Expressão de CK5 e vimentina/E-caderina nos diferentes subtipos de carcinomas ductais mamários / Expression of CK5 and vimentin/E-cadherin in different subtypes of invasive ductal carcinoma

Rapatoni, Liane

17 September 2013

Introdução: Os marcadores moleculares têm sido utilizados para identificar subgrupos de tumores com comportamento clínico distinto, inclusive quanto ao padrão de recidiva. Objetivo: Caracterizar a expressão imunoistoquímica de vimentina (VIM) e E-caderina (CDH1) em carcinomas ductais invasivos (CDI) de mama e sua associação com a expressão de citoqueratina 5 (CK5), e características clínico-patológicas. Métodos: Microarranjos teciduais (TMA) foram construídos a partir de 82 amostras de CDI de mama. Imunoistoquímica (IHQ) foi realizada para determinar os receptores hormonais (RH; receptores de estrógeno e progesterona) e receptor do fator de crescimento epidérmico humano 2 (HER2), VIM, CDH1, CK5 e Ki-67. Os tumores foram classificados como luminal A (RH+, HER2-), luminal B (RH+, HER2+ ou Ki-67 alto), HER2 hiperexpresso (RH-, HER2+) e triplo negativo (TN; RH-, HER2-). Resultados: O fenótipo VIM+/CDH1-/low não foi observado nos tumores luminal A, B e HER2 hiperexpresso, enquanto que este fenótipo estava presente em 61,9% dos TN (p= 0,0001). A mediana de Ki-67 em tumores VIM+/CDH1-/low foi 13,6 (variação, 17,8-45,4), em comparação com 9,8 (variação de 4,1-38,1) nos não- VIM+/CDH1-/low (p= 0,0007). O acometimento linfonodal foi menos freqüente em pacientes com VIM+/CDH1-/low do que nos não- VIM+/CDH1-/low (23% X 61%, teste de 2, p = 0,01). A sobrevida livre de doença em 5 anos foi de 61,5% e 83,7% (teste de log-rank, p= 0,02) e a sobrevida global em 5 anos foi de 51,2% e 83,5% (teste de log-rank, p= 0,03) em pacientes com tumores com fenótipo VIM+/CDH1-/low e não VIM+/CDH1-/low, respectivamente. Conclusão: A expressão de VIM e CDH1 identificaram um subconjunto de CDI de mama com fenótipo mesenquimal com alto grau histológico e alto índice mitótico. / Introduction: Molecular markers have been used to identify subgroups of tumors with distinct clinical behavior, including recurrence pattern. Objective: To characterize the immunohistochemical expression of vimentin (VIM) and E-cadherin (CDH1) in invasive ductal carcinoma (IDC) of the breast and its association with cytokeratin 5 (CK5) expression and clinicopathological features. Methods: A tissue microarray was constructed from 82 IDC breast cancer specimens. Immunohistochemistry (IHC) was used to determine hormone receptor (HR; estrogen and progesterone receptors) status and human epidermal growth factor receptor 2 (HER2), VIM, CDH1, CK5, and Ki-67 expression. Tumors were classified as luminal A (HR+, HER2-), luminal B (HR+, HER2+ or high Ki-67), HER2 enriched (HR-, HER2+), and triple negative (TNBC; HR-, HER2-). Results: The VIM+/CDH1-/low phenotype was not observed in luminal A, luminal B and HER2 enriched tumors, whereas this phenotype was present in 61.9% of triple negative (TNBC) tumors (p = 0.0001). The median Ki-67 index in VIM+/CDH1-/low tumors was 13.6 (range, 17.8-45.4) compared with 9.8 (range, 4.1-38.1) in non-VIM+/CDH1-/low tumors (p= 0.0007). The presence of lymph node metastasis was less frequent in patients with VIM+/CDH1-/low tumors than in those with non-VIM+/CDH1-/low tumors (23% vs. 61%; 2 test, p= 0.01). The 5-years disease-free survival was 61.5% and 83.7% (log-rank test; p= 0.02) and the 5-year overall survival was 51.2% and 83.5% (log-rank test; p= 0.03) in patients with VIM+/CDH1-/low phenotype and non-VIM+/CDH1-/low phenotype tumors, respectively. Conclusion: The expression of VIM and CDH1 identified a subset of IDC breast cancer of the mesenchymal phenotype with high histological grade and high mitotic index.

