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81	Implication de l'oncogène STAT3 dans la réponse aux traitements de chimiothérapies : Application au cancer colorectal Courapied, Sandy 24 November 2010 (has links) (PDF) Les facteurs de transcription STAT3 sont activés et impliqués dans le développement tumoral par leurs effets sur la prolifération et la survie cellulaire. Lorsque STAT3 est phosphorylé sur la tyrosine 705, il semble impliqué dans la transformation cellulaire et dans l'échappement aux traitements classiques de chimiothérapie. Un second site de phosphorylation sur la sérine 727 a été décrit mais son implication dans la régulation de l'activité de STAT3 en réponse aux traitements a été peu étudiée. Nous nous sommes donc intéressés au rôle de la phosphorylation de la sérine 727 de STAT3 dans la réponse de lignées cellulaires colorectales aux agents génotoxiques et plus particulièrement aux inhibiteurs de topoisomérases de type I. Le traitement entraine une perte de la transcription de la cycline D1 et de myc, gènes cibles de STAT3 phosphorylée sur tyrosine 705 et une activation de la kinase cdk5. Cette dernière va phosphoryler STAT3 sur son résidu sérine 727 ce qui va lui permettre de se fixer sur le promoteur du gène de la protéine de réparation Eme1, pour activer sa transcription. Ceci permet la réparation des dommages de l'ADN induits par le Sn38 et entraine une diminution de la sensibilité au traitement. D'autre part, l'inhibition des topoisomérases entraine une perte de la protéine myc normalement liée au promoteur d'Aurora A en phase G2/M et qui, associée au recrutement des répresseurs mad et miz aboutit à l'inhibition de la transcription de la kinase Aurora A. Une inhibition de la séparation des centrosomes est alors observée et entraine un arrêt en phase G2/M. En plus de la régulation de l'activité transcriptionnelle de STAT3 phosphorylée sur la sérine, nous nous sommes intéressés aux partenaires protéiques du facteur de transcription en réponse à sa phosphorylation. Par l'intermédiaire de la technique du double hybride et de la spectrométrie de masse, nous avons pu mettre en évidence deux nouveaux partenaires potentiels de STAT3. D'abord DDB2, protéine impliquée dans l'entrée en sénescence et dans la méthylation de l'ADN. Puis, ASPP2, une protéine qui confère à p53 une meilleure affinité de fixation à certains de ses promoteurs. Nous pensons que la phosphorylation de STAT3 sur la sérine 727 pourrait être impliquée dans l'induction de la sénescence et dans la réparation des dommages de l'ADN et que la cellule tumorale détournerait ces processus de protection pour réparer son ADN afin de résister au traitement. Les cellules pourraient alors proliférer avec un matériel génétique abimé, ce qui rendrait ces cellules instables sur le plan génomique. La détection de cette phosphorylation de STAT3 pourrait etre utilisée comme un marqueur de résistance aux inhibiteurs de topoisomérase. Ceci pourrait ainsi permettre de mieux prédire la réponse des patients à ce traitement. [SDV:BC] Life Sciences/Cellular Biology STAT3 cdk5 c-myc Aurora A régulation transcriptionnelle stress génotoxique inhibiteur des topoisomérases dommages de l'ADN résistance aux traitements
82	Instabilidade genômica em neoplasias malignas da mama em função da concentração de alumínio intracelular : Genomic instability association with intracellular aluminum concentration in breast tumors / Genomic instability association with intracellular aluminum concentration in breast tumors Peres, Raquel Mary Rodrigues, 1983- 30 July 2013 (has links) Orientador: Luis Otavio Zanatta Sarian / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-11-07T13:37:40Z (GMT). No. of bitstreams: 1 Peres_RaquelMaryRodrigues_D.pdf: 3497486 bytes, checksum: c509c5d08807f1a5bcd1b918eaf7d09d (MD5) Previous issue date: 2013 / Resumo: Introdução: A hipótese de que os efeitos do alumínio em células humanas podem ter implicações clínicas tem sido levantada há algum tempo, especialmente no que