Global ETD Search

81	YAP and β-catenin Co-operate to Drive Oncogenesis in Basal Breast Cancer Quinn, Hazel 13 November 2020 (has links) Bei verschiedenen Krebs-Typen kann die molekulare Behandlung der Krebs-Stammzellen ein effektives Ziel sein, die Therapie-Resistenz und die Metastasierung der Tumore zu hemmen. Basaler Brustkrebs enthält Zellen mit Stammzell-Eigenschaften; hingegen sind rationale Therapien gegen diese Zellen nur wenige etabliert. Ich zeige in meiner Doktorarbeit, dass Rezeptor-Tyrosinkinase-Met-Signalvermittlung die Aktivität der Hippo-Komponente YAP im basalem Brustkrebs verstärkt. Weitere Analysen zeigten erhöhte YAP-Aktivität in den Krebsstammzell-Populationen. Durch Verwendung genetischer und pharmakologischer Methoden konnte ich zeigen, dass die Interferenz mit YAP die Tumor-Bildung verzögert und die luminal-basale Transdifferenzierung verhindert sowie das Krebsstammzell-Überleben reduziert. Gen-Expressions-Analysen von YAP-Knockout-Brustdrüsen zeigten eine starke Reduzierung der Expression der β-Catenin-Zielgene, was indiziert, dass YAP für nukleare β-Catenin-Aktivität essentiell ist. Ich habe weiter gefunden, dass nukleares YAP mit β-Catenin und TEAD4 interagiert und an gemeinsamen regulatorischen Gene-Regionen überlappt. Die Analyse von proteomischen Daten von primären Brustkarzinomen des Menschen zeigte eine signifikante Hoch-Regulation der YAP-Signatur in basalem im Vergleich zu andern Brustkarzinom-Typen, was suggeriert, dass YAP-Aktivität auf den basalen Brustkrebs limitiert ist. Unsere Daten beleuchten die Wichtigkeit von YAP als essentiellen Tumor-Initiator und Krebs-Stammzell-Regulator beim basalen Brustkrebs und zeigt, dass dessen Aktivität als Prognose-Faktor wichtig ist, wenn man basalen mit luminalem Brustkrebs vergleicht. Dies suggeriert, dass Behandlung des YAP/TEAD4/β-Catenin-Komplexes mit neuen, spezifischen Pharmaka, die die Wissenschaftler in Akademie- und Industrie-Instituten im Moment entwickeln, eine potentielle therapeutische Richtung darstellen, um basalen Brustkrebs in der Zukunft zu behandeln. Dies ist der wichtigste Aspekt meiner Doktorarbeit. / In various cancer types, targeting cancer stem cells (CSCs) can serve as an effective approach for limiting therapy resistance and metastasis. While basal breast cancers encompass cells with CSC features, rational therapies remain poorly established. Here, I show that receptor tyrosine kinase (RTK) Met signalling promotes the activity of the Hippo component YAP in basal breast cancer. Further analysis revealed enhanced YAP activity within the CSC population. Utilising both genetic and pharmaceutical approaches, I show that interference of YAP activity delays tumour formation, prevents luminal to basal trans-differentiation and reduces CSC survival. Gene expression analysis of YAP knock-out mammary glands revealed a strong decrease in β-catenin target genes, suggesting that YAP is required for nuclear β-catenin activity. Mechanistically, I find that nuclear YAP interacts and overlaps with β-catenin and TEAD4 at common gene regulatory regions. Analysis of proteomic data from primary breast cancer patients identified significant upregulation of the YAP signature in basal compared to other breast cancers, suggesting that YAP activity is limited to basal breast cancers. Our data highlight the importance of YAP as a crucial tumour initiator and cancer stem cell regulator in basal breast cancer and demonstrates that its activity has prognostic value, when comparing basal with luminal breast cancers. This suggests that targeting the YAP/TEAD4/β-catenin complex through specific new drugs, which researchers in academia and industry are presently developing, is a potential therapeutic avenue for treating basal breast cancers in the future. This is the most important aspect of my thesis. Brustkrebs YAP β-catenin Krebs-Stammzell Breast cancer YAP β-catenin cancer stem cells 570 Biologie XH 8462 XH 8463 XH 8465 ddc:570
