Modulation of GLO1 expression affects malignant properties of cells

Hutschenreuther, Antje, Bigl, Marina, Hemdan, Nasr Y. A., Debebe, Tewodros, Gaunitz, Frank, Birkenmeier, Gerd

January 2016

The energy metabolism of most tumor cells relies on aerobic glycolysis (Warburg effect) characterized by an increased glycolytic flux that is accompanied by the increased formation of the cytotoxic metabolite methylglyoxal (MGO). Consequently, the rate of detoxification of this reactive glycolytic byproduct needs to be increased in order to prevent deleterious effects to the cells. This is brought about by an increased expression of glyoxalase 1 (GLO1) that is the rate-limiting enzyme of the MGO-detoxifying glyoxalase system. Here, we overexpressed GLO1 in HEK 293 cells and silenced it in MCF-7 cells using shRNA. Tumor-related properties of wild type and transformed cells were compared and key glycolytic enzyme activities assessed. Furthermore, the cells were subjected to hypoxic conditions to analyze the impact on cell proliferation and enzyme activities. Our results demonstrate that knockdown of GLO1 in the cancer cells significantly reduced tumor-associated properties such as migration and proliferation, whereas no functional alterations where found by overexpression of GLO1 in HEK 293 cells. In contrast, hypoxia caused inhibition of cell growth of all cells except of those overexpressing GLO1. Altogether, we conclude that GLO1 on one hand is crucial to maintaining tumor characteristics of malignant cells, and, on the other hand, supports malignant transformation of cells in a hypoxic environment when overexpressed.

info:eu-repo/classification/ddc/601

ddc:601

The Prognostic Significance of Insulin-like Growth Factor II mRNA-Binding Protein 3 (IMP3) Expression in Oral Epithelial Dysplasia: a Retrospective Case-Control Study

Mainville, Gisele Nadia

January 2013

No description available.

Dentistry

Pathology

IGF2BP3

IMP3

KOC

oral epithelial dysplasia

malignant transformation

prognostic biomarker

Tissue Studio 3.5

Identification de nouveaux mécanismes de carcinogénèse et facteurs pronostiques des tumeurs hépatocellulaires / Identification of new mechanisms of carcinogenesis and new prognostic biomarkers in hepatocellular tumors