concerne ao câncer de mama. As evidências laboratoriais mostrando altos níveis de alumínio nos tecidos da mama e os efeitos biológicos conhecidos sobre esse metal não são suficientes para estabelecer uma relação causal entre a exposição ao alumínio e o risco aumentando para o desenvolvimento do câncer de mama. O objetivo deste estudo foi estabelecer a concentração de alumínio nas áreas centrais e periféricas de tumores de mama, assim como na área glandular normal da mama e correlacionar esses achados com a instabilidade dos genes ERBB2, C-MYC e CCND1 e a aneuploidia dos cromossomos que contêm estes genes. Métodos: Para este estudo foram incluídas 176 mulheres com diagnóstico de carcinoma invasor de mama, com tumores maiores de 1cm3, sem quimioterapia neoadjuvante, operadas enter 2008 e 2010 no Hospital da Mulher Prof. Dr. José Aristodemo Pinotti - Centro de Atenção Integral à Saúde da Mulher (CAISM) - UNICAMP. Para a análise da concentração de alumínio intracelular, amostras de 150 pacientes foram consideradas viáveis; para a análise da instabilidade genômica em função da concentração de alumínio, 118 amostras foram consideradas viáveis, definindo o espaço amostral de cada um dos artigos apresentados. As amostras das áreas centrais e periféricas dos tumores de mama e das áreas glandulares normais da mama foram obtidas. A quantificação do alumínio contido nos tecidos da mama foi feita através da técnica de Espectrometria de Absorção Atômica em Forno de Grafite (GFAAS). Uma lâmina de Tissue Microarray (TMA), contendo as amostras de tumor e tecido normal foi utilizado para a realização da técnica de FISH para acessar o status dos genes ERBB2, C-MYC e CCND1 e dos centrômeros dos seus respectivos cromossomos 17, 8 e 11. Os dados clínico-patológicos foram obtidos dos prontuários de pacientes. Resultados: A média da concentração de alumínio encontrada na mama foi de 1,88 mg/kg nas áreas centrais do tumor, 2,10mg/kg nas áreas periféricas do tumor e 1,68mg/kg nas áreas de tecido glandular normal. A amplificação e/ou aneuploidia para ERBB2/CEP17, C-MYC/CEP8 e CCND1/CEP11 foi encontrada em 24%, 36,7% e 29,3% dos tumores, respectivamente. A média da concentração de alumínio nas áreas tumorais (tanto centrais quanto periféricas) não foi significativamente diferente daquela nas áreas de tecido normal. A concentração de alumínio também não foi significativamente associada a nenhum status de amplificação e/ou aneuploidia para os genes/cromossomos em questão. Conclusões: Consideramos importante que estudos experimentais in vitro continuem sendo realizados para elucidar os possíveis efeitos do alumínio nos tumores de mama, quer sejam esses efeitos relacionados ao microambiente tecidual ou mesmo a outras vias de estabilidade genômica / Abstract: Introduction: It has long been hypothesized if the effects of aluminum on human cells may have clinical implications, especially regarding to breast cancer. The current laboratorial evidence showing higher levels of aluminum in breast tissues and the known biological effects of this metal, are not sufficient to establish a causal relationship between aluminum exposure and increased risk of developing breast cancer. The objective of this study was to establish the aluminum concentration in the central and peripheral areas of breast tumors as well as in normal glandular area of the breast and to correlate these findings with the instability of ERBB2, C-MYC and CCND1, and aneuploidy of chromosomes harboring these genes. Methods: This study included 176 women diagnosed with invasive breast carcinoma with tumors larger than 1cm3 without neoadjuvant chemotherapy, operated between 2008 and 2010 at the Women's Hospital Professor. Dr. José Aristodemo Pinotti - Centro de Atenção Integral à Saúde da Mulher (CAISM) - UNICAMP. To analyze the intracellular concentration of aluminum, samples from 150 patients were considered viable; for the analysis of genomic instability as a function of the concentration of aluminum, 118 samples were