82	Die Bedeutung der Wnt/beta-Catenin-Signalgebung für epigenetische Veränderungen während der Transformation von Speicheldrüsen-Stammzellen zu Krebsstammzellen Wend, Peter 19 May 2010 (has links) Neueste Arbeiten zeigen, dass die Selbsterneuerung und Pluripotenz von Stammzellen durch hochkonservierte Signalwege kontrolliert werden. Störungen dieser Prozesse verursachen Tumoren, die von Zellen mit stammzellähnlichen Eigenschaften ausgehen, den sog. Krebsstammzellen. Diese Arbeit zeigt, dass erhöhte Wnt/beta-Catenin- und erniedrigte Bmp-Signalgebung eine wichtige Rolle in der Entstehung humaner Plattenepithel-Karzinome der Speicheldrüsen spielen. Es wurde ein Mausmodell hergestellt, bei dem die Aktivierung der Wnt/beta-Catenin und der Verlust der Bmp-Signalgebung ebenfalls Speicheldrüsenkarzinome verursachen. Die Speicheldrüsen-Tumoren der Maus enthielten eine erhöhte Zahl von CD24+CD29+-Stammzellen, von denen bereits 500 Zellen transplantierbare Tumoren in NOD/SCID-Mäusen induzierten, d. h. dass sie Krebsstammzellen darstellen. Die Veränderung nur eines Signalweges, Wnt/beta-Catenin oder Bmp allein, war nicht tumorigen, resultierte aber in einer erhöhten Anzahl von CD24+CD29+-Stammzellen in der Speicheldrüse und einer fünffach schnelleren Geweberegeneration nach Verwundung. Die Krebsstammzellen der Speicheldrüsen zeigten eine erhöhte Expression von Pluripotenzgenen und globale Veränderungen von trimethyliertem Lysin 4 und 27 des Histons 3. Diese Veränderungen korrelieren häufig mit einer Zunahme aktiven und einer Abnahme repressiven Chromatins. Die Krebsstammzellen wuchsen in vitro als undifferenzierte Salisphären und konnten durch Inhibierung des Wnt/beta-Catenin-Signalweges in drüsenartige Strukturen differenziert werden. Dieser Prozess war von repressivem Chromatin abhängig, da DNA-Methylierungs- oder Histon-Deazetylase-Inhibitoren den ursprünglichen Krebsstammzell-Status wieder reaktivieren konnten. Diese Arbeit zeigt, dass ein aktiver Wnt/beta-Catenin-Signalweg die Transformation von normalen Stammzellen zu Krebsstammzellen durch einen epigenetischen Mechanismus fördert. Die Ergebnisse eröffnen neue Strategien für die Tumortherapie beim Menschen. / Little is known about the processes by which cancer stem cells arise in the different tissues. Our analysis of aggressive squamous cell carcinomas (SCCs) of the salivary gland in human patients suggested a link to the Wnt/beta-catenin and Bmp signaling systems. Using a genetically modified mouse strain in which Wnt signaling is up-regulated and Bmp is suppressed, we found that Wnt/beta-catenin promotes the transformation of normal stem cells into cancer stem cells through an epigenetic mechanism. Mouse SCCs of the salivary gland contained high numbers of CD24+CD29+ cancer stem cells. As few as 500 of these cells sufficed to cause tumors when transplanted into NOD/SCID mice. Mice in which only one of the signaling systems was altered had higher numbers of stem cells in the salivary gland, more efficient tissue regeneration, and no apparent tumors. We discovered that the difference of normal compared to cancer stem cells in the salivary gland is an up-regulation of specific pluripotency genes, e.g. Dppa5, as well as global changes in trimethylated Lysine 4 and 27 of histone 3. This indicates an increase of active chromatin and a decrease in the repressive form, which suggests a mechanistic explanation for the change of cell fate. Cancer stem cells of the salivary gland grew as non-adherent spheres and retained the capacity for differentiation if beta-catenin is inhibited. This depended on repressive chromatin, as shown by the fact that 5-azacytidine or HDAC inhibitors restored stemness. Our data opens new strategies for future cancer therapies in humans. Krebs Stammzellen Regeneration BMP Wnt/beta-Catenin Epigenetik cancer regeneration BMP Wnt/beta-catenin stem cells epigenetics 570 Biologie 32 Biologie XH 6900 ddc:570
