Global ETD Search

81	"Prevalência da infecção pelo Papilomavírus Humano (HPV) em homens soropositivos para HIV e homens parceiros de mulheres com infecção pelo HPV" / Human papillomavirus (HPV) prevalence in seropositive men for HIV and men partners of women infected by HPV Silva, Roberto José Carvalho da 07 March 2006 (has links) O Papilomavírus humano (HPV) é provavelmente o agente mais prevalente das doenças sexualmente transmissíveis do trato genital.Este estudo foi realizado para comparar as prevalências de HPV nos 144 raspados penianos de homens HIV positivos e negativos.Utilizou PCR PGMY09/11 e hidridização em pontos. A prevalência de HPV nos indivíduos HIV positivo foi de 59% e no HIV negativo de 67%.A lesão aceto-branca pela peniscopia não demonstrou significativa positividade para HPV.Pacientes HIV positivo mostraram múltiplos tipos de HPV e os tipos oncogênicos (16/18) foram os de maior freqüência. Os HPV tipo 6/11 foram os mais freqüentes nos dois grupos. Observou-se maior prevalência de HPV nos HIV positivos com linfócitos T CD4 menor que 200 células/mm3. A carga viral plasmática do HIV não foi um fator de positividade para HPV / Genital tract human papillomaviruses (HPV) are probably the most prevalent sexually transmitted pathogens. This study is to compare HPV DNA prevalence in 144 penile smears, obtained from HIV positive and negative men. It was used PCR employing the PGMY09/11 generic HPV primers and dot blot hybridization. HPV prevalence was 59% in HIV positive men and 67% in HIV negative. Acetic white lesions by peniscopy did not show significant positive of HPV in neither HIV positive and negative groups. HIV positive men had more often multiple and oncogenic HPV types (16/18). HPV types 6/11 were more frequent in both groups. The HIV positive group with lower 200 T CD4 cell counts load reported more HPV prevalence. HIV load was not a positive factor for HPV Acquired immunodeficiency syndrome Carga viral CD4-Positive T-Lymphocytes Condiloma acuminado Condylomata acuminata HIV HIV Linfócitos t cd4-positivos Oncogenic viruses Papillomavirus human Papillomavírus humano Polymerase chain reaction Reação em cadeia da polimerase Síndrome de imunodeficiência adquirida Viral load Vírus oncogênicos
82	"Prevalência da infecção pelo Papilomavírus Humano (HPV) em homens soropositivos para HIV e homens parceiros de mulheres com infecção pelo HPV" / Human papillomavirus (HPV) prevalence in seropositive men for HIV and men partners of women infected by HPV Roberto José Carvalho da Silva 07 March 2006 (has links) O Papilomavírus humano (HPV) é provavelmente o agente mais prevalente das doenças sexualmente transmissíveis do trato genital.Este estudo foi realizado para comparar as prevalências de HPV nos 144 raspados penianos de homens HIV positivos e negativos.Utilizou PCR PGMY09/11 e hidridização em pontos. A prevalência de HPV nos indivíduos HIV positivo foi de 59% e no HIV negativo de 67%.A lesão aceto-branca pela peniscopia não demonstrou significativa positividade para HPV.Pacientes HIV positivo mostraram múltiplos tipos de HPV e os tipos oncogênicos (16/18) foram os de maior freqüência. Os HPV tipo 6/11 foram os mais freqüentes nos dois grupos. Observou-se maior prevalência de HPV nos HIV positivos com linfócitos T CD4 menor que 200 células/mm3. A carga viral plasmática do HIV não foi um fator de positividade para HPV / Genital tract human papillomaviruses (HPV) are probably the most prevalent sexually transmitted pathogens. This study is to compare HPV DNA prevalence in 144 penile smears, obtained from HIV positive and negative men. It was used PCR employing the PGMY09/11 generic HPV primers and dot blot hybridization. HPV prevalence was 59% in HIV positive men and 67% in HIV negative. Acetic white lesions by peniscopy did not show significant positive of HPV in neither HIV positive and negative groups. HIV positive men had more often multiple and oncogenic HPV types (16/18). HPV types 6/11 were more frequent in both groups. The HIV positive group with lower 200 T CD4 cell counts load reported more HPV prevalence. HIV load was not a positive factor for HPV Carga viral Condiloma acuminado HIV Linfócitos t cd4-positivos Papillomavírus humano Reação em cadeia da polimerase Síndrome de imunodeficiência adquirida Vírus oncogênicos Acquired immunodeficiency syndrome CD4-Positive T-Lymphocytes Condylomata acuminata HIV Oncogenic viruses Papillomavirus human Polymerase chain reaction Viral load
