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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

Multi-Data Correlation in Papillary Thyroid Cancer

Warrier, Gayathri 14 August 2017 (has links)
No description available.
2

Characterization of the Adaptor Protein XB130, a Tyrosine Kinase Substrate and a Novel Component of the Lamellipodia

Lodyga, Monika 10 January 2012 (has links)
Adaptor proteins play a vital role in the propagation of cellular signals. Although they lack endogenous catalytic activity, they contain a variety of protein binding modules, which enable them to promote specific and efficient interactions with their binding partners. They form integrative platforms for a variety of molecules (e.g. lipids, tyrosine kinases, cytoskeletal and signaling proteins), and thereby link and coordinate key functions such as cell growth, motility and shape determination. Our laboratory has recently cloned a novel, 130 kDa adaptor protein, named XB130, as a structural homolog of actin-filament-associated-protein (AFAP-110), a stress fiber-binding Src substrate. However, the molecular interactions and functions of this novel adaptor remained to be elucidated. To characterize the function of XB130 we asked two general questions: (1) Is XB130 involved in the signal transduction pathways of tyrosine kinases? And (2) Is XB130 capable of regulating the cytoskeleton and/or is it regulated by the cytoskeleton? To address these questions first we investigated the tissue distribution of XB130 and discovered that it is abundantly expressed in thyroid. Therefore we asked whether it is a target of the thyroid-specific tyrosine kinase, RET/PTC, a genetically rearranged, constitutively active enzyme that plays a pathogenic role in papillary thyroid cancer. We found that XB130 is a RET/PTC substrate that couples RET/PTC signaling to phosphatidylinositol 3-kinase (PI3K) activation through its phosphorylation dependent interaction with the regulatory subunit p85 of PI3K. XB130 plays an important role in PI3K signaling, as downregulation of XB130 in TPC1 papillary thyroid cancer cells, harboring the RET/PTC1 kinase, strongly reduced Akt activity and concomitantly inhibited cell cycle progression and survival in suspension. In the second part we demonstrate that XB130 is a novel Rac- and cytoskeleton-regulated protein that exhibits high affinity to lamellipodial (branched) F-actin and impacts motility and invasiveness of tumor cells. In conclusion, my work characterized a novel adaptor protein and assigned two well-defined pathophysiological functions to it in the context of thyroid cancer cells.
3

Characterization of the Adaptor Protein XB130, a Tyrosine Kinase Substrate and a Novel Component of the Lamellipodia

Lodyga, Monika 10 January 2012 (has links)
Adaptor proteins play a vital role in the propagation of cellular signals. Although they lack endogenous catalytic activity, they contain a variety of protein binding modules, which enable them to promote specific and efficient interactions with their binding partners. They form integrative platforms for a variety of molecules (e.g. lipids, tyrosine kinases, cytoskeletal and signaling proteins), and thereby link and coordinate key functions such as cell growth, motility and shape determination. Our laboratory has recently cloned a novel, 130 kDa adaptor protein, named XB130, as a structural homolog of actin-filament-associated-protein (AFAP-110), a stress fiber-binding Src substrate. However, the molecular interactions and functions of this novel adaptor remained to be elucidated. To characterize the function of XB130 we asked two general questions: (1) Is XB130 involved in the signal transduction pathways of tyrosine kinases? And (2) Is XB130 capable of regulating the cytoskeleton and/or is it regulated by the cytoskeleton? To address these questions first we investigated the tissue distribution of XB130 and discovered that it is abundantly expressed in thyroid. Therefore we asked whether it is a target of the thyroid-specific tyrosine kinase, RET/PTC, a genetically rearranged, constitutively active enzyme that plays a pathogenic role in papillary thyroid cancer. We found that XB130 is a RET/PTC substrate that couples RET/PTC signaling to phosphatidylinositol 3-kinase (PI3K) activation through its phosphorylation dependent interaction with the regulatory subunit p85 of PI3K. XB130 plays an important role in PI3K signaling, as downregulation of XB130 in TPC1 papillary thyroid cancer cells, harboring the RET/PTC1 kinase, strongly reduced Akt activity and concomitantly inhibited cell cycle progression and survival in suspension. In the second part we demonstrate that XB130 is a novel Rac- and cytoskeleton-regulated protein that exhibits high affinity to lamellipodial (branched) F-actin and impacts motility and invasiveness of tumor cells. In conclusion, my work characterized a novel adaptor protein and assigned two well-defined pathophysiological functions to it in the context of thyroid cancer cells.
4