Nault, Jean-Charles

20 October 2015

Les adénomes hépatocellulaires (AHC) sont des tumeurs hépatiques bénignes rares se développant chez la femme jeune suite à la prise de contraceptifs oraux et pouvant se compliquer d’hémorragie et de transformation maligne en carcinome hépatocellulaire (CHC). Une classification génotype/phénotype a mise en évidence trois groupes d’AHC : les AHC inactivés pour le facteur de transcription HNF1A, les AHC mutés pour la β-caténine et les AHC dit « inflammatoires » ayant une activation de la voie JAK/STAT. Nous avons identifiés des mutations activatrices du gènes GNAS, codant pour la sous unité alpha de la protéine Gs, dans un sous-groupe d’AHC inflammatoires ainsi que chez des patients avec des AHC et atteints d’un syndrome de McCune Albright, une maladie rare combinant des tumeurs endocriniennes, une dysplasie fibreuse osseuse et des taches cutanés café au lait. Cette découverte confirme les interactions entre la voie de l’AMP cyclique induite par les mutations GNAS et la voie JAK/STAT. Les CHC sont les tumeurs primitives du foie les plus fréquentes, survenant souvent sur un foie cirrhotique exposé à différents facteurs de risque comme l’hépatite B chronique, l’hépatite C chronique, l’alcool ou le syndrome métabolique. Le CHC est le résultat de l’accumulation d’altérations génétiques et épigénétiques. Premièrement, nous avons identifiés les mutations du promoteur de TERT (Telomerase reverse transcriptase) comme les altérations génétiques somatiques les plus fréquentes des CHC. Ces mutations ont été aussi retrouvées dans des lésions prénéoplasiques développées sur cirrhose suggérant leurs rôles précoces dans l’initiation tumorale et la transformation maligne. A l’inverse l’étude des mutations du promoteur de TERT et la réalisation de séquençage haut-débit dans les AHC et les transformation d’adénome en CHC nous a permis de disséquer les mécanismes de transformation maligne sur foie sain avec la présence de manière précoce d’une mutation de la β-caténine et dans un second temps l’apparition d’une mutation dans le promoteur de TERT. Par la suite, nous avons mis en évidence une signature moléculaire pronostique transcriptomique chez les patients avec CHC traités par résection hépatique. Cette signature moléculaire prédisant à la fois la récidive tumorale et le décès a été validée dans des cohortes de patients à l’étranger. Enfin, nous avons mise en évidence le rôle oncogénique de l’adeno-associated virus de type 2 dans la survenue de CHC sur foie sain via un mécanisme de mutagénèse insertionnelle dans des gènes clés de la carcinogénèse comme TERT, CCNA2, MLL4 ou TNFSF10. Ces résultats ont permit de mettre en évidence de nouveaux facteurs de risque viraux de survenue du CHC, d’identifier de nouvelles altérations génétiques impliquées dans la transformation maligne sur cirrhose et sur foie sain et permit de développer une signature moléculaire pronostique qui pourrait être utiliser dans le futur comme une aide à la stratification thérapeutique chez les patients atteint de CHC. / Hepatocellular adenomas (HCA) are rare benign liver tumors occuring in young women taking oral contraception and complications as haemorrhage or malignant transformation in hepatocellular carcinomes (HCC) could occur. A genotype/phenotype classification has defined different subgroups of tumors : HCA with inactivating mutations of HNF1A, HCA with activating mutations of β-catenin and inflammatory HCA with activation of the JAK/STAT pathway. We have identified activation mutations of GNAS, that codes for the alpha subunit of the Gs protein in a subgroup of inflammatory HCA and in patients with HCA and McCune Albright syndrom, a rare disease that combined endocrine tumor, bone fibrous dysplasia and « cafe au lait » skin macula. These findings highlight the crosstalk between the cyclic AMP pathway induced by GNAS mutation with the JAK/STAT pathway. HCC are the most frequent primary liver tumors worldwide and mainly occur on cirrhosis due to various risk factor as hepatitis B and C virus, alcohol consumption and metabolic syndrome. HCC is due to the accumulation of genetic and epigenetic alterations in the malignant hepatocytes. We have identified TERT (telomerase reverse transcriptase) promoter mutations as the most frequent somatic genetic alterations in HCC. These mutations were also found in cirrhotic premalignant nodules underlying their role in tumor initiation and malignant transformation. In contrast, the study of the different steps of malignant transformation of HCA into HCC using next generation sequencing and TERT promoter screening have shown that activatiing mutation of β-catenin is an early genetic alteration whereas TERT promoter mutation is required in a second step to promote a full malignant transformation. We have also identified a prognostic molecular signature, the 5-gene score, in patients with HCC treated by liver resection. The 5-gene score predicts tumor recurrence and disease specific survival and has been validated in different cohorts of patients worldwide. Finally, we have shown that adeno-associated virus type 2 is involved in liver carcinogenesis on normal liver through insertional mutagenesis in key cancer genes as TERT, CCNA2, MLL4 and TNFSF10. These results have underlined a new oncogenic virus involved in HCC development, identified new genetic alterations involved in malignant transformation on cirrhosis and normal liver and a new prognostic molecular signature that will help to guide treatment of patients with HCC in the future.