83	Cell type-dependent differential activation of ERK by oncogenic KRAS or BRAF in the mouse intestinal epithelium Brandt, Raphael 10 March 2023 (has links) Kolorektale Karzinome (CRC) zeigen eine heterogene Ätiologie. Die Progression prämaligner Vorläufer zu CRC unterscheidet (U) sich in Morphologie, molekularen Veränderungen und Interaktion mit der Tumorumgebung. CRC weisen oft onkogene Mutationen in KRAS und BRAF auf. Diese steigern die MAPK Signalwegaktivität (Mpa). Obwohl sie im selben Signalweg wirken, sind KRAS und BRAF auf die CRC-Entitäten U verteilt. Dabei ist KRAS häufiger im sogenannten konventionellen und BRAF im serratierten Weg zu CRC mutiert. In dieser Studie nutzte ich murine intestinale Organoide (iO), die induzierbare (Ind) KRAS oder BRAF Onkogene exprimieren. Große U zwischen KRAS und BRAF zeigten sich sowohl in Signaltransduktion (ST) als auch im Phänotyp. Phosphoprotein-, ERK-Reporter-, scRNA-Seq und EM-Analysen ergaben eine starke Mpa durch BRAF, die zu hoher Expression von MAPK-Zielgenen und Verlust der epithelialen Integrität führte. iO nach KRAS-Ind blieben intakt, korrelierend mit moderater, zelltypspezifischer (ZS) Mpa in sekretorischen und undifferenzierten Zellen. Die meisten Enterozyten waren Mpa-negativ. ERK-Reporter zeigten: Das ZS Muster der Mpa ist nicht nur gegenüber KRAS, sondern auch dem Entzug von Wachstumsfaktoren stabil. Dies spricht für eine intrinsische, robuste Regulierung der Mpa. BRAF-Ind Mpa setzte die ZS Regulierung der MAPK außer Kraft und schädigte das Gewebe, im Einklang mit einer oberen Grenze tolerabler Mpa. Die ZS Mpa wurde in CRC-Zelllinien bestätigt, deren Mpa durch KRAS aber nicht BRAF U ausfiel. Ferner, nutzte ich iO mit bCatenin+KRAS-Ind, um den konventionellen Weg zu CRC zu modellieren. Die Kombination führte zu synergistischen Effekten, die sich in EGFR-unabhängigem Wachstum und der Aufhebung der ZS Mpa-Blockade äußerten, die durch eine Verschiebung der Differenzierung zu mehr Progenitorzellen bewirkt wurde. Zusammenfassend konnte ich U in der Mpa durch KRAS oder BRAF im Darmepithel feststellen, was dazu beiträgt, deren Rollen in der CRC-Genese zu bestimmen. / Colorectal cancer (CRC) is a disease with heterogeneous etiology. Premalignant lesions follow distinct routes of progression to carcinoma reflected by differences in morphology, molecular alterations and the tumor environment. Mutant KRAS and BRAF are frequent, leading to MAPK pathway activation (Mpa), which is relevant for CRC therapy. Despite acting in the same pathway, mutant KRAS and BRAF segregate to different entities, as KRAS is more frequent in the conventional- and BRAF being specific for the serrated route to CRC. I used murine intestinal organoids (iO) expressing inducible oncogenic KRAS or BRAF to study the impact of oncogenes in primary cells. I found marked differences in signal transduction and phenotype. Phospho-protein, ERK-reporter, scRNA-seq and EM data showed strong Mpa upon BRAF induction followed by ERK-target gene expression leading to tissue disruption. In contrast, KRAS left the tissue intact resulting in less and cell type-dependent Mpa limited to secretory cells, a subset of late-stage enterocytes and undifferentiated crypt cells. Most enterocytes were irresponsive to KRAS. The pattern of Mpa was robust towards KRAS or growth factor depletion arguing in favor of intrinsic, resilient MAPK regulation. In iO, BRAF-induced Mpa could break this cell type-specific regulation, indicating an upper limit of tolerable Mpa. I validated these findings in CRC cell lines that differed in Mpa in response to oncogenic KRAS but not BRAF. Finally, I used iO expressing an inducible form of stabilized bCatenin in combination with KRAS to mimic events frequently found in the conventional pathway to CRC. Expression of KRAS and bCatenin synergized in driving EGFR independent growth and breaking the villus-specific block of Mpa by altering differentiation towards progenitor cell types. In summary, this study emphasizes differences between Mpa induced by oncogenic