considered viable. These figures define the sample of each of the two articles that this PhD thesis comprises. Evaluation of tissue aluminum content was carried out using Graphite Furnace Atomic Absorption Spectrometry (GFAAS). A TMA slide containing the tumor and normal samples was used in FISH assays to assess ERBB2, C-MYC and CCND1 and the respective chromosomes 17, 8 and 11 centromeres status. Clinicopathological data were obtained from patients' records. Results: The average aluminum content found in breast was 1.88 mg/kg in the central tumor areas, 2.10 mg/ kg in the peripheral tumor areas and 1.68 mg/ kg in the normal tissue areas. The amplification and/or aneuploid status for the ERBB2/CEP17, C-MYC/CEP8 and CCND1/CEP11 was detected in 24%, 36.7% and 29.3% of the tumors, respectively. The average aluminum content in tumor areas (either central or peripheral) was not significantly different from that in normal tissues. We found that aluminum concentration was not related to any of the gene status. Conclusions: We consider important that in vitro experimental studies continue to be done in order to elucidate the possible effects of aluminum in the development of breast tumors, whether it is influencing the tissue microenvironment or other genome stability pathways / Doutorado / Oncologia Ginecológica e Mamária / Doutora em Ciências da Saúde Neoplasias da mama Alumínio Genes erbB-2 Genes myc Ciclina D1 Breast neoplasms Aluminum ErbB-2 gene C-myc gene Cyclin D1
83	La kinase Aurora A comme nouvelle cible des agents chimiothérapeutiques Application aux traitements des cancers colorectaux Cherier, Julia 25 April 2008 (has links) (PDF) L'entrée des cellules en mitose se caractérise par l'augmentation d'expression de la kinase Aurora A. Nous avons caractérisé l'effet du sn38, métabolite actif de l'irinotecan utilisé dans le traitement du cancer colorectal sur l'expression de cette kinase. En absence de traitement, le facteur de transcription c-myc se lie au promoteur d'Aurora A et l'active. Cependant, le traitement des cellules avec du sn38 induit l'inhibition de c-myc et son absence du promoteur d'Aurora A s'accompagnant de l'induction du processus de sénescence. Nous avons également étudié l'effet de l'oncogène Ras sur la kinase Aurora A. Cet oncogène induit une diminution d'expression d'Aurora A par une modulation de l'activité des cofacteurs transcriptionnels de c-myc. En résumé, nos résultats indiquent qu' Aurora A est une cible des traitements de chimiothérapie et des mécanismes de contrôles oncogéniques. Le blocage de son expression constitue certainement une protection contre le développement tumoral. [SDV:BC] Life Sciences/Cellular Biology Aurora A c-myc dommages de l'ADN régulation transcriptionnelle résistance aux traitements
84	Molecular Genetic Studies of Sporadic and MEN1-Associated Endocrine Pancreatic Tumors Lindberg, Daniel January 2007 (has links) <p>Pancreatic endocrine tumors (PETs) may cause typical syndromes of hormone excess, or appear clinically non-functioning without hormonal symptoms. PETs occur sporadically, in association with the multiple endocrine neoplasia type 1 (MEN1) syndrome, or rarely the von Hippel-Lindau syndrome. Molecular genetic investigations may reveal pathways important for tumor development, and be of clinical use.</p><p>The aim of this thesis was to investigate regulation of different genes involved in cell proliferation, and relate findings to signs of malignancy in PETs.</p><p>The MEN1 gene on chromosome 11q13 was mutated in three out of eleven sporadic malignant PETs. Two nonsense mutations, causing truncation of the protein, and one missense mutation were found.</p><p>Relation of allelic loss at 11q13 and 3p25 to malignant behavior was observed in sporadic PETs. Allelic loss at 18q21 was found in a subset of sporadic and MEN1-associated PETs, and mutation analysis of Smad4 excluded a tumor suppressor gene function.</p><p>In PETs with allelic loss on chromosome 3p25, mutation analysis of WNT7A and HDAC11 excluded function as tumor suppressor genes.