Adénome hépatocellulaire

JAK/STAT

GNAS

TERT

Transformation maligne

Carcinome hépatocellulaire

Score 5-gène

Pronostic moléculaire

AAV2

Mutagénèse insertionnelle

Hepatocellular adenoma

JAK/STAT

GNAS

TERT

Malignant transformation

Hepatocellular carcinoma

5-gene score

Molecular signature

AAV2

Insertional mutagenesis

616.994

Análise do papel de hormônios e fatores de crescimento no controle da proliferação celular em mamíferos / Analysis of the role of hormones and growth factors in the control of cell proliferation in mammals

Sogayar, Mari Cleide

16 November 1977

O objetivo deste trabalho foi estudar o processo pelo qual hormônios e fatores de crescimento controlam a proliferação celular em mamíferos. O modelo experimental utilizado foi linhagens de células estabelecidas em cultura. Os estudos centraram-se em dois tipos básicos de células: fibroblastos e células adrenais e o ataque experimental foi feito sob dois pontos de vista: bioquímico e genético. O ataque bioquímico envolveu desenvolver estudos cinéticos da síntese de DNA não só durante o carenciamento de células para soro, como também durante a reestimulação de células carenciadas por:soro, hormônios e fatores de crescimento. Medidas do conteúdo intracelular de cAMP foram efetuadas com o intuito de adquirir informações à respeito do mecanismo de ação destes fatores. Um modelo de ciclo celular foi proposto no qual o controle do crescimento seria exercido através de reguladores positivos e negativos que agiriam estimulando ou inibindo a passagem de células do estado de repouso (Go) para a fase proliferativa. Entre os reguladores positivos (estimuladores) do sistema fibroblasto, encontra-se hormônios clássicos, como esteróides e insulina, e fatores de crescimento de natureza hormonal como EGF, PF (fator proteico extraído de glândulas pituitárias) e prostaglandina F2α. O esteróide hidrocortisona pode agir como regulador negativo, inibindo o crescimento de fibroblastos. Medidas do período de tempo transcorrido desde a estimulação de células carenciadas (Go), até o aparecimento da onda de síntese de DNA (período definido operacionalmente como Gl) foram feitas. Em fibroblastos 3T3 este período foi de 12 a 13 horas tanto para células estimuladas com soro como com hormônios clássicos (hidrocortisona, insulina) ou fatores de crescimento (EGF, PF) ou ainda com combinações deles (EGF + PF + insulina; PF + hidrocortisona; PF + hidrocortisona + insulina). No sistema células adrenais, adrenocorticotropina (ACTH) foi o único hormônio clássico que apresentou atividade sobre o crescimento destas células e também o único efetuador negativo encontrado. Neste sistema PF mostrou-se como o único fator com atividade estimulatória sobre o crescimento. Gl aqui foi de 11 horas tanto para células estimuladas com soro como com PF. Além disso os hormônios clássicos hidrocortisona e insulina não apresentaram atividade estimulatória por si só ou em combinação com PF. A análise da ação de hidrocortisona no sistema fibroblasto e de ACTH no sistema células adrenais estimuladas, forneceu evidências de que após deixar Go, em direção a S, numa certa altura de Gl as células tornam-se irreversivelmente comprometidas com o processo replicativo. Este comprometimento parece ocorrer 5 horas antes de S, sendo referido como Glc. Em face destes resultados foi proposto que os reguladores agem estimulando ou inibindo a transição Go → Glc. Na tentativa de obter maior definição do sistema de controle do crescimento, aproveitamo-nos das vantagens oferecidas pelo modelo experimental usado, para a busca de mutantes do tipo regulatório. Esta busca resultou no isolamento das linhagens ST1 e AR-1, derivadas, respectivamente, de fibroblastos 3T3 e células adrenais Y-l. Entre os vários aspectos interessantes da linhagem ST1 destaca-se: a) o dramático efeito de hidrocortisona causando mudança nas características das células as quais passam de um fenótipo tipicamente transformado para normal. Este fenômeno foi observado tanto \"in vitro\" (através de medidas de parâmetros de crescimento) como \"in vivo\" (através de ensaios de tumorogenicidade); b) as alterações morfológicas de caráter antagônico provocadas, por um lado, pela adição de hidrocortisona (causando achatamento) e, por outro, pela retirada do soro ou adição de cAMP ao meio de cultura (arredondamento). Através do estudo da ação de inibidores, obteve-se evidências do envolvimento de microtúbulos nestas alterações morfológicas. A análise