KRAS or BRAF which helps clarifying their nature in different etiological routes to CRC genesis. KRAS KRASG12V BRAF BRAFV600E EGFR EGF MAPK ERK FIRE Reporter MEK MAPKK MAPKKK beta-Catenin intestinale Organoidkultur intestinale Organoide Mausmodelle von Tumoren kolorektales Karzinom kolorektale Karzionome CRC Primärzellen Tumormodelle Onkogene oncogenes KRAS oncogenes BRAF onkogene Signaltransduktion 3D Modell matrigel R-spondin RSPO Noggin KRAS KRASG12V BRAF BRAFV600E EGFR EGF MAPK ERK FIRE reporter MEK MAPKK MAPKKK beta-Catenin intestinal organoid intestinal organoids intestinal organoid culture murine model of cancer colorectal carcinoma CRC primary tumor model oncogenes oncogenic KRAS oncogenic BRAF 3D model matrigel R-spondin RSPO Noggin 610 Medizin und Gesundheit ddc:610
84	Implication de MEK1 et MEK2 dans l'initiation et la progression du cancer colorectal Duhamel, Stéphanie 08 1900 (has links) Une dérégulation de la voie de signalisation Ras/Raf/MEK/ERK1/2 est observée dans plus de 30% des cancers et des mutations activatrices de RAS sont observées dans 30% à 50% des adénomes colorectaux. À la suite d’une analyse extensive de biopsies de tumeurs colorectales humaines par micromatrices tissulaires (TMA), nous avons observé que 44% des tissus cancéreux exprimaient MEK1/2 phosphorylés, contre 10% des tissus normaux. L'analyse des TMA a également révélé que 79% des tumeurs arboraient un marquage nucléaire de MEK1/2 phosphorylés, contre 4 % pour les tissus normaux. Bien que la voie MEK/ERK1/2 soit fréquemment activée dans les cancers, le rôle précis des isoformes de MEK1 et de MEK2 n'a jamais été clairement établie. De même, l'impact de cette localisation nucléaire aberrante de phospho-MEK1/2, dans l'initiation et la progression des cancers colorectaux, est inconnu. Lors d'un premier projet, nous avons démontré, que l’expression de MEK1 ou MEK2 activé est suffisante pour transformer in vitro des cellules intestinales épithéliales de rat (IEC-6). L'expression des mutants actifs de MEK1 ou MEK2 est suffisante pour induire une dérégulation de la prolifération cellulaire et engendrer la formation d'adénocarcinomes invasifs dans un modèle de greffe orthotopique du côlon chez la souris. Nous avons également démontré que l'inhibition de MEK2 par shRNA supprime complètement la prolifération des lignées humaines de cancer du côlon, alors que la suppression de MEK1 a peu d'effet sur la capacité de prolifération. Le deuxième projet, nous a permis d'observer que l'expression d'un mutant nucléaire de MEK1 dans les cellules IEC-6 transforme drastiquement les cellules. Une augmentation de prolifération, une résistance à l'anoikose, un dérèglement du cycle cellulaire, de l'instabilité chromosomique (CIN), de la tétra/aneuploïdie sont observés. La caractérisation des mécanismes responsables de cette localisation aberrante de MEK1/2 phosphorylés, a permis d'identifier la protéine Sef, un régulateur de la localisation cytoplasmique de MEK/ERK1/2. Nous avons démontré que l'expression d'une forme oncogénique de Ras (H-RasV12) inhibe l'expression de Sef, engendrant alors une accumulation nucléaire de MEK1/2 activés. Plus encore, la réexpression de Sef restaure la localisation cytoplasmique de MEK1/2 et renverse les propriétés tumorigéniques ainsi que l'aneuploïdie induite par Ras activé. Un troisième projet, visant la caractérisation des mécanismes associés à la CIN et à l'aneuploïde engendrés par l'activation aberrante de la voie de Ras-ERK1/2, a permis d'observer que l'hyperactivation de ERK1/2 induit des anomalies mitotiques menant à la binucléation. Une localisation erronée et une surexpression de la kinase Aurora A, de même que des protéines de passage du complexe chromosomique (CPC), Aurora B, Survivine et INCENP, sont observées. L'inhibition partielle de l'activation de ERK1/2 par de faible dose de PD184352, un inhibiteur de MEK1/2, est suffisante pour renverser la surexpression de ces régulateurs mitotiques, de même que corriger les anomalies de la mitose et réduire la tétra/aneuploïdie engendrée par Ras oncogénique. Ainsi, nous avons démontré, pour la première fois, que la voie des MAP kinases ERK1/2 est impliquée dans la CIN, la tétraploïdie et l'aneuploïdie. Nos résultats suggèrent que la perte