Global ETD Search

21	Defining the role of APC and canonical WNT signaling in embryonic and adult myogenesis / Etude du rôle d'APC et de la voie de signalisation WNT au cours de la myogenèse embryonnaire et adulte Parisi, Alice 17 October 2014 (has links) La voie de signalisation Wnt/β-caténine (Wnt canonique) est impliquée dans une grande variété de fonctions biologiques, entre autres dans l’établissement des axes embryonnaires, l’organogenèse et l’homéostasie de cellules souches adultes. En absence de signaux Wnt, un complexe multiprotéique comprenant le suppresseur de tumeur Adenomatous Polyposis Coli (APC) marque la β-caténine pour la dégradation protéasomique. L’activation de la voie Wnt canonique induit un arrêt de la dégradation de la β-caténine, qui s’accumule dans le noyau, où elle active l’expression de gènes cibles de Wnt. Au cours de la myogenèse embryonnaire, processus pendant lequel le muscle squelettique est formé, une partie des cellules pluripotentes du dermomyotome acquièrt l’identité musculaire, se différencie et forme les myofibres, les unités fonctionnelles du muscle squelettique. La myogenèse n’est pas confinée qu’à la période embryonnaire. En effet, elle peut être réactivée dans le muscle adulte suite à une lésion ou dans certaines conditions pathologiques. Dans ce contexte, les cellules souches du muscle squelettique, appelées cellules satellites, sortent de leur quiescence et génèrent des progéniteurs myogéniques qui prolifèrent et se différencient en formant de nouvelles myofibres pour réparer le tissu. De plus, une partie des progéniteurs myogéniques retournent à l’état quiescent, renouvelant ainsi la population de cellules souches résidentes. Le rôle de la voie de signalisation Wnt/β-caténine dans l’engagement des cellules pluripotentes du dermomyotome vers le destin myogénique demeure méconnu. De même, la fonction de la voie Wnt canonique dans les cellules satellites au cours de la régénération du muscle squelettique adulte reste à l’heure actuelle controversée, car différentes approches sont parvenues à des conclusions contradictoires. Grâce à des modèles génétiques murins, nous avons caractérisé le rôle précis de la voie Wnt canonique au cours de la myogenèse embryonnaire et adulte. Nous montrons in vivo que l’hyperactivation constitutive de la voie de signalisation Wnt/β-caténine induite par l’inactivation conditionnelle d’APC, le principal régulateur négatif de la cascade, se traduit par un défaut majeur de formation et de régénération du muscle squelettique. Nos résultats ex vivo et in vitro démontrent que l’hyperactivation de la voie Wnt canonique altère la progression du cycle cellulaire et entraîne la mort par apoptose. De plus, l’inactivation conditionnelle de la β-caténine n’affecte pas la prolifération des progéniteurs myogéniques mais perturbe leur différenciation. Globalement, nos résultats suggèrent deux rôles différents de la voie de signalisation Wnt/β-caténine dans le muscle squelettique. D’une part, l’inhibition de la voie Wnt canonique est nécessaire au cours de l’initiation de la myogenèse pour permettre l’engagement myogénique des cellules pluripotentes du dermomyotome et l’activation des cellules satellites. D’autre part, la voie de signalisation Wnt/β-caténine est requise à la fois dans les progéniteurs musculaires embryonnaires et adultes pour leur différenciation et la formation des myofibres. / The Wnt/β-catenin signaling pathway, also called canonical Wnt signaling, is implicated in a large variety of biological processes, including embryonic axis determination, organogenesis and adult stem cells homeostasis. Canonical Wnt signaling regulates the stability of β-catenin, a transcriptional co-activator that, in absence of Wnt ligands, is targeted to proteasomal degradation by a multiproteic complex comprising the Adenomatous Polyposis Coli (APC) tumor suppressor. Activation of canonical Wnt signaling blocks β-catenin degradation and results in its accumulation into the nucleus, where it induces the expression of Wnt target genes. During embryonic myogenesis, the process of skeletal muscle formation, a proportion of pluripotent dermomyotomal cells restrict their fate to acquire a myogenic identity and differentiate into contractile myofibers, the functional units of skeletal muscle. Myogenesis can take place also in adult skeletal muscle. Indeed, upon acute injury or in pathological conditions, quiescent muscle-specific stem cells, called satellite cells, become activated and give rise to myogenic progenitors that massively proliferate, differentiate and fuse to form new myofibers and restore tissue functionality. In addition, a proportion of proliferating progenitors returns back to quiescence and replenish the pool of satellite cells in order to maintain the regenerative potential of skeletal muscle. The role of canonical Wnt signaling in the cell fate choice that drives multipotent dermomyotomal cells toward the myogenic