</p><p>Menin, encoded by the MEN1 gene, was reported to regulate expression of the cyclin-dependent kinase inhibitors CDKN2C/p18, CDKN1B/p27, and CDKN2B/p15 in mouse pancreatic islet tumor models. Here, the mRNA expression of these genes was not related to MEN1 gene mutations in human PETs.</p><p>Cyclin-dependent kinase 4 (CDK4) and the protooncogene c-Myc were found to be overexpressed regardless of MEN1 gene mutational status of the PETs. The CDK4 gene was neither amplified nor mutated. Targeting of CDK4 may present an alternative to traditional chemotherapy of PETs in the future.</p> Surgery pancreatic endocrine tumor MEN1 LOH WNT7A HDAC11 CDK4 CDKN2B/p15 CDKN1B/p27 CDKN2C/p18 c-Myc Smad4 pyrosequencing epigenetic methylation tumor suppressor Kirurgi
85	Molecular Genetic Studies of Sporadic and MEN1-Associated Endocrine Pancreatic Tumors Lindberg, Daniel January 2007 (has links) Pancreatic endocrine tumors (PETs) may cause typical syndromes of hormone excess, or appear clinically non-functioning without hormonal symptoms. PETs occur sporadically, in association with the multiple endocrine neoplasia type 1 (MEN1) syndrome, or rarely the von Hippel-Lindau syndrome. Molecular genetic investigations may reveal pathways important for tumor development, and be of clinical use. The aim of this thesis was to investigate regulation of different genes involved in cell proliferation, and relate findings to signs of malignancy in PETs. The MEN1 gene on chromosome 11q13 was mutated in three out of eleven sporadic malignant PETs. Two nonsense mutations, causing truncation of the protein, and one missense mutation were found. Relation of allelic loss at 11q13 and 3p25 to malignant behavior was observed in sporadic PETs. Allelic loss at 18q21 was found in a subset of sporadic and MEN1-associated PETs, and mutation analysis of Smad4 excluded a tumor suppressor gene function. In PETs with allelic loss on chromosome 3p25, mutation analysis of WNT7A and HDAC11 excluded function as tumor suppressor genes. Menin, encoded by the MEN1 gene, was reported to regulate expression of the cyclin-dependent kinase inhibitors CDKN2C/p18, CDKN1B/p27, and CDKN2B/p15 in mouse pancreatic islet tumor models. Here, the mRNA expression of these genes was not related to MEN1 gene mutations in human PETs. Cyclin-dependent kinase 4 (CDK4) and the protooncogene c-Myc were found to be overexpressed regardless of MEN1 gene mutational status of the PETs. The CDK4 gene was neither amplified nor mutated. Targeting of CDK4 may present an alternative to traditional chemotherapy of PETs in the future. Surgery pancreatic endocrine tumor MEN1 LOH WNT7A HDAC11 CDK4 CDKN2B/p15 CDKN1B/p27 CDKN2C/p18 c-Myc Smad4 pyrosequencing epigenetic methylation tumor suppressor Kirurgi
86	The Role of Rankl in Prostate Cancer Progression and Bone Metastasis Chu, Chia-Yi 06 December 2011 (has links) This study focused on the role of RANKL in prostate cancer EMT progression and metastasis. Activation of RANK, a receptor activator of NF-kB, by its ligand RANKL, in a paracrine manner is responsible for osteoclast differentiation and bone remodeling. RANK activation in cancer cells, however, is thought to be promoted by both autocrine and paracrine mechanisms because RANKL has been shown to be derived from either tumor or its microenvironment, such as osteoblasts, infiltrating inflammatory cells and stromal fibroblasts. In the present study, we demonstrated that autocrine and paracrine RANKL-RANK signaling could be responsible for driving prostate cancer bone metastasis by promoting epithelial to mesenchymal transition (EMT). We further characterized a novel converging RANKL-c-Met signaling network in which the activation of RANKL was found to promote the expression of both RANKL and c-Met in an autocrine manner in prostate cancer cells. The induced RANKL and c-Met in prostate cancer cells is biologically functional and contributes to increased osteoclastogenesis, epithelial