de Sef est un événement oncogénique précoce, qui contribue à la localisation nucléaire aberrante de MEK1/2 qui est observée dans les tumeurs colorectales. Cette localisation anormale de MEK1/2 est associée à l'initiation de la transformation, la progression tumorale et la CIN, via l'activité soutenue de ERK1/2. Ces informations sont capitales et démontrent l’importance de la voie de signalisation Ras/Raf/MEK/ERK1/2 dans le processus de tumorigénèse colorectale. / The Ras-dependent Raf/MEK/ERK1/2 signaling pathway is frequently hyperactivated in human cancer as a result of receptor tyrosine kinase overexpression or gain-of-function mutations in RAS or RAF genes. More specificaly, activating mutation in RAS genes are found in ~ 30-50% of colorectal adenomas and phosphorylation of ERK1/2 is frequently observed in human colorectal cancer cells and tumor specimens. In a large TMA analysis, we found that MEK1/MEK2 are aberrantly activated in 44% of human colorectal cancers. In addition, our analysis revealed that 79% of colorectal cancers exhibit aberrant phospho-MEK1/2 staining in the nucleus, as compared to 4% of normal tissue. How dysregulation and mislocalization of MEK1/2 contribute to tumor initiation and progression is not well understood. In order to determine the exact contribution of MEK1 and MEK2 to the pathogenesis of colorectal cancer, wild type and constitutively active forms of MEK1 and MEK2 were ectopically expressed by retroviral gene transfer in the normal intestinal epithelial cell line IEC-6. We found that the expression of activated MEK1 or MEK2 is sufficient to morphologically transform intestinal epithelial cells, dysregulate cell proliferation and induce the formation of high-grade adenocarcinomas after orthotopic transplantation in mice. A large proportion of these intestinal tumors metastasize to the liver and lung. Importantly, we show that silencing of MEK2 expression completely suppresses the proliferation of human colon carcinoma cell lines, whereas inactivation of MEK1 has a much weaker effect. In a second project, we have investigated the impact of the nuclear mislocalization of phosphorylated MEK1/2 observed in colorectal tumors. We show that oncogenic activation of Ras is sufficient to induce the nuclear accumulation of phosphorylated MEK1/2 and ERK1/2 in intestinal epithelial cells. To evaluate the biological impact of the mislocalization of MEK1/2, we have forced the localization of MEK1 in the nucleus of epithelial cells. We found that sustained nuclear MEK1 signaling leads to hyperactivation of ERK1/2 and to enhanced cell proliferation. Nuclear localization of MEK1 also leads to tetraploidization, chromosomal instability (CIN) and tumorigenesis. Importantly, we show that oncogenic Ras downregulates the spatial regulator Sef, concomitant to nuclear accumulation of activated MEK1/2. Moreover, re-expression of Sef is sufficient to restore the normal localization of MEK1/2 and to revert the cell cycle defects and tumorigenesis induced by oncogenic Ras. Another project was initiated to characterize the tetraploidy and CIN observed upon hyperactivation of the Ras-ERK1/2 pathway. Aneuploidy and CIN are observed in the majority of colorectal cancers and are associated with a poorer prognosis. We show that hyperactivation of ERK1/2 by oncogenic Ras or sustained nuclear MEK-ERK1/2 signaling induces mitotic defects that lead to tetraploidy, aneuploidy and CIN. We also found that dysregulation of Ras-ERK1/2 signaling alters the expression and localization of Aurora A and the Chromosomal passenger complex proteins. In conclusion, we show for the first time that the MEK/ERK1/2 signaling pathway is implicated in aneuploidy and CIN. Our results suggest that sustained nuclear ERK1/2 signaling may contribute to the initiation and progression of colorectal cancer by rapidly inducing aneuploidy and CIN. We suggest that loss of Sef is an early oncogenic event that contributes to genetic instability and tumor progression by sustaining nuclear ERK1/2 signaling. These observations are significant and highlight the importance of the Ras-ERK1/2 signaling pathway in colorectal tumorigenesis. Voie de signalisation Signaling pathway RAS oncogénique Oncogenic RAS MEK1/2 MEK1/2 ERK1/2 ERK1/2 Cancer colorectal Colorectal cancer Tumorigénèse Tumorigenesis Transformation Transformation Aneuploïdie Aneuploidy Instabilité chromosomique Chromosomal instability Inhibiteur de MEK1/2 MEK1/2 inhhibitor