A study of apolipoprotein L1 patho-physiological functions

Chidiac, Mounia 11 September 2015 (has links)
Apolipoprotéines L est une famille nouvellement caractérisée en humain sans une fonction patho- physiologique définitive. Ces protéines sont classiquement considérées être impliquées dans le transport et métabolisme des lipides, principalement due à l'association de son premier membre de la famille sécrétée l’apolipoprotéine L1 aux particules des lipoprotéines de haute densité. Néanmoins, le reste des membres sont des protéines intracellulaires (absence de domaine de peptide signal). Apolipoprotéine L1 a été initialement identifiée comme l'élément clé du facteur trypanolytique dans le sérum humain. L'exploration de la séquence des différents apolipoprotéines L a révélé un domaine distinct «B cell lymphoma-2 homology domain 3» ayant des similitudes structurelles et fonctionnelles avec le domaine B cell lymphoma-2 homology domain 3 des protéines de la famille B cell lymphoma-2. Ainsi la découverte de ce domaine peut contribuer à la compréhension de la fonction et rôle des apoLs dans différents mécanismes et processus tels que la mort cellulaire programmée, la prolifération cellulaire, le métabolisme cellulaire .Notre étude visait à caractériser les fonctions de patho- physiologique du premier membre de la famille «apolipoprotéine L1 ». L’expression de l’apolipoprotéine L1 ARNm, à partir de 48 carcinomes papillaires de la thyroïde, a été évaluée par des études à haut débit et normalisée à un pool de tissus normal de la thyroïde. Une confirmation de PCR en temps réel valide ainsi la surexpression d’apoL1 dans 91,67 % des cas testés. Le niveau élevé de l’apolipoprotéine L1 ARNm est en corrélation avec une expression protéique élevée dans les échantillons histologiques (70%), et détermine que les cellules folliculaires de la thyroïde dans la zone de la tumeur sont les cellules principales responsables de l’expression spécifique de l’apolipoprotéine L1. Nous avons étudié l'expression apolipoprotéine L1 dans le modèle de cancer pour approfondir notre compréhension des relations reliant cette expression distincte dans le cancer papillaire de la thyroïde et son rôle et fonction concernant le métabolisme du cancer (de reprogrammation métabolique :effet Warburg).7En outre, la localisation de l’apolipoprotéine L1 dans la mitochondrie des cellules cancéreuses de la thyroïde ainsi que dans la mitochondrie de levure, a été le point de départ de la recherche dans ce nouveau modèle, il nous a permis de révéler et d'introduire de nouvelles hypothèses pour expliquer l'effet inhibiteur de l’apolipoprotéine L1 en fonction des conditions métabolique variantes et l’effet pléotropiques de l’apolipoprotéine L1 sur la levure (dommages des mitochondries et vacuoles). Dans ce manuscrit, nous avons décrit nos efforts à mettre en évidence la spécificité d'expression de l’apolipoprotéine L1 dans le cancer papillaire thyroïdien notamment au niveau de la transcription ainsi que la localisation mitochondriale et l'interférence probable avec les voies métaboliques. / Option Biologie moléculaire du Doctorat en Sciences / info:eu-repo/semantics/nonPublished
5

New insights into cancer genes: haploinsufficiency and noncoding RNA in human cancer

Yoon, Heejei 14 September 2006 (has links)
No description available.
6

Relação entre a via de sinalização da leptina e a progressão de carcinomas papilíferos de tireoide em crianças e adolescentes / The relationship between the leptin signaling pathway and the progression of thyroid papillary carcinomas in children and adolescents

