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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Structural Basis for Dishevelled-2 Association to the Plasma Membrane

Lucas, Andrew Thomas 07 June 2010 (has links)
The Wingless (Wnt) signaling pathway is one of the critical developmental pathways for control of cell differentiation, proliferation, and cell growth. The DEP domain, located on the C-terminus of Dishevelled (Dvl), plays a role in cytoplasm-membrane association, which branches the canonical and non-canonical Wnt signaling pathway within the cell. It has been suggested that the DEP domain requires the recruitment of ionic lipids, such as phosphatidic acid, to regulate its localization to the plasma membrane and association to the frizzle receptor. However, the physical mechanism for DEP association to the plasma membrane is still unknown. We show that mDvl2-DEP interacts with phosphatidic acid at a distinct patch on the surface formed by a positively charged surface area by NMR spectroscopy. The binding of this interaction was also found at physiologically relevant concentration using fluorescence spectroscopy. We also determined that the interaction is pH-dependent and regulated through a 'histidine switch' mechanism at His464 and His465 where there is increased association of mDvl2-DEP to the plasma membrane at higher pH values (7.5). This association is based on tertiary structure conformational changes with rearrangement of the loop regions by a change in local pH, not its interaction with phosphatidic acid. Overall, our work will contribute to elucidate how cells regulate their developmental pathways through localized molecular interactions. / Master of Science
2

The naked truth : how the EF-hand of Nkd modulates divergent Wnt signaling outputs

Marsden, Autumn Nichelle 15 December 2017 (has links)
The Wnt signaling network plays critical roles in development and is implicated in human disease. Wnts comprise a complex signaling network that, upon ligand binding, activates the phosphoprotein Dishevelled (Dvl), leading to distinct outputs including polarized cell movement (known as planar cell polarity, Wnt/PCP) and stabilization of the transcription factor β-catenin (Wnt/β-catenin). The mechanisms that determine a specific output are not completely understood, especially because they share receptors and cellular effectors, such as Naked-cuticle 1 (Nkd), a Dvl-interacting protein. The Nkd protein contains a myristoylation domain and an EF-hand, a putative calcium binding domain. Genetic evidence in Drosophila demonstrates that Nkd acts as a Wnt/β-catenin antagonist, while in contrast, Nkd modulates both branches of Wnt signaling in vertebrates. We hypothesize that the specialized role of Nkd in Drosophila is due to a disrupted EF-hand that cannot not bind calcium. Indeed, this change is unique to Drosophila and is not present in closely related insects all the way up to vertebrates. To test the role of the Nkd EF-hand in Wnt signal integration, we created two different mutations in the zebrafish Nkd: one with a neutralized EF-hand, as well as a Drosophila-like EF-hand, and manipulate Nkd activity in the zebrafish. Using a combination of biochemical and functional assays, we identified a requirement for the Nkd EF-hand in Wnt/PCP but not in Wnt/β-catenin transcriptional outputs. We demonstrate that the Drosophila-like antagonizes Wnt/β-catenin more robustly than zebrafish Nkd. The EF-hand of Nkd is similar to the EF-hand of a known calcium binding protein, Recoverin, a myristoyl-swtich protein that shuttles between the membrane and the cytoplasm depending on its calcium bound state. Consistently, we observe that NkdWT, but not the two mutant forms, shows localization changes in the calcium fluxing cells that also host converging Wnt signals versus calcium quiescent cells. Our functional data suggests that the Nkd EF-hand is important for Wnt signal integration. Interestingly, Nkd only contains one EF-hand, and proteins that bind calcium tend to have multiple. Calcium binding can also be influenced by binding partners. Because of this, we investigate the role of the Nkd binding protein Dvl and their possible calcium affinity. Dvl is a pivotal point in the Wnt signaling network, leading to the output decision of a cell. EF-hand of Nkd binds to the PDZ domain of Dvl. Interestingly, the Dvl PDZ domain contains a region rich in negatively charged amino acids that could aid in binding calcium. In the same manner as Nkd, we generated a Dvl with neutralized putative EF-hand and tested its function and localization relative to wildtype Dvl. This work elucidates the elegant mechanism by which a cell receiving multiple Wnt signals integrates the information into a specific response. The Nkd EF-hand may serve to interpret the physiology of a cell receiving multiple cues and provides mechanistic insight into Wnt signal integration in vivo.
3