85	Contrôle génétique de la réponse à l’infection par des virus oncogènes en population endémique / Pas de titre traduit Pedergnana, Vincent 07 October 2013 (has links) La recherche de facteurs génétiques de susceptibilité aux infections virale dans des populations générales exhaustives endémiques est une approche originale en épidémiologie génétique. Nos travaux de thèse nous ont permis d’établir, dans une population endémique pour deux virus oncogènes MCPyV et HHV-8 au Cameroun et dans une population endémique pour le VHC en Egypte, plusieurs arguments forts en faveur d’une susceptibilité génétique aux infections par les virus oncogènes humains définies par la séropositivité/ séronégativité vis-à-vis du virus impliqué. Concernant l’infection par le MCPyV, dont les modes de transmission sont peu connus, nous avons mis en évidence l’existence de fortes corrélations familiales mère-enfant et entre enfants pour la séropositivité au virus, en faveur d’une transmission virale par contacts proches. Ces résultats sont similaires à ceux observés pour l’HHV-8, dans la même population, virus pour lequel la transmission par voie salivaire est l’hypothèse la plus forte. Concernant l’infection par l’HHV-8, nous avons identifié un locus majeur de prédisposition à l’infection par une analyse de ségrégation mettant un gène majeur mendélien autosomique récessif prédisposant à l’infection, suivie d’une analyse de liaison paramétrique utilisant le modèle de l’analyse de ségrégation. Concernant l’infection par le VHC, nous avons identifié par une analyse de liaison génétique un locus majeur de prédisposition à l’infection. Nous avons ensuite identifié, par une analyse d’association en génome entier sur une grande cohorte de plus de 6500 individus, trois signaux associés avec l’infection par le VHC. Par ailleurs, nous avons également réalisé une étude fine des variants du locus du gène IL28B, associés à la clairance du VHC, cohérente avec les résultats publiés au cours de nos travaux. L’identification de facteurs génétiques impliqués dans la susceptibilité aux infections virales oncogènes et aux cancers associés permettra de mieux comprendre la physiopathologie de la réponse à ces infections et les mécanismes intervenant depuis l’exposition virale jusqu’au développement de cancers. / The identification of genetic variants predisposing to viral infection in highly endemic general populations is an original approach in genetic epidemiology. Our work suggests a genetic control of the susceptibility to human oncogenic viruses infection, in a population in Cameroon in which MCPyV and HHV-8 are highly endemic and in an Egyptian population in which HCV is endemic. MCPyV is thought to be the etiological agent of Merkel cell carcinoma, but little is known about its distribution and modes of transmission. We provided evidence for familial aggregation of MCPyV infection status suggesting that MCPyV infection is acquired through close contact, possibly involving saliva and/or the skin, especially between young siblings and between mothers and their children. Infection with HHV-8 has been shown to display strong familial aggregation, in countries in which HHV-8 infection is endemic. Our segregation analysis provided strong evidence for a recessive major gene conferring predisposition to HHV-8 infection. The following linkage analysis identified a single region on chromosome 3p22 significantly linked to HHV-8 infection. This study provides the first evidence that HHV-8 infection in children in endemic areas has a strong genetic basis. Concerning HCV infection, we performed a linkage analysis that mapped a major locus predisposing to HCV infection in an Egyptian cohort. We then performed a genome-wide association study in more than 6500 individuals, identifying three signals associated with HCV infection. Finally we investigated the role of several IL28B SNPs in HCV spontaneous clearance in an Egyptian population. The results confirm the major role of IL28B variants in the spontaneous clearance of HCV genotype 4 infection