Mario Lucio Cordeiro Araujo Junior 12 December 2014 (has links)
O câncer de tireoide é a neoplasia maligna mais comum de glândula endócrina e tem sua incidência aumentada em vários países, inclusive o Brasil, nos últimos anos. Em crianças e adolescentes, o câncer de tireoide é raro, correspondendo a cerca de 2% dos casos, sendo o carcinoma papilífero o tipo histológico mais frequente. O prognóstico de crianças e adolescentes com câncer de tireoide é excelente, com taxas de sobrevida superiores a 95%. Contudo, quando diagnosticada, essa parcela da população apresenta características clínico-patológicas de doença avançada, como invasão de cápsula e extensão extratireoidiana, além de metástase linfonodal. A leptina é um hormônio produzido principalmente pelo tecido adiposo, participando da regulação da ingestão de alimentos e do gasto energético e tem sido associada a fator prognóstico de alguns tumores, como hematológicos, pancreático, câncer de mama e tireoide. Há relatos deste hormônio atuar como fator angiogênico e mitogênico. O objetivo deste estudo é avaliar a associação entre o carcinoma papilífero de tireoide em crianças e adolescentes e proteínas da via de sinalização da leptina, através de imunofluorescência para ObR (receptor de leptina), pJAK2 e pSTAT3, relacionando com dados que apontam para o prognóstico da doença. Foram incluídos no estudo 52 pacientes, sendo a expressão e o padrão de marcação avaliados por consenso entre dois patologistas. O perfil de marcação foi puntiforme e multifocal para o tecido não neoplásico adjacente como para o tecido tumoral. Foram atribuídos scores para a imunomarcação (1-10% e >10%) e analisadas possíveis associações entre ObR, pJAK2 e pSTAT3 com variáveis demográficas qualitativas ou características clínico-patológicas. Todos os casos apresentaram marcação relevante (>10%) no tecido não-neoplásico para as 3 proteínas, enquanto no tecido neoplásico, houve marcação em 53% dos casos para ObR, 47% para pJAK2 e 71% para pSTAT3. ObR foi 6,2 vezes mais frequente em pacientes sem metástase linfonodal. O tamanho do tumor foi inversamente relacionado com marcação relevante para pJAK2 e pSTAT3. Nossos achados mostram que ObR está relacionado a menos metástase linfonodal e pJAK-pSTAT3 com tamanho tumoral reduzido, sugerindo que a via de sinalização da leptina em câncer de tireoide de crianças e adolescentes pode contribuir para prevenir o aumento da tumorigênese. / Thyroid cancer is the most common endocrine gland neoplastic malignancy and its incidence has increased in many countries in recent years, Brazil included. Thyroid cancer is rare in children and adolescents and it accounts for 2% of the cases. Its histologically more frequent type is papillary carcinoma. The prognosis in this population is excellent, with survival rates superior to 95%. However, when diagnosed, this part of the population has clinical and pathological characteristics of advanced disease, such as capsular invasion, extrathyroidal extension and lymph node metastasis. Leptin is a hormone produced mainly by adipose tissue, participating in the regulation of food uptake and energy expenditure and it has been associated with the prognostic factor of hematologic, pancreas, breast and thyroid tumors. There are reports about the action of this hormone as an angiogenic and mitogenic factor. The goal of this study is to assess the association between thyroid papillary carcinoma in children and adolescents and the leptin signaling pathway proteins through ObR, pJAK2 and pSTAT3 immunofluorescence, related to data that point to the prognosis of the disease. This study included 52 patients and the expression and staining were assessed in consensus by two pathologists. The staining profile was punctiform and multifocal for both the non-neoplastic adjacent tissue as well as the tumor tissue. Scores were assigned for immunostaining (1-10% and >10%) and possible associations among ObR, pJAK2 and pSTAT3 were analyzed, with qualitative demographic variables or clinical and pathological features. All the cases presented relevant staining (>10%) in the non-neoplastic tissue for the three proteins while in the neoplastic tissue there was staining for ObR in 53% of the cases, 47% for pJAK2 and 71% for pSTAT3. ObR was 6.2 times more frequent in patients without lymph node metastasis. The tumor size was inversely related to relevant staining for pJAK2 and pSTAT3. This study shows that ObR is related to less lymph node metastasis and pJAK-pSTAT3 to smaller tumor size, suggesting that the leptin signaling pathway in thyroid cancer in children and adolescents may play an important role in the prevention of tumorigenesis.
7

Relação entre a via de sinalização da leptina e a progressão de carcinomas papilíferos de tireoide em crianças e adolescentes / The relationship between the leptin signaling pathway and the progression of thyroid papillary carcinomas in children and adolescents