lineage remains elusive. Similarly, a possible involvement of the Wnt/β-catenin cascade has been hypothesized in satellite cells during adult skeletal muscle regeneration, but different approaches came to contradictory results. In this study, we use genetic mouse models to investigate the precise role of canonical Wnt signaling in embryonic and adult myogenesis. In vivo constitutive overactivation of Wnt/β-catenin signaling following conditional deletion of APC, the major intracellular negative regulator of the pathway, results in complete abrogation of skeletal muscle formation and regeneration. By combining ex vivo and in vitro approaches, we show that canonical Wnt signaling hyperactivation alters cell cycle progression and results in programmed cell death. Conversely, conditional inactivation of β-catenin does not perturb the proliferative ability of myogenic progenitors but rather affects their differentiation. Collectively, our results demonstrate at least two distinct roles of the Wnt/β-catenin cascade in skeletal muscle. First, during myogenic initiation, canonical Wnt signaling must be inhibited to allow proper activation of myogenesis, in particular to elicit myogenic commitment of dermomyotomal cells and activation of adult satellite cells. Second, in myogenic progression, the Wnt/β-catenin pathway is required in both embryonic and adult muscle progenitors for proper differentiation and myofibers formation. Muscle squelettique APC WNT Β-caténine Skeletal muscle APC WNT Β-catenin 571.6
22	Investigating the role of Plk4 in vivo / Explorer le rôle de Plk4 in vivo Gambarotto, Davide 30 September 2016 (has links) Les centrosomes sont les principaux centres organisateurs des microtubules dans les cellules animales, impliqués dans la division, la motilité, la polarité cellulaire. Ils participent à l'élaboration du fuseau mitotique, qui permet la séparation des chromosomes dans les cellules filles. Dans les neuroblastes de drosophile en interphase, un des deux centrosomes maintient son activité et sa position apicale dans la cellule, alors que l'autre est inactivé et se déplace vers le pôle basal. La duplication des centrioles est initiée par la kinase Plk4 une seule fois par cycle cellulaire. Toute dérégulation des niveaux de Plk4 conduit à un défaut du nombre de centrosomes, à l'origine de pathologies comme le cancer et la microcéphalie. Pendant ma thèse, j'ai étudié les rôles et régulations de Plk4 in vivo dans les neuroblastes de drosophile. J'ai montré un nouveau rôle de Plk4 dans l'établissement de l'asymétrie des centrosomes durant l'interphase. Plk4 favorise un comportement basal des centrosomes en inhibant la nucléation des microtubules et l'ancrage au pôle apical. Plk4 régule négativement la localisation du co-activateur de l'APC/C, Fizzy-related, que j'ai identifié comme un régulateur positif de l'activation du centrosome. APC/C est une E3 ubiquitine-ligase, qui cible les protéines régulant le cycle cellulaire vers la dégradation. J'ai montré que Plk4 interagit avec ce complexe in vivo. Des mutations du motif de liaison à l'APC/C conduisent à la stabilisation de Plk4 et à une dérégulation de son accumulation au centrosome au début de l'interphase. Mon étude a donc démontré que dans les neuroblastes Plk4 coordonne la duplication des centrioles et le cycle des centrosomes. / The centrosome is the main microtubule-organizing centre of animal cells with important roles in cell division, motility and polarity. In cycling cells, upon duplication, two centrosomes form the mitotic spindle, the apparatus that physically segregates the chromosomes into the daughter cells. In Drosophila neural stem cells of the larval brain, called neuroblasts, during interphase, one centrosome stays active and static at the apical side of the cell, while the other one is inactive and moves toward the basal side of the cell. Centriole duplication, which occurs only once per cell cycle, is initiated by the Polo-like kinase 4 (Plk4). Deregulation of Plk4 levels leads to alteration in centrosome number, a defect that can cause diseases such as cancer and microcephaly. During my PhD I studied the role/s and regulation of Plk4 in vivo in Drosophila neuroblasts. I found that Plk4 plays an important role in establishing centrosome asymmetry during interphase. Plk4 promotes centrosome basal-like behaviour, through inhibition of MT nucleation and centrosome apical anchorage. Plk4 negatively regulates the centrosomal localization of the APC/C co-activator Fizzy-related (Fzr) that I identified as a positive regulator of centrosome activation. The APC/C complex is an E3 ubiquitin-ligase that targets cell-cycle-related proteins to degradation. I showed that APC/C and Plk4 interact in vivo. Mutations in the APC/C binding motif lead to stabilization of Plk4 that presents unscheduled accumulation at the centrosome in early interphase neuroblasts.In conclusion, my study demonstrates that in neuroblasts, the kinase Plk4 couples centriole duplication and centrosome cycles. Plk4 Pcm Asymétrie des centrosomes Fzr Apc/c Spd2 Plk4 Centrosome asymmetry Apc/c 571.6