Breast cancer

Câncer de mama

citokeratin5

citokeratina 5

E-caderina

E-cadherin

epithelial-mesenchymal transition

fatores prognósticos.

prognostic factors.

transição epitelial-mesenquimal

vimentin

vimentina

De la caractérisation des Cellules Initiant le Cancer Colorectal vers un biomarqueur pronostique et de surveillance des sujets traités pour cancer colorectal / From characterization of colorectal cancer initiating cells to a prognostic biomarker and monotoring of patients treated for colorectal cancer

Christou, Niki

03 March 2017

Le Cancer Colo Rectal (CCR) est la deuxième cause de mortalité par cancer dans le monde. Le risque de récidive après traitement curatif atteint 45% pour les stades 3. Une des hypothèses à l’heure actuelle pouvant expliciter le processus métastatique et les récidives est la présence en son sein de cellules « souches », pouvant « initier » le cancer. Notre réflexion s’inscrit dans la continuité des travaux réalisés au sein de notre Laboratoire, intitulés «Stratégies d’isolement et de caractérisation des cellules initiatrices de cancer colorectal», (Mélin et al, 2012). Dans une première partie, notre travail a porté sur l’analyse in vitro de la sensibilité des fractions enrichies en CIC aux différentes molécules de chimiothérapie les plus couramment utilisées en cancérologie colorectale.Puis, dans une deuxième partie, l’analyse des tumeurs obtenues après greffe a été faite ex ovo sur la Membrane Chorio-Allantoïdienne d’embryon de poulet (CAM), modèle facilement manipulable, peu onéreux et très rapide. Ce modèle étant naturellement immunodéprimé, il permet d’obtenir des informations concernant les phénomènes clés de la tumorigénèse et de la néoangiogénèse. Des analyses de la croissance tumorale, de l’histologie (prolifération, apoptose et vascularisation) et des analyses protéiques ont été menées en parallèle. De cette dernière étude, un marqueur particulier la E cadhérine, a été mis en évidence comme témoin indirect d’agressivité. En effet, au sein des tumeurs obtenues à partir de F1 HCT116, fraction himiosensible, l’expression de la E cadhérine est augmentée contrairement aux tumeurs obtenues à partir de F3 WiDr, fraction chimiorésistante, montrant une diminution d’expression de la E cadhérine.Ainsi, dans une troisième partie, sachant qu’un lien entre cellules initiant le cancer et E cadhérine a été mis en évidence, nous nous sommes focalisés sur son expression. Nous avons alors étudié son expression in vitro sur des cellules résistantes au 5 Fluorouracile. Puis, son expression a été étudiée ex vivo au sein de tissus et de sérums de patients opérés de cancer colorectal. / The ColoRectal Cancer (CCR) is the second leading cause of cancer mortality in the world. The risk of recurrence after curative treatment reaches 45% for stages 3. One of the hypotheses currently able to explain the metastatic process and the recurrences is the presence within it of "stem" cells, which can "initiate" the cancer. Our reflection is in line with the work carried out in our Laboratory, entitled "Strategies for the isolation and characterization of cells that initiate colorectal cancer" (Mélin et al, 2012).In the first part, our work focused on in vitro analysis of the sensitivity of fractions enriched in CIC to different chemotherapy molecules most commonly used in colorectal cancer (CRC). Then, in a second part, the analysis of the tumors obtained after transplantation was made ex ovo on Chicken Embryo Chorio-Allantoid Membrane (CAM), an easily manipulated model, inexpensive and very fast. This model provides information on the key phenomena of tumorigenesis and neoangiogenesis. Analyzes of tumor growth, histology (proliferation, apoptosis and vascularization) and protein analyzes were carried out in parallel. From this last study, a particular marker, E cadherin, was highlighted as an indirect link with witness of aggressiveness. Indeed, within the tumors obtained from F1 HCT116, the chemosensitive fraction, the expression of cadherin E was increased in contrast to the tumors obtained from F3 WiDr, chemoresistant fraction, showing a decrease in expression of E cadherin.Thus, in a third part, knowing that a link between cells initiating cancer and E cadherin was highlighted, we focused on its expression. We first studied its expression in vitro on 5 Fluorouracilresistant cells. Its expression was then studied ex vivo in tissues and sera of operated patients of CRC.