Calcium induced Naked1 activity in Wnt signaling

Derry, Sarah White 01 December 2012 (has links)
The Wnt signaling network has critical roles in development and disease. Simplified, this complex network has two distinct outputs: the Wnt/β-catenin module activates the phosphoprotein Dishevelled (Dvl) and leads to transcriptional activation while the Wnt/Planar Cell Polarity (PCP) module activates Dvl and leads to calcium release and directed cell movement. Wnt/β-catenin and Wnt/PCP share signaling components like Frizzled receptors, Dvl, and Naked (Nkd). It is an open question how converging Wnt signals diverge into separate outcomes. In this thesis, I used molecular techniques, functional studies in the zebrafish, and biochemical approaches to determine the role of Nkd in Wnt signaling. Nkd contains and EF-hand, a putative calcium binding domain, and is known to antagonize Wnt/β-catenin and disrupt Wnt/PCP signaling. We utilized a tissue that requires both Wnt/β-catenin and Wnt/PCP signaling to properly pattern the left/right axes of the embryo; the dorsal forerunner cells (DFCs). The DFCs exhibit aperiodic calcium release as they migrate to form the Kupffer's Vesicle (KV), the organ of asymmetry. Calcium inhibition in the DFCs disrupts their migration, alters KV formation, and disrupts left/right patterning. Nkd is enriched in the DFCs during migration and KV formation and endogenous Nkd knockdown in the DFCs produces the same phenotypes as calcium inhibition, making Nkd a candidate molecule for directing converging Wnt signals to distinct outcomes. To assess the role of the EF-hand in Nkd function, I created point mutations predicted to disrupt EF-hand affinity for calcium. Through functional studies in zebrafish embryos, I determined that Nkd EF-hand is necessary for Nkd function in Wnt/PCP signaling, but dispensable for Wnt/β-catenin signaling. Although Nkd has not been shown to bind calcium, our functional data with the Nkd EF-hand point mutant provides compelling evidence for a role for calcium in Nkd function in directing Wnt signaling output. EF-hand affinity for calcium is influenced by binding partners, and since Nkd binds to Dvl in the Dvl PDZ domain, we screened the domain for a region rich in amino acids that facilitate ion binding. We identified a 12-amino acid sequence in the Dvl PDZ domain with potential to create a negatively charged pocket to help coordinate calcium binding. We expressed the Nkd EF-hand (EFX) Dvl basic domain and PDZ domain (bPDZ). The purified EFX and bPDZ constructs were used to investigate the interaction between Nkd, Dvl, and calcium. I show, by circular dichroism, that the Nkd/Dvl complex undergoes a calcium-induced change in secondary structure. This reveals the mechanism by which Nkd directs Dvl from the default Wnt/β-catenin signaling module to the Wnt/PCP module in response to calcium.
4

Wnt signaling and β-catenin regulation during asymmetric cell division in Caenorhabditis elegans

Baldwin, Austin Thomas 01 July 2015 (has links)
Wnt/β-catenin signaling and asymmetric cell division are essential to development and homeostasis in metazoans; these two mechanisms join into one in the Wnt/β-catenin Asymmetry (WβA) pathway in the nematode C. elegans. In WβA, nuclear asymmetry of two β-catenins, SYS-1 and WRM-1, is achieved by two parallel pathways that reduce SYS-1 and WRM-1 levels in the anterior daughter and increase their levels in the posterior daughter. While it is known that many conserved regulators of Wnt signaling are involved in WβA, how these components interact to achieve SYS-1 and WRM-1 asymmetry is not well understood. In this thesis, genetics, transgenics, and live-imaging are used to demonstrate how WβA regulates it’s multiple outputs. It is shown that APR-1/APC and PRY-1/Axin control asymmetric localization of both SYS-1 and WRM-1, and that Wnt signaling explicitly controls APR-1 regulation of either β-catenin via the kinase KIN-19/CKIα. Additionally, it is demonstrated that the Dishevelled proteins DSH-2 and MIG-5 are positive regulators of SYS-1, but negative regulators of WRM-1. Additionally, data from a screen designed to identify novel kinase regulators of Wnt signaling/asymmetric cell division is presented. Overall, this thesis takes current knowledge of conserved Wnt signaling component function and provides a compelling model of how those components are adapted to asymmetric cell division.
5

