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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

The Molecular Pathogenesis of Noonan Syndrome-Associated RAF1 Mutations

Wu, Xue 20 June 2014 (has links)
Noonan syndrome (NS) is one of several autosomal dominant “RASopathies” caused by mutations in components of the RAS-RAF-MEK-ERK MAPK pathway. Germ line mutations in RAF1 (encoding the serine-threonine kinase for MEK1/2) account for ~3-5% of NS, and unlike other NS alleles, RAF1 mutations that confer increased kinase activity are highly associated with hypertrophic cardiomyopathy (HCM). Notably, some NS-associated RAF1 mutations show normal or decreased kinase activity. To explore the pathogenesis of such mutations, I generated “knock-in” mice that express kinase-activating (L613V) or -impaired (D486N) Raf1 mutants, respectively. Knock-in mice expressing the kinase-activated allele Raf1L613V developed typical NS features (short stature, facial dysmorphia, haematological abnormalities), as well as HCM. As expected, agonist-evoked Mek/Erk activation was enhanced in multiple cell types expressing Raf1L613V. Moreover, postnatal Mek inhibition normalized the growth, facial, and cardiac defects in L613V/+ mice, showing that enhanced Mek/Erk activation by Raf1 mutant is critical for evoking NS phenotypes. D486N/+ female mice exhibited a mild growth defect. Male and female D486N/D486N mice developed concentric cardiac hypertrophy and incompletely penetrant, but severe, growth defects. Remarkably, Mek/Erk activation was enhanced in Raf1D486N-expressing cells compared with controls. In both mouse and human cells, RAF1D486N, as well as other kinase-impaired RAF1 mutants, show increased heterodimerization with BRAF, which is necessary and sufficient to promote increased MEK/ERK activation. Furthermore, kinase-activating RAF1 mutants also require heterodimerization to enhance MEK/ERK activation. Our results suggest that increased heterodimerization ability is the common pathogenic mechanism for NS-associated RAF1 mutations.
2

The Molecular Pathogenesis of Noonan Syndrome-Associated RAF1 Mutations

Wu, Xue 20 June 2014 (has links)
Noonan syndrome (NS) is one of several autosomal dominant “RASopathies” caused by mutations in components of the RAS-RAF-MEK-ERK MAPK pathway. Germ line mutations in RAF1 (encoding the serine-threonine kinase for MEK1/2) account for ~3-5% of NS, and unlike other NS alleles, RAF1 mutations that confer increased kinase activity are highly associated with hypertrophic cardiomyopathy (HCM). Notably, some NS-associated RAF1 mutations show normal or decreased kinase activity. To explore the pathogenesis of such mutations, I generated “knock-in” mice that express kinase-activating (L613V) or -impaired (D486N) Raf1 mutants, respectively. Knock-in mice expressing the kinase-activated allele Raf1L613V developed typical NS features (short stature, facial dysmorphia, haematological abnormalities), as well as HCM. As expected, agonist-evoked Mek/Erk activation was enhanced in multiple cell types expressing Raf1L613V. Moreover, postnatal Mek inhibition normalized the growth, facial, and cardiac defects in L613V/+ mice, showing that enhanced Mek/Erk activation by Raf1 mutant is critical for evoking NS phenotypes. D486N/+ female mice exhibited a mild growth defect. Male and female D486N/D486N mice developed concentric cardiac hypertrophy and incompletely penetrant, but severe, growth defects. Remarkably, Mek/Erk activation was enhanced in Raf1D486N-expressing cells compared with controls. In both mouse and human cells, RAF1D486N, as well as other kinase-impaired RAF1 mutants, show increased heterodimerization with BRAF, which is necessary and sufficient to promote increased MEK/ERK activation. Furthermore, kinase-activating RAF1 mutants also require heterodimerization to enhance MEK/ERK activation. Our results suggest that increased heterodimerization ability is the common pathogenic mechanism for NS-associated RAF1 mutations.
3

Studies on host factors that regulate the replication of positive strand RNA viruses

Patton, John B. January 1900 (has links)
Doctor of Philosophy / Department of Diagnostic Medicine/Pathobiology / Kyeong-Ok Chang / Positive sense RNA viruses include a diverse group of pathogens that cause a wide array of diseases that can range from sub-clinical to lethal. These viruses infect humans and mammals as well as a variety of other hosts. For their successful replication, viruses interact closely with host cells from the binding to the receptor to the exit as complete viral progenies. During the events, viruses are dependent on host factors for receptor bindings, genome synthesis, and trafficking of viral genome and proteins. Thus there have been major efforts on the studies of understanding the virus-host interactions in the field of virology. In my PhD program, I have studied the host factors that regulate the replication of viruses using porcine reproductive and respiratory syndrome virus (PRRSV) and hepatitis C virus (HCV). I found that modulation of either the viral receptor or cellular signaling pathways had pronounced effects in the replication of PRRSV or HCV respectively. Using PRRSV, I found that the modulation of the level of the putative receptor CD163 on cells with cytokines significantly influence virus replication, suggesting the importance of cytokine presence in environments to determine the replication and pathogenicity of PRRSV via receptor expression in vivo. With HCV, I found that the enhancement of the virus replication occurs through the activation of the epidermal growth factor receptor/extracellular signal-regulated kinase pathway by bile acids which are abundant in the liver where the virus targets in vivo. Furthermore, I found that the bile acid-mediated signaling pathway significantly inhibited the antiviral activities against HCV. These results indicate the importance of environmental factors such as bile acids and signaling pathways in the replication and pathogenicity of HCV in vivo.
4