do conteúdo intracelular de cAMP indicou que este nucleotídeo não atua como mediador da ação de hidrocortisona. Sua ação parece ser devida à indução de alterações no sistema superfície celular - membrana -citoesqueleto. Ao contrário de outros variantes de células Y-l resistentes à ACTH, células AR-1 mostraram-se também resistentes a cAMP. A utilidade destas células nos estudos da postulada mediação deste nucleotídeo na ação de ACTH, é óbvia. / The aim of this work was to study the process by which hormones and growth factors control proliferation of mammalian cells. Cell lines established in culture were used as the experimental model. The studies were centered on two basic types of cells: fibroblasts and adrenal cells and the experimental approach was made from two viewpoints: biochemical and genetic. The biochemical approach involved kinetic studies of the DNA synthesis process not only during serum starvation but also during restimulation of serum starved cells by serum, hormones and growth factors. Intracellular cyclic AMP determinations were made in order to gain informations on the mechanism of action of these factors. A cell cycle model was proposed in which cell growth control would be exerted by positive and negative regulators that would act by stimulating or inhibiting the flow of cells from a resting state (Go) to the proliferative phase. Among the positive regulators (stimulators) found for the fibroblast system are: classical hormones, like steroids and insulin, and growth factors of homonal nature, like EGF, PF (protein factor extracted from pituitary glands) and prostaglandin F2α. The steroid hydrocortisone can also act as a negative regulator, inhibiting fibroblast growth. Measurements of the time interval between stimulation of serum starved (Go) cells and the onset of DNA synthesis (period that is operationally defined as Gl) were made. In 3T3 fibroblasts this period was 12 to 13 hours for cells stimulated not only by serum but also by classical hormones (hydrocortisone, insulin) or growth factors (EGF, PF) or even by combinations of these factors (EGF + PF + insulin; PF + hydrocortisone; PF + hydrocortisone + insulin). In the adrenal system, adrenocorticotropin (ACTH) was the only classical hormone to present activity on the growth of these cells and also the only negative regulator found. In this system PF was shown to be the only factor with growth stimulatory activity. GL was estimated as 11 hours for cells stimulated with serum or PF. Moreover hydrocortisone and insulin had no stimulatory activity \"per si\" or in combination with PF. The analysis of hydrocortisone action on the fibroblast system on one hand and of that of ACTH on the adrenal system, on the other, indicated that upon leaving Go, towards S, at a certain point in Gl, cells become irreversibly committed to the replicative process. This commitment seems to occur 5 hours before S and is referred to as Glc. In view of these data we proposed that regulators act by stimulating or inhibiting the transition Go → Glc. In an attempt to obtain a better definition of the growth control system and taking advantage of the experimental model utilized, we searched for mutants of the regulatory type. This search resulted in the isolation of the lines ST1 and AR-l from 3T3 fibroblasts and Y-l adrenal cells, respectively. Among several interesting aspects of the STl cell line, we point out: a) the dramatic effect of hydrocortisone changing the characteristics of these cells from a typically transformed phenotype to a normal pattern. This phenomenon was observed both \"in vitro\" (by measuring a number of growth parameters) and \"in vivo\" (by tumorogenicity assays). b) morphological alterations of antagonistic nature caused by hydrocortisone (flattening) on one hand, and by the removal of serum or cAMP addition to the culture medium (rounding) on the other. Evidence for the involvement of microtubules in these alterations were obtained through studies on the action of several inhibitors. Quantitative analysis of intracellular cAMP indicated that this nucleotide does not act as a mediator of hydrocortisone action. Rather, this action seems to be due to the induction of alterations on the cell surface-membrane-cytoskeleton system. Contrary to other variants of the Y-1 line which are resistant to ACTH, AR-1 cells are also resistant to cAMP. The usefulness of these cells in studies of the postulated mediation by cAMP of the ACTH action, is obvious.