Mario Lucio Cordeiro Araujo Junior 12 December 2014 (has links)
O câncer de tireoide é a neoplasia maligna mais comum de glândula endócrina e tem sua incidência aumentada em vários países, inclusive o Brasil, nos últimos anos. Em crianças e adolescentes, o câncer de tireoide é raro, correspondendo a cerca de 2% dos casos, sendo o carcinoma papilífero o tipo histológico mais frequente. O prognóstico de crianças e adolescentes com câncer de tireoide é excelente, com taxas de sobrevida superiores a 95%. Contudo, quando diagnosticada, essa parcela da população apresenta características clínico-patológicas de doença avançada, como invasão de cápsula e extensão extratireoidiana, além de metástase linfonodal. A leptina é um hormônio produzido principalmente pelo tecido adiposo, participando da regulação da ingestão de alimentos e do gasto energético e tem sido associada a fator prognóstico de alguns tumores, como hematológicos, pancreático, câncer de mama e tireoide. Há relatos deste hormônio atuar como fator angiogênico e mitogênico. O objetivo deste estudo é avaliar a associação entre o carcinoma papilífero de tireoide em crianças e adolescentes e proteínas da via de sinalização da leptina, através de imunofluorescência para ObR (receptor de leptina), pJAK2 e pSTAT3, relacionando com dados que apontam para o prognóstico da doença. Foram incluídos no estudo 52 pacientes, sendo a expressão e o padrão de marcação avaliados por consenso entre dois patologistas. O perfil de marcação foi puntiforme e multifocal para o tecido não neoplásico adjacente como para o tecido tumoral. Foram atribuídos scores para a imunomarcação (1-10% e >10%) e analisadas possíveis associações entre ObR, pJAK2 e pSTAT3 com variáveis demográficas qualitativas ou características clínico-patológicas. Todos os casos apresentaram marcação relevante (>10%) no tecido não-neoplásico para as 3 proteínas, enquanto no tecido neoplásico, houve marcação em 53% dos casos para ObR, 47% para pJAK2 e 71% para pSTAT3. ObR foi 6,2 vezes mais frequente em pacientes sem metástase linfonodal. O tamanho do tumor foi inversamente relacionado com marcação relevante para pJAK2 e pSTAT3. Nossos achados mostram que ObR está relacionado a menos metástase linfonodal e pJAK-pSTAT3 com tamanho tumoral reduzido, sugerindo que a via de sinalização da leptina em câncer de tireoide de crianças e adolescentes pode contribuir para prevenir o aumento da tumorigênese. / Thyroid cancer is the most common endocrine gland neoplastic malignancy and its incidence has increased in many countries in recent years, Brazil included. Thyroid cancer is rare in children and adolescents and it accounts for 2% of the cases. Its histologically more frequent type is papillary carcinoma. The prognosis in this population is excellent, with survival rates superior to 95%. However, when diagnosed, this part of the population has clinical and pathological characteristics of advanced disease, such as capsular invasion, extrathyroidal extension and lymph node metastasis. Leptin is a hormone produced mainly by adipose tissue, participating in the regulation of food uptake and energy expenditure and it has been associated with the prognostic factor of hematologic, pancreas, breast and thyroid tumors. There are reports about the action of this hormone as an angiogenic and mitogenic factor. The goal of this study is to assess the association between thyroid papillary carcinoma in children and adolescents and the leptin signaling pathway proteins through ObR, pJAK2 and pSTAT3 immunofluorescence, related to data that point to the prognosis of the disease. This study included 52 patients and the expression and staining were assessed in consensus by two pathologists. The staining profile was punctiform and multifocal for both the non-neoplastic adjacent tissue as well as the tumor tissue. Scores were assigned for immunostaining (1-10% and >10%) and possible associations among ObR, pJAK2 and pSTAT3 were analyzed, with qualitative demographic variables or clinical and pathological features. All the cases presented relevant staining (>10%) in the non-neoplastic tissue for the three proteins while in the neoplastic tissue there was staining for ObR in 53% of the cases, 47% for pJAK2 and 71% for pSTAT3. ObR was 6.2 times more frequent in patients without lymph node metastasis. The tumor size was inversely related to relevant staining for pJAK2 and pSTAT3. This study shows that ObR is related to less lymph node metastasis and pJAK-pSTAT3 to smaller tumor size, suggesting that the leptin signaling pathway in thyroid cancer in children and adolescents may play an important role in the prevention of tumorigenesis.
8

Etude de l’implication de la NADPH oxydase NOX4 et du stress oxydatif dans la radiorésistance des cancers papillaires de la thyroïde exprimant l’oncogène BRAFV600E / The Study of the Involvement of NADPH Oxidase NOX4 and Oxidative Stress in the Radioresistance of Papillary Thyroid Cancers Harboring BRAFV600E Oncogene