Cancer colorectal

Cellules initiant le cancer

Membrane chorio allantoidienne

Souris SCID

E cadherine

Colorectal cancer

Cancer initiating cells

Chorio allantoid membrane

SCID mice

E cadherin

616.994

Rôle de la petite GTPase Rap1 dans les effets proangiogéniques de l’angiopoïétine-1 sur les cellules endothéliales

Gaonac'h-Lovejoy, Vanda

05 1900

No description available.

Angiogenèse

Angiopoïétine-1

Rap1

VE-cadhérine

Migration

Bourgeonnement

Adhésion

Endothéliale

Angiopoietin-1

Angiogenesis

VE-cadherin

Sprouting

Endothelial cells

Implication de la VE-cadhérine dans la plasticité endothéliale des tumeurs / Role of VE-cadherin in tumor endothelial plasticity

Le Guelte, Armelle

16 October 2012

La barrière hémato-encéphalique (BHE) régule le transport des molécules et des cellules du compartiment sanguin vers le système nerveux central. Pour assurer cette fonction, l’endothélium microvasculaire cérébral bénéficie d’un système particulier d’enzymes, de pompes d’efflux et de jonctions cellulaires spécialisées, qui ensemble contrôlent scrupuleusement le passage des molécules plasmatiques et des cellules circulantes. La VE-cadhérine est une molécule d’adhérence qui occupe une position unique dans l’organisation des jonctions endothéliales et le maintien de l’intégrité vasculaire. Cependant, même si le rôle de la VE-cadhérine est décrit comme fondamental au cours du développement du réseau vasculaire, sa participation dans l’intégrité de la BHE nécessite d’être explorée plus en détail. Le glioblastome, la tumeur cérébrale la plus agressive et la plus létale, est associée à une vascularisation hautement perméable. En outre, ces tumeurs renferment une sous-population de cellules souches gliomateuses (CSG) dérivant d’une fraction de cellules transformées à caractère souche, qui joueraient un rôle dans l’initiation et la progression tumorales, ainsi que dans la résistance aux thérapies conventionnelles. Plus particulièrement, ces cellules ont été retrouvées in situ en interaction directe avec les cellules endothéliales cérébrales. Néanmoins, l’implication des CSG dans la plasticité des cellules endothéliales cérébrales, et notamment la perméabilité vasculaire, n’a pas été étudiée. Au sein de notre équipe, nous avons démontré que les CSG sécrètent la Sémaphorine 3A (S3A), une molécule de répulsion caractérisée par une activité antiangiogénique et pro-perméabilité. La S3A induit une augmentation de la phosphorylation et de l’internalisation de la VE-cadhérine, conduisant à une perte de la fonction de barrière des cellules endothéliales cérébrales. Au niveau moléculaire, nous avons montré que Src, une tyrosine kinase, et Set, un inhibiteur naturel de PP2A, coopèrent pour inhiber l’activité phosphatase de PP2A en réponse à la S3A. Plus particulièrement, PP2A interagit avec la VE-cadhérine bloquant sa phosphorylation, son internalisation et l’ouverture de la barrière endothéliale. PP2A confère ainsi une stabilité à la VE-cadhérine, qui serait perturbée par la S3A produite localement par les CSG. Ce mécanisme pourrait jouer un rôle clé dans les défauts des vaisseaux irriguant les glioblastomes, et d’une manière générale dans la perméabilité vasculaire tumorale. L’ensemble de ces résultats nous permet de mieux caractériser les mécanismes moléculaires mis en jeu au cours de l’angiogenèse tumorale et d’envisager à long terme des molécules à visée thérapeutique, en ciblant par exemple la voie de signalisation activée par la S3A / The blood brain barrier (BBB) regulates the transport of molecules and cells from blood into the central nervous system. This implies that the cerebral microvascular endothelium has developed a particular system of enzymes, efflux pumps and specialized cell junctions, which together carefully control the passage of plasma molecules and circulating cells. Vascular endothelial (VE)-cadherin is an adhesion molecule that occupies a unique position in the organization of endothelial junctions and the maintenance of vascular integrity. In particular, phosphorylation and internalization of VE-cadherin destabilizes cell-cell contacts and increases permeability. However, though VE-cadherin is fundamental in the development of the vascular network, its participation in the integrity of the BBB needs to be further explored. Glioblastoma is the most aggressive and the most lethal brain tumor, which is characterized by a highly leaky vasculature. Furthermore, these tumors contain a subpopulation of glioma stem cells (GSC), which derive from a fraction of transformed stem cells. GSCs play a role in the tumor initiation, progression and resistance to conventional therapies. Notably, these cells were found in direct interaction with cerebral endothelial cells in situ. However, the involvement of GSCs in the plasticity of cerebral endothelial cells, including vascular permeability, has not been studied. Our team has demonstrated that GSCs secrete semaphorin 3A (S3A), a repulsive molecule characterized by anti-angiogenic and pro-permeability activity. S3A increased phosphorylation and internalization of VE-cadherin in cerebral endothelial cells, leading to a loss of barrier integrity. At the molecular level, Src, a tyrosine kinase, and Set, a natural inhibitor of PP2A, cooperate to inhibit the phosphatase activity of PP2A, in response to S3A. Specifically, we demonstrated that PP2A interacts with VE-cadherin at the basal level. This interaction blocks VE-cadherin phosphorylation and internalization and thereby prevents opening of the endothelial barrier. Thus, PP2A stabilizes VE-cadherin, and we further showed that this complex could be disrupted by S3A produced by GSCs. This mechanism could play a key role in the dysfunctions of the vessels supplying glioblastoma, and in tumor vascular permeability in general