83	Rôle de l'adrénomédulline dans la néoangiogenèse tumorale des glioblastomes / Role of adrenomedullin in the tumoral angiogenesis of glioblastoma Khalfaoui-Bendriss, Ghizlane 13 December 2010 (has links) La croissance tumorale et le processus de métastatisation dépendent de la néoformation de vaisseaux sanguins ou néoangiogenèse. Parmi les molécules intervenant dans ce processus, l'adrenomédul1ine (AM) est un peptide, dont l'expression est corrélée à l'agressivité de certaines tumeurs, et qui représente un maillon «clé» dans les interactions entre les cellules tumorales et les cellules du microenvironnement. Les résultats spectaculaires qu'offre le traitement des xénogreffes de cellules issues de glioblastomes (GBM) humains par les anticorps dirigés contre l'AM ou son récepteur sont très encourageants, puisque la tumeur traitée régresse en quelques semaines, la vascularisation tumorale s'en trouve touchée de manière spécifique. C'est dans ce contexte, que nous avons choisi de poursuivre notre travail sur les mécanismes d'action de l'AM dans la néoangiogenèse. Grâce à des études in vitro et in vivo, nous avons pu montrer que l'AM est impliquée dans plusieurs étapes de la néoangiogenèse tumorale : migration des cellules endothéliales, stabilisation des contacts endothéliaux et endothélio-péricytaires, recrutement des cellules mésenchymateuses. Nos résultats démontrent que nous sommes en présence d'une molécule d'AM qui agit sur diverses cibles moléculaires et cellulaires, régulant la stabilité du complexe d”adhésion intercellulaire VE-cadhérine/-caténine, nécessaire à la protection des interactions homotypiques et hétérotypiques de l°endothélium nouvellement formé. Ainsi, l'étude des mécanismes d'action de l'AM réalisée pennettra d'établir ue stratégie thérapeutique autour de l'AM. / Tumoral growth and process of metastatization depend on the formation of new blood vessels or angiogenesis. Among the molecules implicated in this process, adrenomedullin (AM) is a peptide, which expression is correlated with the aggressiveness of tumors, and which represents a "key" link in the interactions between tumoral cells and the microenvironment cells. The spectacular results offered by the treatment of human glioblastoma (GBM) xenograft by antibodies directed against the AM or its receptor are very encouraging, as the treated tumor declines in some weeks, and the tumoral vascularization is also touched in a specific way. In this context, we chose to pursue our work on the mechanisms of action of AM in angiogenesis. In vitro and in vivo studies showed that AM is involved in several stages of tumoral angiogenesis : migration of endothelial cells, stabilization of endothelial contacts, stabilization of the pericyte coverage, recruitment of multipotent cells. Our results demonstrate that we are in presence of a molecule of AM which acts on diverse molecular and cellular targets, regulating the stability of the VE-cadherin/β-catenin complex, required for the protection of the homotypics and heterotypics interactions of the newly formed endothelium. The study of the mechanisms of action of AM realized will allow us to establish a therapeutic strategy around AM. Adrénomédulline Glioblastome Cellules endothéliales Adrenomedullin Endothelial cells Pericytes VE-cadherin B-catenin Akt Tumor neovessels
84	c-Myc dans le développeemnt rénal et la polykystose rénale autosomique dominante Couillard, Martin January 2008 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal. Prolifération Proliferation Apoptose Apoptosis Mésenchyme métaphrique Metanephric mesenchyme Épithélium Epithelium B-caténine B-catenin
85	Cell-Cell Junction Signaling Regulating DNA Double-Strand Break Repair In Breast Cells ETHIRAJ, SINDUJA 01 January 2010 (has links) Genomic instability and acquisition of invasiveness through the basement membrane extracellular matrix (ECM) are two major processes for epithelial cell malignancy in breast cancer. DNA double-strand break repair (DSBR) is one of the processes that get misregulated during breast cancer progression. In addition, radiation induced breaks such as those induced during radiation therapy to treat breast cancer patients are repaired by DSBR, rendering this pathway relevant for