in an Egyptian population. The identification of genetic variants predisposing to viral infection should greatly improve our understanding of the molecular mechanisms involved in the response to these infections and may also unravel new pathways for investigation in viruses-associated diseases, such as cancer. Epidémiologie génétique Génétique humaine Contrôle de l’infection MCPyV HHV-8 VHC Virus oncogènes Transmission familiale Analyse de ségrégation Analyse de liaison génétique Analyse d’association Genetic epidemiology Human genetic Control of infection MCPyV HHV-8 HCV Oncogenic viruses Familial transmission Segregation analysis Linkgae analyse Association analysis 616.042
86	Auto-renouvellement et reprogrammation oncogénique dans les leucémies aiguës Ottoni, Elizabeth 04 1900 (has links) No description available. Auto-renouvellement Reprogrammation oncogénique Leucémies aiguës SCL et LMO1 Cellules souches pré-leucémiques Cellules propagatrices de leucémie Synthèse protéique Biogénèse des ribosomes MLL-AF6 Dimérisation Self-renewal Oncogenic reprogramming Acute leukemia SCL and LMO1 Pre-leukemic stem cells Leukemia-propagating cells Protein synthesis Ribosome biogenesis Dimerization
87	The Role of Fibroblast Growth Factor 23 in Phosphate Homeostasis Larsson, Tobias Erik Martin January 2004 (has links) <p>The regulation of serum phosphate (Pi) concentrations is a complex process and our current models are far from complete. Due to major advancements in biotechnology and the development of more powerful research tools, recent advances in the field of genetics has led to the identification of several candidates for the long sought-after phosphatonin(s), or Pi regulating hormones. One of these candidates is fibroblast growth factor 23 (FGF-23) and this thesis is based upon studies of the role of FGF-23 in Pi homeostasis. We demonstrate that FGF-23 is a secreted protein which is highly expressed in tumors giving rise to oncogenic hypophosphatemic osteomalacia (OOM). Furthermore, we have developed a two-site enzyme-linked immunosorbent assay for the detection of circulating FGF-23 and established that FGF-23 is present in the circulation of healthy individuals. Also, FGF-23 serum levels are elevated in patients with disturbances in Pi homeostasis such as OOM, X-linked hypophosphatemic rickets (XLH) and chronic kidney disease and are likely to play an important role in the pathogenesis of these disorders. A transgenic mouse model that express human FGF-23 under the control of the α1(I) collagen promoter exhibit similar clinical and biochemical characteristics as do patients with OOM, XLH and autosomal dominant hypophosphatemic rickets indicating that FGF-23 is an important determinant of Pi homeostasis, vitamin D metabolism and bone mineralization.</p> Medicine Fibroblast Growth Factor 23 FGF-23 phosphate homeostasis vitamin D metabolism sodium/phosphate cotransporters ADHR X-linked hypophosphatemic rickets XLH oncogenic osteomalacia OOM PHEX Medicin
88	Implication de MEK1 et MEK2 dans l'initiation et la progression du cancer colorectal Duhamel, Stéphanie 08 1900 (has links) Une dérégulation de la voie de signalisation Ras/Raf/MEK/ERK1/2 est observée dans plus de 30% des cancers et des mutations activatrices de RAS sont observées dans 30% à 50% des adénomes colorectaux. À la suite d’une analyse extensive de biopsies de tumeurs colorectales humaines par micromatrices tissulaires (TMA), nous avons observé que 44% des tissus cancéreux exprimaient MEK1/2 phosphorylés, contre 10% des tissus normaux. L'analyse des TMA a également révélé que 79% des tumeurs arboraient un marquage nucléaire de MEK1/2 phosphorylés, contre 4 % pour les tissus normaux. Bien que la voie MEK/ERK1/2 soit fréquemment activée dans les cancers, le rôle précis des isoformes de MEK1 et de MEK2 n'a jamais été clairement établie. De même, l'impact de cette localisation nucléaire aberrante de phospho-MEK1/2, dans l'initiation et la progression des cancers colorectaux, est inconnu. Lors d'un premier projet, nous avons démontré, que l’expression de MEK1 ou MEK2 activé est suffisante pour transformer in vitro des cellules intestinales épithéliales de rat (IEC-6). L'expression des mutants actifs de MEK1 ou MEK2 est suffisante pour