23	Productivity measurement and its relationship to quality in a South African Minting Company Mtotywa, Matolwandile Mzuvukile January 2007 (has links) The aim of this study was to investigate a productivity measurement at the South African Minting Company and evaluate the relationship between productivity and quality. Special emphasis was given to profit-linked total factor model as the tool for measurement. This was encouraged by their ability to separate productivity, profitability and price recovery. Three models were selected and evaluated. These models American Productivity Center (APC) Model, “Profitability = productivity + price recovery” (PPP) model and multi-factor productivity measurement model (MFPMM). APC model was selected as the suitable model because of its simplicity, easy to set up, its ability to produce both financial and non financial data, and allow for route cause analysis with expert system, and more insight for the manager with Microsoft Excels’ What if analysis “Goal seek”. APC model was set up for four periods, from 1 April 2004 to 30 September 2007. The overall profitability results of the circulation coins profit center show an overall positive contribution. There was a break-even of the price recovery for 2006 financial year (period 2). In 2007 financial year (period 3), there was a negative contribution, and this improved to almost break-even in the six month period during this 2008 financial year (period 4). This means there was much more inflation on input resources and the recovery was not fully realised in the price of goods sold. Individual input costs show that the negative price recovery is culminating from material, labour and energy costs contributions. There is a plausible explanation for material and labour, but not for energy. The metal volatility is the underlying cause of the price variation. Labour variation was a company strategy to adjust employee to higher percentiles. Productivity was always positive with the highest contribution in the current financial year (period 4). This means that the profitability at SA Mint has been driven by productivity in the past two financial years. iv Survey of the questionnaire shows average scores for productivity and quality. It is noteworthy, that the lowest mean score for productivity is for the statement “Products are produced in error-free process”. This is a productivity quality measure. In addition, the same variable shows r2 value of 0.42. A conclusion is that even though productivity and quality are highly correlated and show a highly positive relationship, there is a concern on quality in the company. A link can be made that low price recovery becomes more difficult when the quality is not always good. Defective product is a cost, because the product does not reach the customer and if the product is reworked it is still a cost, though low, but more importantly it decreases the available capacity. This study was successful in setting up APC model and producing data that is worthy to the company and academic world. Finally, this study was successful in its quest to establish the relationship between productivity and quality. Measurement Productivity Quality SA Mint APC model Correlation
24	Evaluating the Role of VDR Polymorphisms and Beta-catenin Signaling in Colorectal Neoplasia Egan, Jan Bailey January 2009 (has links) Colorectal cancer is estimated to cause approximately 50,000 deaths each year in the United States. Epidemiological studies have demonstrated an inverse association between sunlight exposure, which stimulates the formation of vitamin D in the skin, and colorectal carcinoma. Laboratory studies report that metabolites of vitamin D, acting through the vitamin D receptor (VDR), regulate cellular proliferation, differentiation and apoptosis. In addition, VDR contains a polymorphic variant, FokI, which results in two different isoforms of VDR. We have demonstrated a differential suppression of β-catenin transcriptional activity by these isoforms in the presence of 1,25(OH)₂D₃ (1,25D). Epidemiological evaluation of metachronous colorectal adenoma formation indicates that VDR includes several single nucleotide polymorphisms (SNPs) which influence the odds of developing colorectal adenoma. In addition, we have found full length Adenomatous Polyposis Coli (APC), a frequently mutated tumor suppressor gene in colorectal cancer, augments both the interaction of VDR and β-catenin as well as the suppression of β-catenin transcriptional activity in the presence of 1,25D. We have also demonstrated in epidemiological studies that the presence of a T-A haplotype in APC codons 486 and 1822, respectively, reduces the odds of any metachronous adenoma by 27% [odds ratio (OR), 0.73; 95% confidence interval (95% CI), 0.59 – 0.91]. Taken together, these data support not only a protective role for vitamin D acting through the VDR, but also for an important role of heritable polymorphic variation in VDR and APC in carcinogenesis. APC beta-catenin chemoprevention colorectal cancer single nucleotide polymorphism VDR