therapy as well. DSBR can occur either by homologous recombination (HR) or non-homologous end-joining (NHEJ). HR is accepted as the more error-free pathway. HR is regulated by the cell cycle status such that an increase is observed in G2/M, whereas NHEJ is observed throughout the cell cycle. Previous data show that ECM signaling regulates HR, as well as the kinetics of ionizing radiation (IR) induced complex formation at break sites, or foci kinetics. Both human breast epithelial cell lines and primary mouse mammary epithelial cells were used to show that the ECM receptor β1-integrin is necessary and sufficient in down regulating HR, as well as IR induced foci formation kinetics for the DSBR proteins RAD51, MRE11, and γ-H2AX in single mammary epithelial cells. RAD51 is required for most HR, whereas MRE11 and γ-H2AX function in HR as well as DNA damage signaling. Interestingly, ECM signaling up-regulates HR in cells that have “correct” in vivo-like cell-cell junctions. Based on the observation that single cells and junctioned cells respond to ECM in exact opposite manner, I hypothesized that ECM signaling may interact with cell-cell junction signaling pathways in regulating DNA repair. To test this hypothesis, I asked whether the main breast epithelial adherens junction cadherin, E-cadherin, is involved. I blocked E-cadherin function using a monoclonal antibody MB2. The function blocking was demonstrated by the loss of cell-cell junction interactions and observation of increased cell scattering using phase microscopy. I then asked whether blocking E-cadherin altered the expression and localization of proteins related to DNA repair. Indirect immuno-fluorescence showed that in the E-cadherin blocked non-tumorigenic breast epithelial cell line HMT-3522 S1 there is an up-regulation of nuclear γ-H2AX and RAD51, as well as an increase in the proliferation marker Ki67. In non-proliferative MB2 blocked cells there is an upregulation of γ-H2AX and reduced Ki67. Furthermore, in these proliferative and non-proliferative blocked cells we were able to see lower levels of β-catenin near the cell membrane and an increase in its levels inside the cell especially in the nucleus. The latter has been confirmed also by western blot technique comparing the nuclear and cytoplasmic fraction expression. In addition, western blots showed that total RAD51 level was down-regulated by E-cadherin blocking and γ-H2AX levels were found to be higher in proliferative and non-proliferative MB2 treated cells. MB2 treated cells have a higher frequency of HR in the absence of ECM and in the presence of ECM, MB2 blocking abolishes the ECM effect on HR. Furthermore, in the absence of ECM, RAD51 siRNA treated cells down-regulated HR but the absence of RAD51 did not down regulate HR in the presence of ECM. I was not able to see any difference in the phosphorylated forms of β-catenin such as Tyr-142, Ser-45 and Tyr-86 that has the ability to enter into the nucleus. Therefore, E-cadherin was found to block nuclear β-catenin, RAD51 and γ-H2AX in a proliferation-independent manner. E-cadherin also was necessary for ECM to up-regulate HR. The up-regulation of HR by ECM was only slightly dependent on RAD51 suggesting a novel E-cadherin-dependent and RAD51-independent HR component in breast epithelial cells in contact with ECM as they are in vivo in the normal breast tissue. These experiments will help us to understand the role of E-cadherin and β-catenin in DNA double-stand break repair directly, as well as in combination with ECM signaling. Both alterations in integrin mediated signaling and cell-cell junction integrity contribute to breast cancer progression by rendering breast epithelial cells more invasive. My project will shed light on whether these invasive processes also alter DNA repair and contribute to genome stability. Understanding of the interrelationships among integrin signaling, cell-cell junctions, and genome stability will contribute to understanding normal breast cell processes and open up investigations on how these may go awry in cancer progression. E-cadherin Breast Cancer beta-catenin DNA repair Life Sciences