Azouzi, Naima 19 November 2016 (has links)
Une des propriétés majeures de la thyroïde est de capter l’iode de la circulation sanguine grâce à la présence d’un transporteur d’iodure (NIS pour Natrium Iodide Symporter). Cette capacité d’accumulation d’iode par les thyrocytes joue un rôle clé dans la synthèse des hormones thyroïdiennes ainsi dans le diagnostic et le traitement des cancers de la thyroïde. Cependant, en raison d’une diminution ou de l’absence de l’expression du NIS dans certaines tumeurs et métastases, des patients deviennent réfractaires à la radiothérapie métabolique et présentent une radiorésistance, causant ainsi un problème de santé publique.L’oncogène BRAFV600E, un puissant activateur de La voie MAP kinase, est détecté dans 40 - 60% des cancers thyroïdiens de type papillaires (CPT) qui représentent 80% de la totalité des cancers thyroïdiens. La mutation BRAFV600E est associée aux tumeurs thyroïdiennes les plus agressives. Cependant l’inhibition pharmacologique de la voie MAP kinase induite constitutivement par l’oncogène BRAFV600E ne permet pas, à elle seule, de rétablir l’expression du NIS chez des patients atteints d’un cancer de la thyroïde muté BRAFV600E. Ceci suggère que d’autres mécanismes compensatoires peuvent contribuer à la radiorésistance. Une étude récente menée sur un modèle murin a montré que la régulation négative du NIS par l’oncogène BRAFV600E est médiée par la voie du TGF beta. Une autre a montré que l’expression du NIS serait dépendante de l’état redox de la cellule, suggérant un rôle des espèces réactives de l’oxygène (ROS). Dans les cellules les ROS peuvent être produites par les NADPH oxydases (NOX/DUOX). La thyroïde en exprime trois : DUOX2 nécessaire à la synthèse des hormones thyroïdiennes ainsi que DUOX1 et NOX4 dont le rôle physiologique reste inconnu. NOX4, surexprimé dans les CPTs, a été montré être un nouvel effecteur clé de la voie du TGF beta dans d’autres cancers.Dans mon projet de thèse, je me suis intéressée à l’étude du rôle de NOX4 dans la régulation négative du NIS dans les CPT mutés BRAFV600E. L’étude du mécanisme, réalisée à partir de deux lignées humaines issues de cancers papillaires mutés pour BRAF (BCPAP et 8505C), a permis d’établir que l’oncogène BRAFV600E contrôle l’expression de NOX4 au niveau transcriptionnel via la voie TGF-beta/Smad3. Ces résultats ont été validés sur une lignée de rat exprimant de manière conditionnelle BRAFV600E ainsi que sur des thyrocytes humains en culture primaire. De manière importante, l’utilisation d’antioxydants tels que le N-acetyl cystéine (NAC) ou l’inhibition spécifique de l’expression de NOX4 par ARN interférence permet de réinduire l’expression du NIS. Ces résultats qui montrent que les ROS produites par NOX4 inhibent l’expression du transporteur de l’iode (NIS) établissent un lien entre l’oncogène BRAFV600E et NOX4. Une analyse comparative de l'expression de NOX4 effectuée à partir de 500 cancers papillaires de la thyroïdes mutés ou non pour BRAF (données TCGA) confirme que NOX4 est significativement augmenté dans les cancers porteurs de la mutation BRAF et que ceci est corrélé à une diminution de l’ARNm du NIS. Par ailleurs, le niveau de NOX4 est inversement corrélé au score de différenciation thyroïdien, suggérant que NOX4 pourrait être impliqué dans le processus de dédifférenciation. Cette étude ouvre une