induire une dérégulation de la prolifération cellulaire et engendrer la formation d'adénocarcinomes invasifs dans un modèle de greffe orthotopique du côlon chez la souris. Nous avons également démontré que l'inhibition de MEK2 par shRNA supprime complètement la prolifération des lignées humaines de cancer du côlon, alors que la suppression de MEK1 a peu d'effet sur la capacité de prolifération. Le deuxième projet, nous a permis d'observer que l'expression d'un mutant nucléaire de MEK1 dans les cellules IEC-6 transforme drastiquement les cellules. Une augmentation de prolifération, une résistance à l'anoikose, un dérèglement du cycle cellulaire, de l'instabilité chromosomique (CIN), de la tétra/aneuploïdie sont observés. La caractérisation des mécanismes responsables de cette localisation aberrante de MEK1/2 phosphorylés, a permis d'identifier la protéine Sef, un régulateur de la localisation cytoplasmique de MEK/ERK1/2. Nous avons démontré que l'expression d'une forme oncogénique de Ras (H-RasV12) inhibe l'expression de Sef, engendrant alors une accumulation nucléaire de MEK1/2 activés. Plus encore, la réexpression de Sef restaure la localisation cytoplasmique de MEK1/2 et renverse les propriétés tumorigéniques ainsi que l'aneuploïdie induite par Ras activé. Un troisième projet, visant la caractérisation des mécanismes associés à la CIN et à l'aneuploïde engendrés par l'activation aberrante de la voie de Ras-ERK1/2, a permis d'observer que l'hyperactivation de ERK1/2 induit des anomalies mitotiques menant à la binucléation. Une localisation erronée et une surexpression de la kinase Aurora A, de même que des protéines de passage du complexe chromosomique (CPC), Aurora B, Survivine et INCENP, sont observées. L'inhibition partielle de l'activation de ERK1/2 par de faible dose de PD184352, un inhibiteur de MEK1/2, est suffisante pour renverser la surexpression de ces régulateurs mitotiques, de même que corriger les anomalies de la mitose et réduire la tétra/aneuploïdie engendrée par Ras oncogénique. Ainsi, nous avons démontré, pour la première fois, que la voie des MAP kinases ERK1/2 est impliquée dans la CIN, la tétraploïdie et l'aneuploïdie. Nos résultats suggèrent que la perte de Sef est un événement oncogénique précoce, qui contribue à la localisation nucléaire aberrante de MEK1/2 qui est observée dans les tumeurs colorectales. Cette localisation anormale de MEK1/2 est associée à l'initiation de la transformation, la progression tumorale et la CIN, via l'activité soutenue de ERK1/2. Ces informations sont capitales et démontrent l’importance de la voie de signalisation Ras/Raf/MEK/ERK1/2 dans le processus de tumorigénèse colorectale. / The Ras-dependent Raf/MEK/ERK1/2 signaling pathway is frequently hyperactivated in human cancer as a result of receptor tyrosine kinase overexpression or gain-of-function mutations in RAS or RAF genes. More specificaly, activating mutation in RAS genes are found in ~ 30-50% of colorectal adenomas and phosphorylation of ERK1/2 is frequently observed in human colorectal cancer cells and tumor specimens. In a large TMA analysis, we found that MEK1/MEK2 are aberrantly activated in 44% of human colorectal cancers. In addition, our analysis revealed that 79% of colorectal cancers exhibit aberrant phospho-MEK1/2 staining in the nucleus, as compared to 4% of normal tissue. How dysregulation and mislocalization of MEK1/2 contribute to tumor initiation and progression is not well understood. In order to determine the exact contribution of MEK1 and MEK2 to the pathogenesis of colorectal cancer, wild type and constitutively active forms of MEK1 and MEK2 were ectopically expressed by retroviral gene transfer in the normal intestinal epithelial cell line IEC-6. We found that the expression of activated MEK1 or MEK2 is sufficient to morphologically transform intestinal epithelial cells, dysregulate cell proliferation and induce the formation of high-grade adenocarcinomas after orthotopic transplantation in mice. A large proportion of these intestinal tumors metastasize to the liver and lung. Importantly, we show that silencing of MEK2 expression completely suppresses the proliferation of human colon carcinoma cell lines, whereas inactivation of MEK1 has a much weaker