86	Characterizing the Oncogenic Properties of C-terminal Binding Protein Sumner, Evan T 01 January 2016 (has links) The paralogous C-terminal binding proteins (CtBP) 1 and 2 are evolutionarily conserved transcriptional coregulators that target and disrupt the expression of several genes essential for multiple cellular processes critical to regulating tumor formation. CtBP’s ability to govern the transcription of genes necessary for apoptosis, tumor suppression, invasion/migration and EMT gives rise to its oncogenic activities. Both isoforms of CtBP are found to be overexpressed in cancers including colorectal, pancreatic, ovarian, and breast, with higher levels correlating to lower overall median survival. Although multiple lines of evidence suggest CtBP plays a role in tumorigenesis, it has never been formally characterized as an oncogene. For this reason, the goal of this dissertation was to design a set of experiments to determine the transforming ability of CtBP2 in vitro using both murine and human fibroblast and in vivo using the Apcmin/+ mouse model of cancer. Specifically, we demonstrate that overexpression of CtBP2 alone can drive transformation of NIH3T3 cells leading to loss of contact inhibition, increased x invasion/migration, and anchorage independent growth. In addition, CtBP2 was found to cooperate with the large T-antigen (LT) component of the simian virus 40 (SV40) to lead to transformation of murine embryonic fibroblasts (MEFs) and with both LT and small T-antigen (ST) to induce migration/invasion and anchorage-independent growth in BJ human foreskin fibroblasts. To confirm the role of Ctbp2 in a mouse tumor model with Ctbp overexpression, we bred Apcmin/+ mice to Ctbp2 heterozygous (Ctbp2+/-) mice, which otherwise live normal lifespans. CtBP is a known target of the APC tumor suppressor and is thus stabilized in APC mutated human colon cancers and is found in high levels in Apcmin/+ polyps. Remarkably, removing an allele of Ctbp2 doubled the median survival of Apcmin/+ mice (P <0.001) and reduced polyp formation to near undetectable levels. These data suggest the importance of CtBP2 in driving cellular transformation and identify it as a potential target for prevention or therapy in APC mutant backgrounds. Cancer Biology Molecular Genetics Oncology Translational Medical Research
87	Dôkaz somatických mutácií významných pre neuroektodermálne nádory (CTNNB1, BRAF, ALK) / Verification of somatic mutations important for neuroectodermal tumors (CTNNB1, BRAF, ALK) Hrindová, Božidara January 2015 (has links) The diploma thesis was focused on evidence of selected somatic mutations in genes ALK (Anaplastic lymphoma receptor tyrosine kinase), BRAF (v-Raf murine sarcoma viral oncogene homolog B1) and β-catenin (CTNNB1) through molecular - genetic methods in the target group of neuroectodermal tumors (neuroblastoma, medulloblastoma, brain tumors, paraganglioma and pheochromocytoma). Some of them are already considered as prognostic indicators which help to identify the subtype of various tumors and on the basis of this molecular - biological classification choosing the appropriate treatment. The genetic material of 133 patients was used for the analysis divided by the type of cancer. The presence of the mutation was detected in seven cases, of which two of them beloged to the gene BRAF, one to the gene ALK and four to the gene β-catenin. The subject of research in the cases of this genes were hotspot mutation sites. The purpose was to confirm the presence of the mutation in the hotspots and contribute to the studies which are aimed at the introduction of more suitable treatment through the inhibitors of mutated genes. Keywords: ALK, BRAF, β-catenin (CTNNB1), neuroectodermal tumors, sequencing, MLPA