nouvelle opportunité pour l’optimisation de l’utilisation de la radiothérapie métabolique dans le traitement des cancers thyroïdiens réfractaires à l’iode I131 et présente NOX4 comme une cible thérapeutique potentielle. / One of the major properties of the thyroid is iodine uptake from the bloodstream through an iodide transporter (NIS for Natrium Iodide Symporter). This capacity plays a key role in the thyroid hormones synthesis, but also in both diagnosis and treatment of thyroid cancer. However, due to a decrease or absence of the NIS expression in some tumors and metastases, patients become refractory to the metabolic radiotherapy and present a radioresistance, which cause a public health problem.The BRAFV600E oncogene, a potent activator of the MAP kinase pathway, is detected in 40-60% of papillary thyroid cancer (PTC), which represent 80% of total thyroid cancers. The BRAFV600E mutation is associated with the more aggressive thyroid tumors. However, the pharmacological inhibition of the MAP kinase pathway, constitutively induced by the BRAFV600E oncogene, is not able to restore alone the expression of NIS in patients with BRAFV600E mutated thyroid cancer. This suggests that other compensatory mechanisms may contribute to the radioresistance. A recent study in a mouse model demonstrated that downregulation of NIS by BRAFV600E oncogene is mediated through the TGF beta activation. An other showed that the expression of NIS is dependent on the redox status of the cell, suggesting a role for the reactive oxygen species (ROS). In cells, ROS can be produced by the NADPH oxidases (NOX/DUOX). The Thyroid gland expresses three of them: DUOX2, which is necessary for the thyroid hormones synthesis, but also DUOX1 and NOX4 whose the physiological role remains unknown. NOX4, which is overexpressed in the PTCs, has been shown to be a new key effector of the TGF beta pathway.In my thesis project, I was interested in studying the role of NOX4 in the negative regulation of NIS in BRAFV600E mutated CPT. The study of the mechanism, made from two human cell lines derived from BRAF-mutated papillary thyroid cancers (BCPAP and 8505C), has revealed that the oncogene BRAFV600E controls the expression of NOX4 at the transcriptional level via the TGF-beta/Smad3 pathway. These results were validated on both a rat thyroid cell line conditionnaly expressing BRAFV600E and on human thyrocytes in primary culture. Importantly, the use of antioxidants such as N-acetyl cysteine (NAC) or specific inhibition of NOX4 expression by RNA interference allow reinduction of NIS expression. These results, which show that ROS produced by NOX4 inhibit the expression of iodine transporter (NIS), establish a link between the oncogene BRAFV600E and NOX4. A comparative analysis of the NOX4 expression, made from 500 papillary thyroid cancers mutated or not for BRAF (TCGA data), confirms that NOX4 is significantly increased in BRAF-mutated cancers and that this is correlated with a decrease of NIS mRNA. Furthermore, the level of NOX4 is inversely related to thyroid differentiation score, suggesting that NOX4 might be involved in the dedifferentiation process. This study opens a new opportunity for optimizing the use of metabolic radiotherapy in the treatment of thyroid cancers refractory to radioiodine I131and makes NOX4 as a potential therapeutic target.
9