to mesenchymal transition (EMT), cell motility, migration and invasion and conferred bone and soft tissue metastases. Remarkably, RANKL expression by 1,000 prostate cancer cells can provoke bone and soft tissue metastases of a “dormant” population of prostate cancer cells which by themselves failed to form tumors and colonize mouse skeleton, suggesting RANKL can serve as a factor in “reawakening” cancer dormancy to initiate the re-growth and metastasis of cancer cells. We also showed that RANKL-induced RANKL feed-forward autocrine regulation is mediated through cMyc transactivation, allowing the establishment of a “vicious cycle” further promoting prostate cancer growth and metastasis. The converging RANKL-c-Met signaling network is therefore a novel target that could be further manipulated for delaying the lethal progression of castration-resistant human prostate cancer bone metastasis. Rankl Rank C-met C-myc Castration-resistant Epithelial to mesenchymal transition Osteoclast Prostate cancer Metastasis Bone metastasis Vicious cycle Cancer dormancy
87	Studies on the antiproliferative action of interferon : effects on proteins synthesized in the G1 and S phase of the cell cycle in 2 anchorage-dependent cell lines Lundblad, Dan January 1991 (has links) Interferons (IFNs) are a class of structurally related proteins first discovered to be produced by virus-infected cells. By now, several other inducing agents have been described. IFNs exert multiple effects on cells exemplified by the establishment of an antiviral state, inhibition of cell proliferation and alteration of different immune reactions. In the present thesis the inhibition of cellular growth concentrated on effects in the early cell cycle have been studied. The human glioma cell line 251 MG was found to be blocked in the S phase of the cell cycle upon addition of IFN both to exponentially growing and growth-factor depleted, synchronized cells. Thymidine kinase and DNA-polymerase activities were reduced in parallel with the S phase effect. 2-5 oligo Anucleotides transfected into glioma cells lead to inhibition of cell growth, exponentially growing cells being blocked in the S phase as during IFN treatment. In contrast, synchronized, restimulated cells were blocked in the cellcycle phase where they resided at the time of transfection. As 2-5 oligo A synthetase activity was induced in the middle of the Gl phase, these results might indicate that the kinetics of expression of oligonucleotides after IFN additiondetermines the type of cell cycle block obtained in differenttumor cells. IFN inhibited preferentially proteins originating from newly synthesized mRNA in Sw 3T3 cells, c-mvc did not seem to be included among these proteins. In both cell systems c-myc expression was unaltered after IFN treatment. In clone T1 selected from the the Sw 3T3 cell line , c-mvc expression was uncoupled to growth and seemed to be growth factor independent. The change in c-myc expression in clone T1 compared to SW 3T3 cells did not render the cells sensitive to IFN. Hence, c-myc regulation does not seem to be the mechanism by which IFN regulates cell growth in this system. The proliferation marker KI-67 antigen was shown not to be causatively involved in growth inhibition of IFN. The reduced levels of the antigen was proposed to be a secondary effect caused by the G0/G1 arrest. / <p>Diss. (sammanfattning) Umeå : Umeå universitet, 1991, härtill 6 uppsatser</p> / digitalisering@umu Interferon Glioma Antiproliferative effect DNA polymerase Thymidine kinase 2' -5' oligo A Protein synthesis Two-dimensional electrophorensis Mouse fibroblasts C-myc KI-67 antigen