88	The actin cytoskeleton and the nuclear translocation of β-catenin in human oesophageal squamous carcinoma cell lines Dahan, Yael-Leah 16 November 2006 (has links) Student Number : 9906751K - MSc dissertation - School of Molecular and Cell Biology - Faculty of Science / In addition to its crucial role in cell adhesion, β-catenin is also known to augment gene expression by forming a complex with lymphoid enhancer factor/T-cell factor in the nucleus. Unregulated β-catenin expression and/or its increased nuclear presence can lead to abnormal cell proliferation, tumour invasion and metastasis. Pertinent is the fact that the actin cytoskeleton is central to the translocation of several nuclear proteins. This study investigated whether the actin cytoskeleton influences the nuclear translocation of β-catenin in human oesophageal squamous cell carcinoma (HOSCC), a metastatic disease of common occurrence in South Africa. Disruption of the actin cytoskeleton of five moderately differentiated HOSCC cell lines, with cytochalasin D (cytoD), showed that the nuclear β-catenin level was unaltered in SNO, WHCO1 and WHCO5, but decreased in WHCO3 and WHCO6. CytoD treatment did not affect the cytoplasmic/membrane β-catenin level in these cell lines. Further examination of the possible association between the actin cytoskeleton and nuclear β-catenin translocation, required the design and stable transfection, of a vector containing full-length human β-catenin cDNA into one of the HOSCC lines. Stimulation of exogenous β-catenin expression in transfected WHCO1 cells did not increase cellular β-catenin level, nor did the stimulation of endogenous β-catenin expression with DMSO. In most cases (SNO, WHCO1 and WHCO5) the nuclear distribution of β-catenin in HOSCC is independent of a functional actin cytoskeleton, nonetheless there are some exceptions (WHCO3 and WHCO6). The observed variation within the HOSCC lines is possibly due to specific underlying event/s particular to the cell line. The stable level of β-catenin expression could be a consequence of regulatory pathways in WHCO1 compensating for the induced imbalance of β-catenin expression. β-catenin actin cytoskeleton nuclear translocation oesphageal squamous carcinoma cell lines
89	Expressão imuno-histoquímica da beta-catenina, p-Akt, CD44 e vimentina nos ameloblastomas / Expression immunohistochemistry of beta-catenin, p-Akt, CD44 and vimentin in ameloblastomas Pulino, Bianca de Fatima Borim 12 September 2013 (has links) O ameloblastoma é definido como um tumor odontogênico epitelial de crescimento lento e localmente invasivo, que acomete os maxilares com alta taxa de recorrência quando não removido adequadamente. Este trabalho tem por objetivo estudar as expressões imuno-histoquímicas das proteínas -catenina, p-Akt, CD44 e vimentina em ameloblastomas. Para este estudo foram selecionados 40 casos de ameloblastoma, pertencentes aos arquivos do Serviço de Patologia da Disciplina de Patologia Bucal da FOUSP. Para a realização das reações imuno-histoquímicas foi utilizada a técnica da estreptavidina-biotina e os cortes submetidos aos anticorpos anti--catenina, anti-pAkt, anti-CD44 e anti-vimentina separadamente. O padrão de marcação celular da -catenina nos ameloblastomas foi: marcação citoplasmática, nuclear e de membrana em 33 (82,5%) casos, marcação citoplasmática e de membrana em 7 (17,5%) casos; quanto à sua localização, em 21 (52,5%) casos marcações central e periférica, em 15 (37,5%) casos observou-se marcação central, em, 4 (10%) marcação periférica. Com relação à proteína p-AKT em 36 (90%) casos o padrão de marcação celular foi citoplasmático, sendo em 4 (10%) casos evidenciado o padrão citoplasmático e nuclear. De todos os casos analisados quanto a localização da marcação do p-AKT, 23 (57,5%) casos com marcação nas áreas central e periférica e 17 (42,5%) apresentaram marcação periférica. Nenhuma das lâminas estudadas apresentou marcação exclusiva em áreas centrais da lesão. Para a proteína CD44, 27 (67,5%) casos dos ameloblastomas estudados apresentou marcações citoplasmática e de membrana, enquanto 13 (32,5%) casos mostraram apenas marcações citoplasmáticas. No que diz respeito a localização, 28 (70%) casos apresentaram marcações centrais e periféricas concomitantes, 11 (27 %) casos marcações centrais, e 1 (2,5%) caso marcação periférica. 