A NOVEL BRAF SIGNALING CASCADE THROUGH p-21 ACTIVATED KINASES REGULATES THYROID CANCER CELL MOTILITY

McCarty, Samantha Keiko 06 August 2013 (has links)
No description available.
10

Anomalies moléculaires de la voie MAPK et cancer papillaire de la thyroïde : étude de deux phosphatases spécifiques de ERK, DUSP5 et DUSP6 / MAPK pathway alterations and papillary thyroid cancer : analysis of two ERK-specific phosphatases, DUSP5 and DUSP6

Buffet, Camille 20 November 2014 (has links)
Le cancer papillaire de la thyroïde (CPT) est la tumeur endocrine la plus fréquente. Des anomalies moléculaires activant la voie des MAPK (Mitogen-Activated Protein Kinases) sont identifiées, de façon mutuellement exclusive, dans environ 70% des cas. Il s’agit de réarrangements chromosomiques, le plus souvent de type RET/PTC (10%), de mutations ponctuelles activatrices des trois isoformes de l’oncogène RAS (H, N et K-RAS) (10%), ou de l’oncogène B-RAF (50%). La mutation « hot spot » B-RAFV600E est la plus fréquemment identifiée, elle est associée à une plus grande agressivité clinique (diagnostic à un stade tardif, risque de récidives et de décès accru). Ces évènements moléculaires ont pour conséquence commune l’activation de la voie des MAPK, se traduisant en aval par la phosphorylation de MEK (Mitogen-activated Extracellular signal-Regulated Kinase) puis de ERK (Extracellular signal-Regulated Kinase). Cette dernière est régulée négativement par des phosphatases, appartenant à la famille des Dual Specificity Phosphatases (DUSPs), d’expression ubiquitaire, et en particulier de deux phosphatases spécifiques de ERK, l’une cytoplasmique (DUSP6) et l’autre nucléaire (DUSP5). Nous avons fait l’hypothèse que ces phosphatases pouvaient être soit des gènes suppresseurs de tumeurs (leur perte d’expression conduisant à une augmentation de phosphorylation de ERK et une prolifération accrue), soit des marqueurs du degré d’activation de la voie MAPK dans le cadre d’une boucle de rétrocontrôle négatif. Ceci nous a conduits à analyser la régulation et l’expression de ces phosphatases dans trois modèles : la lignée cellulaire PCCL3 (thyroïde de rat), exprimant l’un des trois principaux oncogènes mutés dans les CPT (RET/PTC3 ou H-RASV12 ou B-RAFV600E) sous le contrôle d’un promoteur inductible par la doxycycline, des lignées cellulaires humaines dérivant de CPT et des CPT humains. (...) / Papillary thyroid cancer (PTC) is the most common endocrine malignancy. Mutually exclusive and activating alterations of the MAPK pathway (Mitogen-Activated Protein Kinases) are identified in 70% of cases. Common mutations found in PTCs are point mutation of the B-RAF (50%) and RAS genes (10%) as well as RET/PTC chromosomal rearrangements (10%). The hot spot B-RAFV600E mutation is the most frequently alteration identified and is connected with agressive clinical characteristics (high stage at diagnosis, high recurrence risk and death). These molecular events lead to constitutive activation of the MAPK pathway, resulting in MEK (Mitogen-activated Extracellular signal-Regulated Kinase) and ERK (Extracellular signal-Regulated Kinase) phosphorylation. ERK is negatively regulated by phosphatases and among them, Dual Specificity Phosphatases (DUSPs), ubiquitary expressed, in particular two ERK-specific phosphatases DUSP5 (nuclear) and DUSP6 (cytosolic). We hypothesized that these phosphatases could have tumor supressor properties (i.e. their loss would be associated with an increase in MAPK pathway activation) or may serve as a surrogate marker of MAPK pathway activation in the context of a negative feedback loop. We analysed regulation and expression of both phosphatases in 3 models: three PCCL3 cell lines (rat thyroid cells) expressing one of the most common oncogene identified in PTCs (RET/PTC3 or H-RASV12 or B-RAFV600E) under the control of a doxycycline-inducible promoter, human PTC-derived cell lines and human PTC. We demonstrated that MAPK pathway activation was correlated with induction of DUSP5 and DUSP6. These phosphatases are involved in a negative feedback loop that contributes to a tight regulation of phospho-ERK levels. DUSP5 and DUSP6 mRNA are overexpressed in human PTCs, especially in B-RAF mutated tumors suggesting a higher MAPK signaling output in these agressive PTCs. Silencing of DUSP5 and/or DUSP6 by small interfering RNA does not affect proliferation of human B-RAFV600E thyroid carcinoma-derived cell lines, suggesting the lack of tumor suppressor gene role. Compensatory changes in expression of DUSPs when a specific one is inactivated may explain this lack of effect. On the opposite, a DUSP6 pharmacological inhibitor induced a concentration dependent decrease in proliferation of human B-RAFV600E cells, suggesting « off-target » effect of this inhibitor. In a second part, we analysed the regulation of DUSP5 expression, which is a target of the MAPK pathway activation. We demonstrated, using pharmacological inhibitors, that DUSP5 is an early response gene, regulated mostly by the MAPK pathway, at the transcriptional level. Two contiguous CArG boxes that bind serum response factor (SRF) were found in a 1Kb promoter region, as well as several E twenty-six transcription factor family binding sites (EBS). These sites potentially bind Elk-1, a transcription factor activated by ERK1/2. Using wild type or mutated DUSP5 promoter reporters, we demonstrated that SRF plays a crucial role in serum induction of DUSP5 promoter activity, the proximal CArG box being important for SRF binding in vitro and in living cells. Moreover Elk-1 was bound in vitro to a promoter region containing the proximal CArG box and a putative EBS. Its specific binding to SRF was necessary to elicit promoter response to dominant positive Elk-VP16 and to enhance the response to serum stimulation. Altogether our results suggest that the MAPK pathway is more active in B-RAFV600E PTC than in PTC with other genetic alteration and could explain their clinical agressivity. DUSP5 and DUSP6, as well as phosphorylated MEK, are markers of activation of the MAPK pathway. Neither phosphatase has tumor suppressor properties in our thyroid cancer cell models. Our results suggest redundancy and functional compensation among DUSPs. 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