Cellules souches gliomateuses

Cellules endothéliales cérébrales

Perméabilité

VE-cadhérine

Sémaphorine 3A

Glioma stem cells

Brain endothelial cells

Permeability

VE-cadherin

Semaphorin 3A

Imunoexpressão de caderinas e integrinas no desenvolvimento do epitélio cutâneo humano / Immunoexpression of cadherins and integrins in the development of human skin epithelium

Leonardo Kamibeppu

15 June 2011

Introdução: Caderinas e integrinas são importantes para a manutenção da integridade tecidual e transdução de sinal durante o desenvolvimento da pele. A distribuição destas moléculas no desenvolvimento da pele humana foi investigada e associada com os marcadores de diferenciação, Citoqueratinas (CK) e involucrina (INV). Método: Usando a técnica de imunoistoquímica foram investigadas as proteínas E- e P- caderinas, integrinas beta- 1 e -4, CK 10, CK 14 e INV em fragmentos de pele de várias regiões corpóreas de 7 fetos humanos (semana gestacional de 4 a 24, todos pesando até 500 g). Resultados: Na fase inicial do desenvolvimento, integrinas beta-1 e -4 and E- and P- caderinas estavam presentes na membrana plasmática das células epiteliais em todos as camadas do epitélio. CK14 e CK10 foram observadas em todas as camadas epiteliais e a INV fracamente detectada em células da camada mais superficial. Em estágios mais avançados, integrinas foram detectadas em todas as camadas epiteliais, com expressão polarizada principalmente na camada basal. E- caderina foi detctada em todas as camadas, menos no estrato cornificado e a P- caderina foi observada em camadas mais profundas do epitélio. CK14 estava presente na camada basal, CK 10 no estrato suprabasal e a INV foi observada no estrato cornificado. Conclusão: Caderinas e integrinas são essenciais para o desenvolvimento da pele, sendo espacialmente e temporalmente regulados. Suas expressões são relatas com a expressão da maturação de marcadores da epiderme. / Introduction: Cadherins and integrins are important for maintenance of tissue integrity and in signal transduction during skin development. Distribution of these molecules in human skin development was investigated and associated with markers of differentiation, cytokeratins (CK) and involucrin (INV). Methods: Using immunohistochemistry expression of E- and P- cadherins, integrins beta-1 and -4, CK10, CK 14 and INV was assessed in skin fragments of 7 human fetuses (gestacional weeks ranged from 4 to 24, all weighing up to 500 g). Results: At initial phases of development, integrins beta-1 and -4 and E- and P- cadherins were present on epithelial cell membranes in all layers. CK 14 and CK 10 were expressed in all epithelial layers and INV weakly detected in the superficial layer. In more advanced stages, integrins were detected in all layers, but a marked polarized expression was seen in basal layer. E- cadherin was detected in all layers, but the cornified stratum and P- cadherin were observed in the lower layers. CK 14 was expressed in layer, CK 10 in suprabasal stratum and INV was observed in cornified layer. Conclusions: Cadherins and integrins are essential for skin development, being spatially and temporally regulated. Their expression is related with the expression of maturation markers of the epidermis.

Cadeias beta de integrinas