25	Retirement and Trust : the social potential among older Europeans Garpenby, Filip January 2019 (has links) Trust is seen as an essential ingredient in a flourishing society. It is a well-researched subject within the political science discourse, but few have looked at how retirement affect trust. This thesis aims to examine the relation between retirement and trust using regression analysis. Two hypotheses are formulated in relation to previous research findings; that trust increases when a person retires, and that this positive effect is expected to be stronger for retirees that engage in civil society. This thesis finds little evidence that supports the first hypothesis. Instead, retirement is negatively associated with trust, and this stands true after controls for other variables (health, education, age, year of birth) and a robustness test. In relation to the second hypothesis, this thesis finds that civic participation is indeed positively related to trust among the retired, although this relationship is rather weak. trust retirement APC European Social Survey Political Science Statsvetenskap
26	Rôles des récepteurs cannabinoïdes de type 1 dans le cortex piriforme antérieur / Roles of cannabinoid type-1 receptors in the anterior piriform cortex Terral, Geoffrey 14 December 2018 (has links) Impliquée dans de nombreuses fonctions comportementales, l'olfaction joue un rôle majeur quant à l'orientation de nos actions. Les odeurs communiquent avec le système nerveux central par l'intermédiaire de récepteurs situés dans l'épithélium olfactif du nez qui génèrent des signaux neuronaux, transmis et traités dans de nombreuses régions du cerveau. En particulier, le cortex piriforme antérieur (CPa) est une région olfactive importante impliquée dans la perception et l'intégration des odeurs. Étant donné le rôle du principal récepteur aux cannabinoïdes de type 1 (CB1) dans les fonctions sensorielles et les processus de mémoire, nous avons émis l'hypothèse que ces récepteurs pourraient moduler le traitement des odeurs dans le CPa. Pour ce faire, en combinant des approches anatomiques, électrophysiologiques et pharmacologiques, nous avons d'abord caractérisé la répartition des récepteurs CB1 et évalué leur capacité à réguler les circuits du CPa. Nous avons observé que ces récepteurs sont principalement exprimés dans les interneurones GABAergiques et que leur activation régule la transmission et la plasticité inhibitrice. Puis, nous avons cherché à déterminer le rôle et l'impact des récepteurs CB1 dans le traitement des odeurs dans le CPa. Grâce à une technique d'imagerie calcique in vivo, nous avons montré que l'altération de la signalisation des récepteurs CB1 affecte l'activité des neurones du CPa en réponse aux odeurs. En agissant très semblablement sur les circuits inhibiteurs locaux, nous avons mis en évidence que le fonctionnement physiologique des récepteurs CB1 dans le CPa est nécessaire pour le rappel d’une information olfactive apprise dans un contexte appétitif mais pas aversif. De façon générale, ces travaux permettent de mieux comprendre comment les récepteurs CB1 modulent les processus olfactifs dans le CPa. / Being involved in many behavioral functions, olfaction has powerful influence in guiding our actions. Odors communicate with the central nervous system via specialized receptors in the nose olfactory epithelium that generate neuronal signals, which in turn are eventually distributed and processed in many brain regions. In particular, the anterior piriform cortex (aPC) is an important olfactory area involved in perception and integration of odors. Given the extended role of the main cannabinoid type-1 (CB1) receptor in sensory and memory brain functions, we hypothesized that CB1 receptors could modulate odor processing in the aPC. To this aim, using a combination of anatomical, electrophysiological, and pharmacological approaches, we first characterized the distribution of CB1 receptors and their ability to regulate aPC circuits. We found that CB1 receptors are mainly expressed in GABAergic interneurons where their activation regulates inhibitory transmission and plasticity. Then, we evaluated the role and the impact of CB1 receptor modulation on odor-related aPC processing. In vivo calcium imaging revealed that odor-evoked aPC activity is affected by alteration of CB1 receptor signaling. Additionally, we demonstrated that physiological aPC-CB1 receptors functioning is necessary for retrieve appetitive but not aversive olfactory memory, likely through modulation of local inhibitory circuits. Overall, this work contribute to a better understanding of how CB1 receptors modulate olfactory processes in the aPC. Récepteurs CB1 CPa Odeur Mémoire CB1 receptors APC Odor Memory