The Role of ARID1A in Oncogenic Transcriptional (de)Regulation in Colorectal Cancer

Sen, Madhobi 29 January 2019 (has links)
No description available.
5

INVOLVEMENT OF KRAS G12A MUTATION IN THE IL-2-INDEPENDENT GROWTH OF A HUMAN T-LGL LEUKEMIA CELL LINE, PLT-2

MURATE, TAKASHI, DAIBATA, MASANORI, OHNISHI, KAZUNORI, OSAWA, YOSUKE, SUZUKI, MOTOSHI, KOJIMA, TETSUHITO, TAKAGI, AKIRA, NISHIDA, YAYOI, HOSHIKAWA, ASUKA, KOBAYASHI, MISA, HAGIWARA, KAZUMI, ITO, HIROMI, MIZUTANI, NAOKI 08 1900 (has links)
No description available.
6

Inhibition de l'angiogenèse tumorale : criblage d'une chimiothèque et caractérisation d'un nouveau composé agissant sur la voie de signalisation Ras-ERK / Inhibition of tumor angiogenesis : screening of a chemical library and characterization of a new compound that targets the Ras-ERK signaling pathway

Castan, Agnès 03 October 2014 (has links)
Au cours des dernières années, des thérapies anti-cancéreuses ciblant l'angiogenèse tumorale ont été développées et ont démontré un bénéfice en terme de survie globale pour les patients atteints de certains cancers métastatiques. Cependant, dans de nombreux cas, les tumeurs acquièrent des résistances échappent au traitement. Le développement de nouveaux composés anti-angiogène est donc une réelle nécessité pour être proposés en seconde ligne thérapeutique. Dans ce travail, notre objectif était d'identifier de nouvelles molécules anti-angiogènes par le criblage à haut débit, de la chimiothèque académique de l'Université de Grenoble. Nous avons adapté le test de blessure sur cellules endothéliales au format des plaques de 96 puits et avons identifié une famille de molécules qui inhibent spécifiquement leur fermeture. L'activité anti-angiogène de la molécule leader (COB223) a été confirmée dans des modèles d'angiogenèse tridimensionnels in vitro, et, chez la souris, dans un modèle d'angiogenèse sous-cutanée. Nous avons testé l'activité anti-tumorale de COB223 dans un modèle de xénogreffe chez la souris et observé une diminution significative de la taille des tumeurs dans les souris traitées. A la recherche de son mécanisme d'action, nous avons observé que COB223 inhibe la prolifération cellulaire et diminue les phosphorylations de MEK et Raf, de ERK1/2 induites par le VEGF-A dans les cellules endothéliales. Nous avons également montré que COB223 n'inhibe pas les phosphorylations du VEGFR2 et de PLC. D'après ces résultats, nous proposons que la cible de COB est localisée dans la voie de signalisation VEGF/ PLC /PKC/ERK entre PKC et Ras. / Several anti-tumoral therapies targeting angiogenesis have been developed over the recent years and have demonstrated benefits for several metastatic cancers. However, in many cases, resistances to these treatments appear over time, allowing tumor escape. The development of new anti-angiogenic compounds is thus dramatically urged in order to propose second-line anti-angiogenic treatments. In this work, our aim was to identify new anti-angiogenic compounds through high throughput screening of the academic library from the University of Grenoble. We adapted the endothelial cell scratch assay to 96-well plates. We identified a family of molecules that specifically inhibited endothelial cell migration. The anti-angiogenic activity of the leader molecule (COB223) was confirmed in vitro in 3D cellular models of angiogenesis and in vivo using a mouse model of subcutaneous sponge implantation. We tested the anti-tumoral activity of COB223 on a mouse xenograft model. We observed that tumor growth was significantly reduced in treated mice correlated with decreased microvessel density. In search for its mechanism of action, we observed that COB223 inhibits cell proliferation and reduces VEGF-A-induced phosphorylation of MEK and ERK1/2 in endothelial cells. We also showed that COB223 did not affect VEGFR2 and PLC phosphorylation but reduces Raf phosphorylation responsible for its activity. These results allow us to propose that the molecular site of action of COB223 is located in the VEGF/ PLC /PKC/ERK pathway, between PKC and MEK.
7