37 (92,5%) dos casos incluídos nesta pesquisa apresentou marcação citoplasmática para vimentina, sendo 3 (7,5%) casos negativos para a proteína. Dentre os casos com positividade, 22 (55%) referiram-se à região central 14 (7,5%) para as regiões central e periférica , e 1 (2,5%) caso para a região periférica. De acordo com os resultados obtidos, acredita-se que as áreas central e periféricas do tumor possuem células responsáveis pela proliferação e invasividade do tumor, assim como a presença de células tronco responsáveis pela invasividade do tumor, também estão presentes nessas áreas. / The ameloblastoma is defined as an epithelial odontogenic tumor of slow growth, and locally invasive, affecting the jaws with a high rate of recurrence if not removed properly. This study aims to study the immunohistochemical expression of the protein -catenin, p-Akt, CD44 and vimentin in ameloblastomas. For this study we selected 40 cases of ameloblastoma, from the archives of the Pathology of Oral Pathology FOUSP. To carry out the reactions immunohistochemical technique was used streptavidin-biotin and cuts subjected to anti--catenin, anti-pAkt, anti-CD44 and antivimentin separately. The pattern of cell labeling of -catenin in ameloblastomas was: cytoplasmic, nuclear and membrane in 33 (82.5%) cases, cytoplasmic membrane in 7 (17.5%) cases, as regards its location in 21 (52.5%) cases markings central and peripheral in 15 (37.5%) cases observed central marking in, 4 (10%) peripheral marking. With respect to the p-AKT protein in 36 (90%) cases, the staining pattern was cytoplasmic cell, and 4 (10%) patients demonstrated the nuclear and cytoplasmic pattern. In all cases analyzed as marking the location of the p-AKT, 23 (57.5%) cases with marking the central and peripheral areas and 17 (42.5%) had peripheral marking. None of the studied thin sections show labeling exclusively in the central areas of the lesion. For protein CD44, 27 (67.5%) cases of ameloblastomas studied showed markings and cytoplasmic membrane, while 13 (32.5%) cases showed only cytoplasmic markings. Regarding localization, 28 (70%) presented concomitant central and peripheral markings, 11 (27%) patients central markings, and 1 (2.5%), peripheral marking case. 37 (92.5%) of the cases included in this study showed cytoplasmic staining for vimentin, and 3 (7.5%) cases negative for protein. Among the positive cases, 22 (55%) referred to the central 14 (7.5%) for the central and peripheral, and 1 (2.5%) case for the peripheral region. According to the obtained results, it is believed that central and peripheral areas of the tumor cells have responsible for the proliferation and invasiveness of the tumor, as well as the presence of stem cells responsible for tumor invasiveness, are also present in these areas. Ameloblastoma Ameloblastoma beta-Catenin beta-Catenina Cell proliferation Immunohistochemistry Imuno-histoquímica Proliferação de células
90	Rôle de Dicer dans la pigmentation et sa régulation par les UVB dans le lignage mélanocytaire / Role of Dicer in pigmentation and its regulation by UVB in the melanocyte lineage Bertrand, Juliette 20 September 2017 (has links) Les mélanocytes, cellules responsables de la pigmentation de la peau et des poils, protègent les cellules des stress environnementaux, en particulier des rayonnements ultra-violets (UV) présents à la surface de la Terre. Les UV induisent des dommages moléculaires et régulent de nombreuses voies de signalisation en aval de MC1R, MAPK, PI3K, ou PKC. A court terme, les UV peuvent induire la mélanogenèse et à long terme participent à la mélanomagenèse. Dicer, protéine clef de la maturation des microARN, est régulée par différents stress. La protéine multifonctionnelle β-caténine est impliquée dans le développement des mélanocytes. Ces deux protéines participent à la régulation fine de l'expression génique. L'objectif de cette thèse est de mettre en évidence