Caderinas

Citoqueratinas

Epiderme

Integrina beta4

Moléculas de adesão celular

Pele/embriologia

Cadherin

Cell adhesion molecules

Cytokeratin

Epidermis

Integrin

Integrin beta4

Skin/embriology

Imunoexpressão de caderinas e integrinas no desenvolvimento do epitélio cutâneo humano / Immunoexpression of cadherins and integrins in the development of human skin epithelium

Kamibeppu, Leonardo

15 June 2011

Introdução: Caderinas e integrinas são importantes para a manutenção da integridade tecidual e transdução de sinal durante o desenvolvimento da pele. A distribuição destas moléculas no desenvolvimento da pele humana foi investigada e associada com os marcadores de diferenciação, Citoqueratinas (CK) e involucrina (INV). Método: Usando a técnica de imunoistoquímica foram investigadas as proteínas E- e P- caderinas, integrinas beta- 1 e -4, CK 10, CK 14 e INV em fragmentos de pele de várias regiões corpóreas de 7 fetos humanos (semana gestacional de 4 a 24, todos pesando até 500 g). Resultados: Na fase inicial do desenvolvimento, integrinas beta-1 e -4 and E- and P- caderinas estavam presentes na membrana plasmática das células epiteliais em todos as camadas do epitélio. CK14 e CK10 foram observadas em todas as camadas epiteliais e a INV fracamente detectada em células da camada mais superficial. Em estágios mais avançados, integrinas foram detectadas em todas as camadas epiteliais, com expressão polarizada principalmente na camada basal. E- caderina foi detctada em todas as camadas, menos no estrato cornificado e a P- caderina foi observada em camadas mais profundas do epitélio. CK14 estava presente na camada basal, CK 10 no estrato suprabasal e a INV foi observada no estrato cornificado. Conclusão: Caderinas e integrinas são essenciais para o desenvolvimento da pele, sendo espacialmente e temporalmente regulados. Suas expressões são relatas com a expressão da maturação de marcadores da epiderme. / Introduction: Cadherins and integrins are important for maintenance of tissue integrity and in signal transduction during skin development. Distribution of these molecules in human skin development was investigated and associated with markers of differentiation, cytokeratins (CK) and involucrin (INV). Methods: Using immunohistochemistry expression of E- and P- cadherins, integrins beta-1 and -4, CK10, CK 14 and INV was assessed in skin fragments of 7 human fetuses (gestacional weeks ranged from 4 to 24, all weighing up to 500 g). Results: At initial phases of development, integrins beta-1 and -4 and E- and P- cadherins were present on epithelial cell membranes in all layers. CK 14 and CK 10 were expressed in all epithelial layers and INV weakly detected in the superficial layer. In more advanced stages, integrins were detected in all layers, but a marked polarized expression was seen in basal layer. E- cadherin was detected in all layers, but the cornified stratum and P- cadherin were observed in the lower layers. CK 14 was expressed in layer, CK 10 in suprabasal stratum and INV was observed in cornified layer. Conclusions: Cadherins and integrins are essential for skin development, being spatially and temporally regulated. Their expression is related with the expression of maturation markers of the epidermis.

