生博第420号 / 新制||生||55(附属図書館) / 京都大学大学院生命科学研究科高次生命科学専攻 / (主査)教授 渡邊 直樹, 教授 千坂 修, 教授 原田 浩 / 学位規則第4条第1項該当 / Doctor of Philosophy in Life Sciences / Kyoto University / DFAM
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Úloha transkripčního faktoru TCF4 v kmenových buňkách střevního epitelu a střevních nádorech / The role of TCF4 transcription factor in intestinal epithelial stem cells and tumorsHrčkulák, Dušan January 2019 (has links)
For more than 20 years, T-cell specific factor 4 (Tcf4) is the most intensively studied member of the conserved Tcf/Lymphoid enhancer-binding factor (Lef) family of transcription factors. Together with β-catenin coactivator, Tcf4 represents the prominent nuclear effector of canonical Wnt signaling in the intestinal epithelium. Regulation of Wnt-β-catenin signaling in intestinal stem cells is crucial for tissue homeostasis and tumor formation initiation. Up to date, several mouse models were generated to manipulate Tcf4 abundance or activity in vivo and dissect its function. Moreover, mutational screens and expression profiling of human colorectal tumors were carried out to disclose a contribution of TCF4 to tumor progression. However, subsequent studies brought conflicting results in relation to the potential of Tcf4 to activate or repress Wnt target genes and drive or inhibit cell proliferation. Here in this study, we analyze publicly available datasets for global expression of TCF4 and its paralogs in human tissues and colorectal cancer (CRC) samples. Notably, we present newly generated Tcf4flox5 mouse with a conditional Tcf4 allele that can be used to eliminate expression of Tcf4 from two alternative promoters of the gene. Using this mouse strain we documented that Tcf4 loss led to the demise of...
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Chromatin-associated functions of the APC tumor suppressor proteinHankey, William C., IV January 2016 (has links)
No description available.
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Identification and functional characterization of PTK7 ligands in Xenopus laevis / Identifizierung und funktionelle Charakterisierung von PTK7-Liganden in Xenopus laevisPeradziryi, Hanna 04 May 2011 (has links)
No description available.
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Funkce a regulace transkripčních faktorů ETV4 a MSX1 v rozvoji rakoviny tlustého střeva / Function and regulation of ETV4 and MSX1 transcription factors in colon cancer progressionHrčkulák, Dušan January 2014 (has links)
Colon cancer causes approximately seven percent of all cancer-related deaths in the world and presumably due to modern lifestyle, it is also one of the most frequently diagnosed cancers. The inefficiency of standard treatment indicates the need for intensive research of molecular mechanisms of cancer development. The canonical Wnt signaling pathway is essential for maintenance of the progenitor phenotype of stem cells in crypts of the intestine and controls repopulation of the epithelia, in physiological conditions. However, aberrant activation leads to tumor formation. Although Wnt signaling in cancer has been subjected to thorough investigation, there is still a lot of questions concerning further branching of the pathway. As a model of Wnt/β-catenin triggered colorectal cancer, we use mice with mutated APC, which is the tumor suppressor involved in this pathway. Previous expression profiling of the intestinal tumors from relevant mice revealed two transcription factors: ETV4 and MSX1 which are significantly overexpressed in cancer cells. In this project we elucidate whether the overexpression is really tumor restricted and Wnt dependent or there is a crosstalk with another signal transduction pathway. We investigate the function and regulation of these transcription factors by synthetic reporter assays,...
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