27	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. APC asymmetric cell division Axin beta-catenin Dishevelled Wnt Biology
28	Contrôle de processus industriels complexes et instables par le biais des techniques statistiques et automatiques Babus, Florina 15 December 2008 (has links) (PDF) Le contexte général dans lequel s'inscrivent les travaux développés dans ce mémoire est le contrôle des processus industriels complexes. Ces travaux proposent des nouvelles techniques d'amélioration du contrôle statistique des processus non gaussiens : la carte de contrôle avec des paramètres variables et la carte de contrôle théorique pour la loi de distribution de Rayleigh. Un modèle d'intégration des outils des domaines de l'APC ( Automatic Process Control ) et de la MSP est proposée et ensuite analysée par le biais des deux modèles de processus réel. [SPI] Engineering Sciences processus non normal MSP APC contrôle distribution de Rayleigh
29	Studies on potential APC/β-catenin target genes in the Notch pathway Grünberg, John January 2009 (has links) <p>Both Notch and the Wnt pathways are key regulators in maintaining the homeostasis in the intestine. Defects on the key tumor suppressor adenomatous polyposis coli, APC a gene in the Wnt pathway is most frequently mutated in colorectal cancer. Previous studies have indicated that there is a crosstalk between these two pathways. We investigate if there is correlation by first using bioinformatics to find Lef1/Tcf sites in several of the Notch pathway gene promoters. Bioinformatically we found that a lot of the genes contained theses sites controlled by the APC's destruction target β-catenin. By using semi quantitative PCR and western blot we found that Hes 1, Hes 7, JAG 2, MAML 1, Notch 2, NUMB, NUMBL, RFNG and LFNG was downregulated in HT29 colon cancer cells carrying a vector containing wild type APC. All but JAG 2 contains at least one Lef1/Tcf site in their promoter region. The results were verified in HT29 cells transfected with siRNA against β-catenin. We also investigated what would happen to the Lef1/Tcf target gene program of the Wnt pathway, if the Notch pathway was inhibited with the gamma-secretase inhibitor DAPT. Results showed no downregulution of β-catenin or its target gene Cyclin D1.Taken together, these results demonstrate that the Wnt pathway can be placed upstream of the Notch pathway and regulates the latter through β-catenin and the Lef1/Tcf target gene program. However, preliminary results indicate that there is no regulation of APC/β-catenin by the Notch pathway.</p> Notch Wnt APC β-catenin Colorectal cancer HT29 LEF1/Tcf
30	Using Transit AVL/APC System Data to Monitor and Improve Schedule Adherence Mandelzys, Michael January 2010 (has links) The implementation of automatic transit data collection via Automatic Vehicle Location (AVL) and Automatic Passenger Counting (APC) systems provides an opportunity to create large, detailed datasets of transit operations. These datasets are valuable because they provide an opportunity to evaluate and optimize transit operations using methods that were previously infeasible and without the need for expensive manual data collection. This thesis develops a methodology to utilize data collected by typical AVL/APC system installations in order to (a) develop advanced performance measures to quantify schedule adherence and (b) automatically determine the causes of poor schedule adherence. The methodology addresses the difficulty that many small to medium sized transit agencies have in utilizing the data being collected by proposing a methodology that can be automated, thereby reducing resource and expertise requirements and allowing the data to be more effectively utilized. The ultimate output of the proposed methodology includes the following: 1. A ranked list of routes by direction (for a given time period) that identifies routes with the poorest schedule adherence performance. 2. Performance measures within any given route, direction, and time period that identify which timepoints are contributing most to poor schedule adherence. 3. Statistics indicating identified causes of poor schedule adherence at individual timepoints. 4. A visualization aid to be used in conjunction with the cause statistics generated in Step 3 in order to develop an effective strategy for improving schedule adherence issues. With this information, transit agencies will be able to act proactively to improve their transit system, rather than wait until they discover problems on their own or hear complaints from passengers and drivers. The methodology is tested and demonstrated through application to AVL/APC system data from Grand River Transit, a public transit agency serving Waterloo Region in Ontario, Canada. Transit AVL APC Schedule Adherence Data Mining Civil Engineering

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