Cadeias beta de integrinas

Caderinas

Cadherin

Cell adhesion molecules

Citoqueratinas

Cytokeratin

Epiderme

Epidermis

Integrin

Integrin beta4

Integrina beta4

Moléculas de adesão celular

Pele/embriologia

Skin/embriology

Caractérisation des fonctions génomiques de variants du récepteur des androgènes dans le cancer de la prostate / Transcriptional activities of androgen receptor variants in prostate cancer

Ould Madi-Berthelemy, Pauline

25 September 2018

Le récepteur des androgènes (RA) est la principale cible thérapeutique du cancer de la prostate (CaP) métastatique. Bien que cette thérapie soit initialement efficace, les effets sont transitoires. De nombreux mécanismes peuvent expliquer la progression du CaP vers un stade de résistance à la castration, telles les modifications du RA. Des données récentes ont montré que les variants constitutifs RA-Q641X et RA-V7, caractérisés par la perte du domaine de liaison au ligand, étaient associés à l’expression de marqueurs mésenchymateux. L’étude de la régulation de la N-cadhérine a mis en évidence que si le RA sauvage et les variants constitutifs se liaient tous deux aux éléments de réponse du gène codant, seuls les derniers étaient associés à une augmentation de l’acétylation de l’histone H4, marque positive de la transcription. Le RNA-seq a révélé que leur expression était aussi corrélée à la régulation de sets de gènes spécifiques incluant des facteurs de transcription dont certains ont déjà été caractérisés en cancérologie.En ce qui concerne le RA-T576A, porteur d’une mutation faux-sens, les données ont révélé une séquence consensus de liaison à l’ADN moins conservée pour le RA sauvage que pour ce mutant et l’importance du 11ème nucléotide des éléments de réponse. De plus, cette mutation a semblé impacter le transcriptome du RA. Ce travail met en évidence le comportement distinct des variants du RA et aide à mieux comprendre leurs modes d’action en décrivant leurs activités transcriptionnelles. / The androgen receptor (AR) is the main therapeutic target in metastatic prostate cancer (PCa). Although this therapy is initially effective, the effects are transient. Many mechanisms can explain PCa progression toward castration resistance including abnormalities in the AR. Recent data have shown that constitutive AR (e.g AR-Q641X and AR-V7), which have lost the ligand binding domain, were associated with the induction of mesenchymal marker expression. The study of N-cadherin regulation highlighted that while both constitutive AR and wild type AR bound to response elements located in the encoding gene, only the AR variants were associated with an increase of H4 acetylation, a positive transcription mark. RNA-seq revealed that their expression was also correlated to specific sets of genes regulation, including transcription factors and genes involved in migration, AR regulation, and therapeutic resistance.Concerning AR-T576A, which hold a missense mutation, data revealed a less conserved consensus sequence for the wild type AR than for this mutant and highlighted the importance of the 11th nucleotide of the response element for AR recruitment to DNA. Plus, this mutation seemed to impair AR transcriptome. This work highlights the distinct AR variants’ behavior and helps to understand their mode of action by depicting their transcriptional landscapes.