Die Bedeutung von Dishevelled in der Wnt-5a-induzierten Signaltransduktion. / The role of Dishevelled in Wnt 5a-induced signal transduction.

Dicke, Christina Charlotte 13 December 2011 (has links)
No description available.
6

Rôle du complexe protéique NPHP1/NPHP4/RPGRIP1L impliqué dans la néphronophtise et les ciliopathies associées, dans la morphogenèse épithéliale, la polarité cellulaire et la ciliogenèse / Role of the protein complex NPHP1/NPHP4/RPGRIP1L involved in Nephronophthisis and associated ciliopathies, in epithelial morphogenesis, cell polarity and ciliogenesis

Gaudé, Helori-Mael 28 November 2012 (has links)
La néphronophtise (NPH) est une néphropathie tubulo-interstitielle chronique de transmission autosomique récessive. Elle représente la cause génétique la plus fréquente des insuffisances rénales terminales de l’enfant et du jeune adulte (5 à 10%). Elle se caractérise au niveau histologique par des anomalies des membranes basales tubulaires, une fibrose interstitielle massive et par l’apparition tardive de kystes à la jonction cortico-médullaire. Dans 40% des cas, la NPH est associée à des atteintes extra-rénales, notamment oculaires, cérébelleuses ou osseuses, définissant de nombreux syndromes (Senior Løken, Joubert, Jeune, etc). Sur la quinzaine de gènes responsables de la maladie, sept ont été identifiés au laboratoire : NPHP1, NPHP4, NPHP8/RPGRIP1L, NPHP11/MKS3, NPHP12/TTC21B, NPHP13/WDR19 et IFT140. Les protéines codées par ces gènes forment des complexes moléculaires principalement localisés au niveau des jonctions cellulaires et du cil primaire des cellules épithéliales rénales, classifiant la NPH et les syndromes associés dans le groupe des "ciliopathies". Mes travaux de thèse se sont intégrés au projet de recherche de l'équipe, centré sur l'étude des mécanismes pathophysiologiques à l'origine des lésions observées dans la NPH. Pour cela, nous avons développé des modèles de cellules tubulaires rénales (MDCK, IMCD et HEK293), et des modèles animaux (souris et poisson zèbre en collaboration avec l'équipe de Sylvie Schneider-Maunoury UMR7622). Je me suis particulièrement intéressé à l'analyse des phénotypes cellulaires et à la caractérisation des voies de signalisation perturbées dans les cellules épithéliales rénales invalidées pour les gènes NPHP1, NPHP4 et NPHP8/RPGRIP1L. Les protéines codées par ces gènes forment un complexe au niveau du cil primaire et des jonctions cellulaires. J'ai participé à définir le rôle crucial de ces protéines dans l’établissement des jonctions serrées par leur interaction avec les protéines de polarité, la morphogénèse épithéliale en culture 3D et la ciliogenèse. De plus, j'ai mis en évidence que l'absence de ces protéines entraîne des anomalies de migration et d'adhésion cellulaires s’accompagnant d’une activation anormale des protéines Rho GTPases (Cdc42, Rac1 et RhoA) et d’une réorganisation du cytosquelette d’actine. J'ai par ailleurs montré que le complexe NPHP4/inversine/RPGRIP1L régule finement l'expression et la localisation de Dishevelled, élément clé des voies Wnt canonique et Wnt/PCP, dans les cellules rénales. Ceci est en accord avec les défauts de polarité planaire observés dans le pronéphros du poisson zèbre et dans le rein de la souris, après invalidation des gènes Nphp4 ou Rpgrip1l. L'ensemble de ces résultats a permis de mieux comprendre le rôle moléculaire et cellulaire des néphrocystines et les mécanismes pathophysiologiques aboutissant aux altérations retrouvées chez les patients telles que la fibrose interstitielle rénale et la formation de kystes. / Nephronophthisis, a hereditary nephropathy characterized by interstitial fibrosis and cyst formation, is caused by mutations in NPHP genes encoding the ciliary proteins called nephrocystins. We investigate the function of nephrocystin-1, -4 and -8, in vitro and in vivo in mammalian kidney cells and in zebrafish respectively. Depletion of either NPHP1 (N1-KD), NPHP4 (N4-KD) or RPGRIP1L (RPGRIP1L-KD) by shRNA-mediated knockdown in MDCK cells led to abnormal ciliogenesis, delay in tight junction formation and disorganized structures in 3D culture. Moreover NPHP4 modulates the Wnt pathways during morphogenesis of the zebrafish pronephros and in mammalian kidney cells in which NPHP4 interacts with inversin and dishevelled, regulating its stability and its subcellular localization. Rpgrip1l is required for dishevelled stabilization at the cilium base and is necessary for polarized positioning of motile cilia of the zebrafish floor plate and sensory hair cells of the mouse cochlea. In either N1-KD or N4-KD cells, we also showed an over activation of Cdc42 and RhoA, downstream targets of dishevelled. This was accompanied by actin cytoskeletal disorganization, enhanced spreading on collagen, over-activation of proteins that regulate focal adhesion structures i.e p130cas-Pyk2 and increased cell migration. Interestingly, the stable expression of dominant negative form of Cdc42 in knockdown cells rescued the migration and the 3D phenotypes. In parallel, we observed that loss of Nphp4 in mice caused cystic tubular dilatation after subtotal nephrectomy correlated with alteration of ciliogenesis and over activation of Cdc42 and RhoA. Our data show a role of nephrocystins in epithelial cell organization and kidney morphogenesis in particular in regulation of focal adhesion, tight junction, ciliogenesis via dishevelled stability.
7