Intérêt de la modulation pharmacologique des voies PI3K / Akt / mTOR et MAPK / ERK pour la sensibilisation des cancers de l'ovaire aux molécules BH3-mimétiques / Interest of pharmacological modulation of PI3K/Akt/mTOR and MAPK/ERK pathways to sensitize ovarian cancers to BH3-mimetic molecules

Pétigny-Lechartier, Cécile 27 April 2017 (has links)
Bcl-xL et Mcl-1 sont deux protéines anti-apoptotiques de la famille Bcl-2 dont dépendent les cancers de l’ovaire pour leur survie, leur inhibition semble donc être une stratégie pertinente. La molécule BH3-mimétique ABT 737 (ou son analogue oral, l’ABT-263), est un puissant inhibiteur de Bcl-xL mais l’inhibition de Mcl-1 reste problématique. Les voies de signalisation PI3K/Akt/mTOR et MAPK/ERK régulent l’expression et l’activité de cette dernière protéine et de ses partenaires BH3-only (Bim, Puma, Noxa). Nous nous sommes donc intéressés à l’intérêt de leur inhibition pour sensibiliser les cellules cancéreuses ovariennes à l’ABT-737. La première étude menée avec le BEZ235, double inhibiteur PI3K/mTOR développé par le laboratoire Novartis, montre qu’il inhibe l’expression de Mcl-1 et induit celle de Puma, et qu’il sensibilise les cellules cancéreuses ovariennes à l’ABT-737 à condition que l’expression de Bim soit également induite. La deuxième étude a évalué les effets de l’AZD8055, inhibiteur du site actif de mTOR développé par le laboratoire AstraZeneca, et du trametinib, inhibiteur allostérique de MEK développé par le laboratoire GlaxoSmithKline et actuellement en clinique, sur trois lignées cancéreuses ovariennes. L’inhibition de l’expression de Mcl-1 et l’induction de celle de Puma par l’AZD8055 ne permettent pas de diminuer suffisamment le ratio [Mcl-1/protéines BH3-only] pour sensibiliser les cellules à l’ABT-737. En revanche, la forte induction de Bim sous forme active déphosphorylée par le trametinib permet de diminuer suffisamment ce ratio pour sensibiliser deux des trois lignées testées à l’ABT-737. C’est cependant la triple combinaison AZD8055/trametinib/ABT-737 qui est la plus efficace pour induire une apoptose massive dans les trois lignées. Par ailleurs, de façon intéressante, l’association de l’AZD8055 et du trametinib est cytotoxique sans ABT 737 dans une des lignées testées. Ces résultats mettent en évidence l’efficacité de différentes stratégies thérapeutiques multi-cibles et la nécessité de définir des marqueurs prédictifs de la réponse afin d’évoluer vers un traitement personnalisé pour améliorer la prise en charge des cancers de l’ovaire. / Ovarian cancers depend on Bcl-xL and Mcl-1, two anti-apoptotic protein of the Bcl-2 family, for their survival and their inhibition seems to by a relevant strategy. The BH3-mimetic molecule ABT-737 (or its oral form, ABT-263), is a strong Bcl-xL inhibitor, but Mcl-1 inhibition remains problematic. Signaling pathways PI3K/Akt/mTOR and MAPK/ERK regulate expression and activity of Mcl-1 and its BH3-only partners (Bim, Puma, Noxa). We focused on the interest of their inhibition to sensitize ovarian cancer cells to ABT-737. The first study with BEZ235, a PI3K/mTOR dual inhibitor developed by Novartis, inhibits Mcl-1 expression and induces the one of Puma, and sensitizes ovarian cancer cells to ABT-737 provided that Bim expression is induced. The second study evaluated the effects of AZD8055, mTOR active site inhibitor developed by AstraZeneca, and of trametinib, MEK allosteric inhibitor developed by GlaxoSmithKline and currently in clinic, on three ovarian cancer cell lines. Mcl-1 expression inhibition and Puma expression induction by AZD8055 does not sufficiently reduce [Mcl-1/BH3-only proteins] ratio to sensitize cells to ABT-737. On the other hand, strong Bim induction in its active dephosphorylated form by trametinib sufficiently reduce this ratio to sensitize two of the three cell lines tested to ABT-737. Nevertheless, the triple combination AZD8055/trametinib/ABT-737 is the most efficient to induce massive apoptosis in the three cell lines. Besides, interestingly, AZD8055 and trametinib association is cytotoxic without ABT-737 in one of the tested cell lines. These results highlight the efficacy of different multi-targets therapeutic strategies and the need of predictive marker definition of the response to develop personalized treatment and to improve ovarian cancer management.
8

Mechanisms of Moraxella catarrhalis Induced Immune Signaling in the Pulmonary Epithelium

Campbell, Sara J. 19 May 2010 (has links)
No description available.

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