Cancer de la prostate

Variants du récepteur des androgènes

N-cadhérine

Activité transcriptionnelle

Liaison à l’ADN

Prostate cancer

Androgen receptor variants

N-cadherin

Transcriptional landscape

DNA binding

572.8

616.99

Regulatory Effects of TGF-β Superfamily Members on Normal and Neoplastic Thyroid Epithelial Cells

Franzén, Åsa

January 2002

<p>Thyroid growth and function is partly regulated by growth factors binding to receptors on the cell surface. In the present thesis, the transforming growth factor-β (TGF-β) superfamily members have been studied for their role in regulation of growth and differentiation of both normal and neoplastic thyroid epithelial cells.</p><p>TGF-β1 is a negative regulator of thyrocyte growth and function. However, the importance of other TGF-β superfamily members has not been fully investigated. TGF-β1, activin A, bone morphogenetic protein (BMP)-7 and their receptors were found to be expressed in porcine thyrocytes. In addition to TGF-β1, activin A was also found to be a negative regulator of thyroid growth and function, and both stimulated phosphorylation and nuclear translocation of Smad proteins. Furthermore, TGF-β1 and epidermal growth factor (EGF) demonstrated a synergistic negative effect on thyrocyte differentiation. Simultaneous addition of the two factors resulted in a loss of the transepithelial resistance and expression of the epithelial marker E-cadherin. This was followed by a transient expression of N-cadherin.</p><p>Despite the extremely malignant character of anaplastic thyroid carcinoma (ATC) tumor cells, established cell lines are still responsive to TGF-β1. A majority of the cell lines were also found to be growth inhibited by BMP-7. BMP-7 induced cell cycle arrest of the ATC cell line HTh 74 in a dose- and cell density-dependent manner. This was associated with upregulation of p21^CIP1 and p27^KIP1, decreased cyclin-dependent kinase (Cdk) activity and hypophosphorylation of the retinoblastoma protein (pRb). TGF-β1, and to some extent also BMP-7, induced the expression of N-cadherin and matrix metalloproteinase (MMP)-2 and -9. Stimulation of HTh 74 cells with TGF-β1 increased the migration through a reconstituted basement membrane indicating an increased invasive phenotype of the cells.</p><p>Taken together, these data show that TGF-β superfamily members not only affect growth and function of normal thyroid follicle cells but may also, in combination with EGF, play a role in cell dedifferentiation. This study additionally suggests that the TGF-β superfamily members may be important for the invasive properties of ATC cells.</p>

Genetics

activin

BMP

cadherin

carcinoma

cell cycle arrest

dedifferentiation

EGF

growth inhibition

invasion

Smad

TGF-β

thyroid

Genetik

Clinical genetics

Klinisk genetik

Regulatory Effects of TGF-β Superfamily Members on Normal and Neoplastic Thyroid Epithelial Cells

Franzén, Åsa

January 2002

Thyroid growth and function is partly regulated by growth factors binding to receptors on the cell surface. In the present thesis, the transforming growth factor-β (TGF-β) superfamily members have been studied for their role in regulation of growth and differentiation of both normal and neoplastic thyroid epithelial cells. TGF-β1 is a negative regulator of thyrocyte growth and function. However, the importance of other TGF-β superfamily members has not been fully investigated. TGF-β1, activin A, bone morphogenetic protein (BMP)-7 and their receptors were found to be expressed in porcine thyrocytes. In addition to TGF-β1, activin A was also found to be a negative regulator of thyroid growth and function, and both stimulated phosphorylation and nuclear translocation of Smad proteins. Furthermore, TGF-β1 and epidermal growth factor (EGF) demonstrated a synergistic negative effect on thyrocyte differentiation. Simultaneous addition of the two factors resulted in a loss of the transepithelial resistance and expression of the epithelial marker E-cadherin. This was followed by a transient expression of N-cadherin. Despite the extremely malignant character of anaplastic thyroid carcinoma (ATC) tumor cells, established cell lines are still responsive to TGF-β1. A majority of the cell lines were also found to be growth inhibited by BMP-7. BMP-7 induced cell cycle arrest of the ATC cell line HTh 74 in a dose- and cell density-dependent manner. This was associated with upregulation of p21CIP1 and p27KIP1, decreased cyclin-dependent kinase (Cdk) activity and hypophosphorylation of the retinoblastoma protein (pRb). TGF-β1, and to some extent also BMP-7, induced the expression of N-cadherin and matrix metalloproteinase (MMP)-2 and -9. Stimulation of HTh 74 cells with TGF-β1 increased the migration through a reconstituted basement membrane indicating an increased invasive phenotype of the cells. Taken together, these data show that TGF-β superfamily members not only affect growth and function of normal thyroid follicle cells but may also, in combination with EGF, play a role in cell dedifferentiation. This study additionally suggests that the TGF-β superfamily members may be important for the invasive properties of ATC cells.