Understanding Dishevelled-Mediated Wnt Signaling in Regulating Early Development and Stem Cell Differentiation

Ngo, Justine Marie 01 June 2020 (has links)
No description available.
8

Wnt-Signalwegsanalysen während der Metastasierung von Mamma-Karzinomen / Wnt-Signaling in Breast Cancer and Tumor Progression

Schubert, Antonia 21 November 2016 (has links)
No description available.
9

Rôle du complexe protéique NPHP1/NPHP4/RPGRIP1L impliqué dans la néphronophtise et les ciliopathies associées, dans la morphogenèse épithéliale, la polarité cellulaire et la ciliogenèse

Gaudé, Helori-Mael 28 November 2012 (has links) (PDF)
La néphronophtise (NPH) est une néphropathie tubulo-interstitielle chronique de transmission autosomique récessive. Elle représente la cause génétique la plus fréquente des insuffisances rénales terminales de l'enfant et du jeune adulte (5 à 10%). Elle se caractérise au niveau histologique par des anomalies des membranes basales tubulaires, une fibrose interstitielle massive et par l'apparition tardive de kystes à la jonction cortico-médullaire. Dans 40% des cas, la NPH est associée à des atteintes extra-rénales, notamment oculaires, cérébelleuses ou osseuses, définissant de nombreux syndromes (Senior Løken, Joubert, Jeune, etc). Sur la quinzaine de gènes responsables de la maladie, sept ont été identifiés au laboratoire : NPHP1, NPHP4, NPHP8/RPGRIP1L, NPHP11/MKS3, NPHP12/TTC21B, NPHP13/WDR19 et IFT140. Les protéines codées par ces gènes forment des complexes moléculaires principalement localisés au niveau des jonctions cellulaires et du cil primaire des cellules épithéliales rénales, classifiant la NPH et les syndromes associés dans le groupe des "ciliopathies". Mes travaux de thèse se sont intégrés au projet de recherche de l'équipe, centré sur l'étude des mécanismes pathophysiologiques à l'origine des lésions observées dans la NPH. Pour cela, nous avons développé des modèles de cellules tubulaires rénales (MDCK, IMCD et HEK293), et des modèles animaux (souris et poisson zèbre en collaboration avec l'équipe de Sylvie Schneider-Maunoury UMR7622). Je me suis particulièrement intéressé à l'analyse des phénotypes cellulaires et à la caractérisation des voies de signalisation perturbées dans les cellules épithéliales rénales invalidées pour les gènes NPHP1, NPHP4 et NPHP8/RPGRIP1L. Les protéines codées par ces gènes forment un complexe au niveau du cil primaire et des jonctions cellulaires. J'ai participé à définir le rôle crucial de ces protéines dans l'établissement des jonctions serrées par leur interaction avec les protéines de polarité, la morphogénèse épithéliale en culture 3D et la ciliogenèse. De plus, j'ai mis en évidence que l'absence de ces protéines entraîne des anomalies de migration et d'adhésion cellulaires s'accompagnant d'une activation anormale des protéines Rho GTPases (Cdc42, Rac1 et RhoA) et d'une réorganisation du cytosquelette d'actine. J'ai par ailleurs montré que le complexe NPHP4/inversine/RPGRIP1L régule finement l'expression et la localisation de