Adrenocorticotropic

Adrenocorticotropina

Control of cell proliferation

Controle de proliferação celular

Cultura de células de mamíferos

Culture of mammalian cells

Glucocorticoid hormones

Hormônios glicocorticoides

Malignant transformation

Reversão fenotípica tumoral-normal

Transformação maligna

Tumor-standard phenotypic reversion

Caractérisation moléculaire des adénomes hépatocellulaires / Molecular characterization of hepatocellular adenomas

Pilati, Camilla

08 October 2013

Les adénomes hépatocellulaires (AHC) sont des tumeurs bénignes rares qui se développent le plus souvent chez la femme jeune suite à la prise de contraceptifs oraux. Les complications principales sont l’hémorragie et plus rarement, la transformation maligne en carcinome hépatocellulaire (CHC). Des travaux récents ont permis d’identifier 3 groupes moléculaires principales d’AHC qui se définissent par (1) l’inactivation du facteur de transcription HNF1A (H-HCA), (2) l'activation de la voie Wnt/ß-caténine (bHCA) ou (3) la présence d’infiltrats inflammatoires (IHCA).Afin d’identifier les voies de tumorigenèse associées au développement d’AHC inflammatoires (IHCA), une analyse transcriptomique comparant des IHCA à des foies non tumoraux a été réalisée au laboratoire, ce qui a permis d’identifier dans ce groupe tumoral une activation de la voie IL-6/JAK/STAT3. Nous avons recherché de nouvelles altérations géniques et nous avons caractérisé le mécanisme d'activation de la voie IL-6/JAK/STAT dans les IHCA. Les conséquences fonctionnelles sur la voie STAT3 des différents mutants ont été analysées par une modélisation de leur expression dans des lignées hépatocellulaires. Par ailleurs, nous avons réalisé des études génomiques intégrées (analyse CGH-SNP, méthylome et séquençage exome) sur une large série de 250 AHC avec pour objectif d’affiner la classification moléculaire des AHC, d’identifier de nouveaux gènes altérés dans ces tumeurs et d’élucider les mécanismes de transformation maligne des AHC en CHC.Dans le groupe des IHCA, ces analyses nous ont permis d’identifier de nombreux oncogènes activés par mutation somatique ; de plus, trois de ces gènes n’avaient jamais été décrits comme étant mutés dans des tumeurs humaines. Nous avons identifié des mutations activatrices du récepteur à l’IL-6, gp130 dans 60% des IHCA. Nous avons aussi retrouvé des mutations de FRK, une src-like kinase, dans 10% des IHCA, du facteur de transcription STAT3 dans 5% des IHCA, du gène GNAS dans 5% des cas, et de la tyrosine kinase JAK1 dans 1% des cas. Toutes les mutations identifiées étaient somatiques, monoalléliques et mutuellement exclusives. Nous avons pu montrer, dans des systèmes de lignées cellulaires hépatocellulaires, que l'expression des formes mutées de ces gènes est capable d’activer la voie IL-6/STAT3 en absence du ligand IL-6, contrairement aux protéines sauvages. Nous avons identifié des inhibiteurs pharmacologiques qui permettent d’inhiber de façon spécifique ces mutants et qui pourraient être utilisés en clinique pour le traitement des IHCA.Grâce à une technique de CGH-SNP, nous avons identifié des événements récurrents de pertes et gains de chromosomes associés aux groupes moléculaires d’AHC. De façon similaire, l’étude de la méthylation dans les AHC a permis de mettre en évidence un pattern spécifique à chaque sous groupe. Nous avons montré que l’instabilité chromosomique augmente progressivement dans les lésions borderline et dans les CHC développés sur AHC comparés aux AHC classiques. Le séquençage exome de 5 transformations malignes de AHC en CHC a identifié un nombre plus important de mutations dans les AHC qui ont transformé comparé aux AHC classiques ; ce nombre est significativement augmenté dans la partie CHC des tumeurs. La comparaison de la partie bénigne et maligne des tumeurs a mis en évidence l'activation de ß-caténine comme un évènement précoce dans le processus de transformation et a révélé la présence de mutations somatiques fréquentes dans le promoteur de la télomèrase (TERT), identifiées principalement dans la partie maligne des tumeurs.En conclusion, cette étude a permis d’identifier des mécanismes distincts conduisant à l'activation de STAT3 dans les IHCA, renforçant le rôle de la voie JAK-STAT3 dans la tumorigenèse