effect. In a second project, we have investigated the impact of the nuclear mislocalization of phosphorylated MEK1/2 observed in colorectal tumors. We show that oncogenic activation of Ras is sufficient to induce the nuclear accumulation of phosphorylated MEK1/2 and ERK1/2 in intestinal epithelial cells. To evaluate the biological impact of the mislocalization of MEK1/2, we have forced the localization of MEK1 in the nucleus of epithelial cells. We found that sustained nuclear MEK1 signaling leads to hyperactivation of ERK1/2 and to enhanced cell proliferation. Nuclear localization of MEK1 also leads to tetraploidization, chromosomal instability (CIN) and tumorigenesis. Importantly, we show that oncogenic Ras downregulates the spatial regulator Sef, concomitant to nuclear accumulation of activated MEK1/2. Moreover, re-expression of Sef is sufficient to restore the normal localization of MEK1/2 and to revert the cell cycle defects and tumorigenesis induced by oncogenic Ras. Another project was initiated to characterize the tetraploidy and CIN observed upon hyperactivation of the Ras-ERK1/2 pathway. Aneuploidy and CIN are observed in the majority of colorectal cancers and are associated with a poorer prognosis. We show that hyperactivation of ERK1/2 by oncogenic Ras or sustained nuclear MEK-ERK1/2 signaling induces mitotic defects that lead to tetraploidy, aneuploidy and CIN. We also found that dysregulation of Ras-ERK1/2 signaling alters the expression and localization of Aurora A and the Chromosomal passenger complex proteins. In conclusion, we show for the first time that the MEK/ERK1/2 signaling pathway is implicated in aneuploidy and CIN. Our results suggest that sustained nuclear ERK1/2 signaling may contribute to the initiation and progression of colorectal cancer by rapidly inducing aneuploidy and CIN. We suggest that loss of Sef is an early oncogenic event that contributes to genetic instability and tumor progression by sustaining nuclear ERK1/2 signaling. These observations are significant and highlight the importance of the Ras-ERK1/2 signaling pathway in colorectal tumorigenesis. Voie de signalisation Signaling pathway RAS oncogénique Oncogenic RAS MEK1/2 MEK1/2 ERK1/2 ERK1/2 Cancer colorectal Colorectal cancer Tumorigénèse Tumorigenesis Transformation Transformation Aneuploïdie Aneuploidy Instabilité chromosomique Chromosomal instability Inhibiteur de MEK1/2 MEK1/2 inhhibitor
89	The Role of Fibroblast Growth Factor 23 in Phosphate Homeostasis Larsson, Tobias Erik Martin January 2004 (has links) The regulation of serum phosphate (Pi) concentrations is a complex process and our current models are far from complete. Due to major advancements in biotechnology and the development of more powerful research tools, recent advances in the field of genetics has led to the identification of several candidates for the long sought-after phosphatonin(s), or Pi regulating hormones. One of these candidates is fibroblast growth factor 23 (FGF-23) and this thesis is based upon studies of the role of FGF-23 in Pi homeostasis. We demonstrate that FGF-23 is a secreted protein which is highly expressed in tumors giving rise to oncogenic hypophosphatemic osteomalacia (OOM). Furthermore, we have developed a two-site enzyme-linked immunosorbent assay for the detection of circulating FGF-23 and established that FGF-23 is present in the circulation of healthy individuals. Also, FGF-23 serum levels are elevated in patients with disturbances in Pi homeostasis such as OOM, X-linked hypophosphatemic rickets (XLH) and chronic kidney disease and are likely to play an important role in the pathogenesis of these disorders. A transgenic mouse model that express human FGF-23 under the control of the α1(I) collagen promoter exhibit similar clinical and biochemical characteristics as do patients with OOM, XLH and autosomal dominant hypophosphatemic rickets indicating that FGF-23 is an important determinant of Pi homeostasis, vitamin D metabolism and bone mineralization. Medicine Fibroblast Growth Factor 23 FGF-23 phosphate homeostasis vitamin D metabolism sodium/phosphate cotransporters ADHR X-linked hypophosphatemic rickets XLH oncogenic osteomalacia OOM PHEX Medicin

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