le rôle et la régulation de Dicer dans le lignage mélanocytaire dans des conditions normales et de stress (UVB). Dans une première partie, nous nous sommes intéressés au rôle de Dicer dans la pigmentation et sa régulation dans le lignage mélanocytaire. Nous avons montré, in vivo dans un modèle murin, que Dicer est nécessaire à la fois à la mise en place du lignage mélanocytaire et au fonctionnement de ce lignage chez l'adulte. L'absence de Dicer dans le lignage mélanocytaire affecte la localisation des mélanocytes de la papille dermique du follicule pileux et empêche la pigmentation du poil. In vitro, la transcription de Dicer est régulée par différentes voies, en particulier par les protéines PI3K, RSK, GSK3β et β-caténine. L'activité répressive de β-caténine sur la transcription de Dicer est dépendante de sites LEF/TCF. Dans une deuxième partie, nous nous sommes intéressés à l'implication de Dicer, en relation avec β-caténine, dans la réponse aux UVB. Nous avons mis en évidence in vivo et in vitro la relocalisation nucléaire et l'activation transcriptionnelle de β-caténine induites par les UV. Tout comme β-caténine, les UVB répriment la migration des mélanocytes in vitro. Nous avons montré in vitro que les UVB répriment l'expression de Dicer et que cette répression est dépendante de sites de fixation de facteurs de transcription, dont LEF/TCF, présents dans la région promotrice de Dicer. Une diminution de Dicer participe à la protection des mélanocytes contre les UVB. Ce travail de thèse a donc permis de montrer le rôle de Dicer dans la pigmentation adulte et de mettre en évidence des voies de régulation de l'expression de Dicer dans les mélanocytes non stressés et dans les mélanocytes soumis à un stress UVB. / Melanocytes, cells responsible for pigmentation of the skin and hair, protect cells from environmental stress, especially ultra-violet radiations (UV) present on Earth floor. UV induce molecular damages and regulate many signaling pathways downstream of MC1R, MAPK, PI3K, or PKC. In the short term, UV can increase melanogenesis and in the long term, participate in melanomagenesis. Dicer, a key protein involved in microRNA maturation, is regulated by different types of stress. The multifunctional protein β-catenin is implicated in melanocyte development. These two proteins participate in fine regulation of gene expression. The goal of this thesis is to highlight the role and regulation of Dicer in the melanocyte lineage in normal and UVB stress conditions. In the first part, we focused on the role of Dicer in pigmentation and its regulation in the melanocyte lineage. We showed that, in a mouse model in vivo, Dicer is necessary for both establishment of melanocyte lineage and proper function of this lineage in adults. The lack of Dicer in the melanocyte lineage affects localization of melanocytes in the dermal papilla of hair follicles, preventing hair pigmentation. In vitro, Dicer transcription is regulated by different pathways, including PI3K, RSK, GSK3β and β-catenin. LEF/TCF sites mediate the repressive activity of β-catenin on Dicer transcription. In the second part, we focused on the implication of Dicer, in connection with β-catenin, in the response to UVB by melanocytes. We showed the nuclear relocalization and transcriptional activation of β-catenin induced by UV both in vivo and in vitro. Like β-catenin, UVB represses melanocyte migration in vitro. We showed in vitro that UVB represses Dicer expression and that this repression is dependent on transcription factors binding sites in the Dicer promoter region including LEF/TCF. Decreased level of Dicer participates in protection of melanocytes against UVB. This thesis work allowed us to show the role of Dicer in adult pigmentation and to highlight signaling pathways implicated in Dicer expression regulation in non-stressed melanocytes and in UVB-stressed melanocytes. Mélanocyte Pigmentation UVB Β-caténine Dicer Melanocyte Pigmentation UVB Β-catenin Dicer 616.989

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