88	Regulatory mechanisms of c-Myc and their role in Acute Myeloid Leukemia Uribesalgo Micàs, Iris 24 November 2010 (has links) The c-Myc transcription factor is a key player in cell homeostasis, being commonly deregulated in human carcinogenesis. In this PhD thesis we have addressed the question how regulatory mechanisms restrain the oncogenic activity of c-Myc and its impact on cell differentiation. In the first half, we report that PML promotes destabilization of c-Myc protein and re-activation of c-Myc-repressed target genes. The consequent re-expression of the cell cycle inhibitor CDKN1A/p21 mediates differentiation of leukemic cells. In the second half of the thesis we identified a novel mechanism of gene regulation by c-Myc, which is mediated through its interaction with DNA-bound RARα. In undifferentiated cells, c-Myc/Max dimers cooperate with RARα in the repression of genes required for differentiation. Upon phosphorylation of c-Myc by the previously identified Pak2, the complex switches from a repressive to an activating function by releasing Max and recruiting transcriptional coactivators. These findings add a new and at least partially Max-independent mechanism for transcriptional regulation by c-Myc and also discover an unexpected function of c-Myc in inhibiting and promoting cellular differentiation. Taken together, our results describe two new mechanisms that counteract the oncogenic activity of c-Myc. Both PML and Pak2 can be considered as tumor suppressors since they modulate c-Myc function in a way that ultimately promotes differentiation of leukemic cells. This knowledge provides the basis for novel approaches to be exploited for the development of c-Myc-targeted therapies. / El factor de transcripció c-Myc juga un paper clau en l’homeòstasi cel·lular, essent freqüentment desregulat en la carcinogènesi humana. En aquesta tesi s’ha estudiat com diferents mecanismes reguladors poden frenar l’activitat oncogènica de c-Myc i el subsegüent impacte en la diferenciació cel·lular. A la primera meitat de la tesi, es demostra que PML promou la desestabilització de la proteïna c-Myc i, en conseqüència, la reactivació dels genes diana reprimits per c-Myc. Entre aquests gens diana es troba l’inhibidor del cicle cel·lular CDKN1A/p21, la reexpressió del qual provoca la diferenciació de cèl·lules leucèmiques induïda per PML. En la segona meitat, s’identifica un nou mecanisme de regulació transcripcional per part de c-Myc a través de la interacció amb RARα, el qual està unit a l’ADN. En cèl·lules indiferenciades, els dimers c-Myc/Max cooperen amb RARα en la repressió de gens essencials per a la diferenciació. Un cop c-Myc és fosforil·lat per la kinasa Pak2, el complex de c-Myc amb RARα esdevé activador mitjançant la pèrdua de Max i el reclutament de coactivadors transcripcionals. Aquest descobriment suposa un nou mecanisme mitjançant el qual c-Myc pot exercicir la regulació gènica almenys en part independentment de Max, i també revela una funció desconeguda de c-Myc en la inhibició i promoció de la diferenciació cel·lular. En conjunt, aquests resultats descriuen dos nous mecanismes que contrarestren l’activitat oncogènica de c-Myc. PML i Pak2 poden ser considerats supressors de tumors ja que modulen la funció de c-Myc per a promoure la diferenciació de les cèl·lules leucèmiques. Aquests descobriments poden utilitzar-se com a base pel desenvolupament de noves teràpies anti-tumorals que tinguin com a diana la proteïna c-Myc. c-Myc Retinoic acid receptor alpha (RARα) Vitamin D p21-activated kinase 2 (Pak2) PML-RARα Retinoic acid Transducció de senyal Regulació gènica Diferenciació cel·lular Leucèmia Càncer 57
89	Molecular mechanisms of nuclear factor-erythroid-2 related factor 2 (Nrf2) regulation phosphorylation by casein kinase 2 (CK2) and interaction with proto-oncogene N-Myc in neuroblastoma cells / Apopa, Patrick L., January 2007 (has links) Thesis (Ph. D.)--West Virginia University, 2007. / Title from document title page. Document formatted into pages; contains vi, 130 p. : ill. (some col.). Includes abstract. Includes bibliographical references.
90	Myc and Mad target genes / James, Leonard Philip, January 2000 (has links) Thesis (Ph. D.)--University of Washington, 2000. / Vita. Includes bibliographical references (leaves 137-154).

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