Genetics

activin

BMP

cadherin

carcinoma

cell cycle arrest

dedifferentiation

EGF

growth inhibition

invasion

Smad

TGF-β

thyroid

Genetik

Clinical genetics

Klinisk genetik

Mecanisme d'activació de fibronectina i LEF1 per Snail1 durant la transició epili-mesènquima

Agustí Benito, Cristina

28 May 2007

La transició Epiteli-Mesènquima es dóna durant el desenvolupament embrionari i en els estadis tardans de la progressió tumoral permetent que es produeixi la metàstasi. Aquestes transicions necessiten una repressió de l'E-Cadherina i es pot reproduir en cèl·lules en cultiu amb l'expressió ectòpica de Snail1, un repressor de l'E-Cadherina. Durant la transició produïda per Snail es produeix la ràpida activació de gens mesenquimals com Fibronectina i LEF1. L'expressió forçada d'E-Cadherina fa disminuir els nivells de RNA de Fibronectina i LEF1, indicant que en l'activació d'aquests dos gens està implicat un cofactor sensible a l'E-Cadherina. En concordança, la transcripció de Fibronectina i LEF1 és depenent de &#61538;-Catenina i NF&#61547;B. La sobreexpressió d'E-Cadherina inhibeix l'activitat transcripcional d'aquests dos factors i disminueix la seva interacció amb el promotor de Fibronectina. De manera similar a la &#61538;-Catenina, NF&#61547;B es detecta associat a l'E-Cadherina i altres components dels contactes intercel·lulars. Quan es trenquen les unions adherents, com quan es sobreexpressa Snail, la interacció E-Cadherina-NF&#61547;B disminueix i augmenta l'activitat transcripcional de NF&#61547;B i&#61472;&#61472;&#61538;-Catenina. / Epithelial to mesenchymal transitions takes place during embryo development and in the late stages of tumorigenesis allowing metastasis formation. These transitions require E-Cadherin downregulation and can be reproduced in cell culture by ectopic expression of Snail1, an E-Cadherin gene repressor. During Snail-induced transition a rapid upregulation of mesenchymal genes such as Fibronectin and LEF1 has been characterized. Forced expression of E-Cadherin strongly down-regulates Fibronectin and LEF1 RNA levels, indicating that an E-Cadherin sensitive cofactor is involved in the activation of these genes. Accordingly, transcription of Fibronectin and LEF1 was dependent on &#61538;-Catenin and NF&#61547;B. E-Cadherin over-expression downregulated the transcriptional activity of both factors and decreased their interaction to Fibronectin promoter. Similarly to &#61538;-Catenin, NF&#61547;B was detected associated to E-Cadherin and other cell adhesion components. Association of NF&#61547;B to E-Cadherin required the integrity of this complex; conditions that disrupts adherens junctions, such as Snail over-expression, decreased E-Cadherin-NF&#61547;B interaction and up-regulates NF&#61547;B and &#61538;-Catenin transcriptional activity. Therefore, &#61538;-Catenin and NF&#61547;B transcriptional activities are required for expression of the studied mesenchymal genes and these activities are inactivated by immobilizing &#61538;-Catenin and NF&#61547;B to functional E-Cadherin structures.

Fibronectin

b-Catenin

E-Cadherin

SOX7

SOX9

Fibronectina

LEF1

NF&#61547;B

&#61538;-Catenina

E-Cadherina

Snail1

MET

EMT

575

576