Dishevelled, élément clé des voies Wnt canonique et Wnt/PCP, dans les cellules rénales. Ceci est en accord avec les défauts de polarité planaire observés dans le pronéphros du poisson zèbre et dans le rein de la souris, après invalidation des gènes Nphp4 ou Rpgrip1l. L'ensemble de ces résultats a permis de mieux comprendre le rôle moléculaire et cellulaire des néphrocystines et les mécanismes pathophysiologiques aboutissant aux altérations retrouvées chez les patients telles que la fibrose interstitielle rénale et la formation de kystes.
10

A novel non-canonical WNT pathway regulates the asymmetric b cell division in Caenorhabditis elegans

Wu, Mingfu January 1900 (has links)
Doctor of Philosophy / Department of Biology / Michael A. Herman / The polarities of several cells that divide asymmetrically during C. elegans development are controlled by Wnt signaling. LIN-44/Wnt and LIN-17/Fz control the polarities of cells in the tail of developing C. elegans larvae, including the male-specific blast cell, B, which divides asymmetrically to generate a larger anterior daughter and a smaller posterior daughter. We determined that the canonical Wnt pathway components are not involved in the control of B cell polarity. However, POP-1/Tcf is involved and asymmetrically distributed to B daughter nuclei. Aspects of the B cell division are reminiscent of the divisions controlled by the planar cell polarity (PCP) pathway that has been described in both Drosophila and vertebrate systems. We identified C. elegans homologs of Wnt/PCP components and have determined that many of them appear to be involved in the regulation of B cell polarity and POP-1 asymmetric distribution to B daughter nuclei. Thus a non-canonical Wnt pathway, which is different from other Wnt pathways in C. elegans, but similar to the PCP pathways, appears to regulate B cell polarity. Molecular mechanisms of this PCP pathway were also investigated. We determined that LIN-17/Fz is asymmetrically distributed to the B cell cortex prior to, during, and after, division. Furthermore, the asymmetric localization of LIN-17::GFP is controlled by LIN-44/Wnt and MIG-5/Dsh. The cysteine rich domain (CRD), seven trans-membrane domain and KTXXXW motif of LIN-17 are required for LIN-17 to rescue lin-17, while only seven trans-membrane domains and KTXXXW motif are required for LIN-17 asymmetric localization. MIG-5::GFP asymmetrically localized to the B cell prior to and after division in a LIN-17/Fz dependent manner. We examined the functions of these MIG-5 domains. The DEP domain is required for MIG-5 membrane association, while the PDZ domain is responsible for different levels of MIG-5 in the B daughters. The DEP and PDZ domain are required to rescue B cell polarity defect of mig-5 males, while the DIX domain is not that important. In summary, a novel PCP-like pathway, in which LIN-17 and MIG-5 are asymmetrically localized, is conserved in C. elegans and involved in the regulation of B cell polarity.

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