bénigne hépatocellulaire ainsi que le lien entre Src kinases et inflammation. Ces travaux ont permis d’affiner la classification moléculaire des AHC avec des corrélations étroites... / Hepatocellular adenomas (HCA) are rare benign tumors that develop most often in young women after taking oral contraception. The main complications are hemorrhage and rarely, malignant transformation to hepatocellular carcinoma (HCC). Recent work in the laboratory identified three main HCA molecular groups that are defined by (1) inactivation of the transcription factor HNF1A (H-HCA), (2) activation of the Wnt/ß-catenin pathway (bHCA) or (3) the presence of inflammatory infiltrates (IHCA).To identify tumorigenesis pathways associated with the development of inflammatory HCA (IHCA), a transcriptome analysis comparing IHCA to non-tumor liver was performed in the laboratory, leading to the identification of an activation of the IL-6/JAK/STAT3 pathway in these tumors. We sought new gene alterations and we characterized the activation mechanism of the IL-6/JAK/STAT pathway in IHCA. The functional consequences of the different mutants on the STAT3 pathway were analyzed by modeling their expression in hepatocellular cell lines. In addition, we performed integrated genomic studies (CGH-SNP analysis, methylome and exome sequencing) on a wide range of 250 HCA with the aim to refine the molecular classification of HCA, to identify new genes altered in these tumors and to elucidate the mechanisms of malignant transformation of HCA to HCC.In the group of the IHCA, we identified many oncogenes activated by somatic mutation; in addition, three of these genes were never been described as mutated in human tumors. We identified activating mutations in the IL-6 receptor gp130 in 60% of IHCA. We also found mutations in FRK, a src-like kinase, in 10% of IHCA, of the transcription factor STAT3 in 5% of IHCA, of the GNAS gene in 5% of cases, and of the tyrosine kinase JAK1 in 1% of the cases. All identified mutations were somatic and monoallelic and were mutually exclusive. We have shown in hepatocellular cell lines that the expression of mutated forms of these genes is able to activate the IL-6/STAT3 pathway in the absence of the IL-6 ligand, in contrast to wild-type proteins. We have identified pharmacological inhibitors that specifically inhibit the mutants and that could be used for the clinical treatment of IHCA.Using a CGH-SNP technique, we identified recurrent chromosomes gains and losses associated with the HCA molecular groups. Similarly, the study of methylation in HCA highlighted a specific pattern in each subgroup. We showed that chromosomal instability increases gradually in borderline lesions and in HCC developed on HCA compared to classical HCA. Exome sequencing of 5 malignant transformation of HCA to HCC identified a large number of mutations in the transformed HCA compared to classical HCA; and this number is significantly increased in HCC tumors counterpart. Comparison of benign and malignant tumors highlighted the activation of ß-catenin as an early event in the transformation process and revealed frequent somatic mutations in the promoter of the telomerase gene (TERT), identified mainly in the malignant part of tumors.In conclusion, this study has led to the identification of distinct mechanisms leading to the activation of STAT3 in IHCA, strengthening the role of the JAK-STAT3 pathway in benign hepatocellular tumorigenesis and the relationship between Src kinases and inflammation. This work helped to refine the molecular classification of HCA with tight correlations between genotype and phenotype, and led to advances in the identification of major genetic determinants involved in the process of malignant transformation.

Adénome hépatocellulaire

JAK/STAT

Gp130

STAT3

GNAS

FRK

JAK1

CTNNB1

TERT

Transformation maligne

Carcinome hépatocellulaire

Hepatocellular adenoma

JAK/STAT

Gp130

STAT3

GNAS

FRK

JAK1

CTNNB1

TERT

Malignant transformation

Hepatocellular carcinoma

616.993

Les protéines MBD2 et ZBTB4 répriment la transcription de nombreux gènes méthylés. MBD2 est redistribuée sur l’ADN méthylé dans des modèles de transformation oncogénique / MBD2 and ZBTB4 proteins repress the transcription of numerous methylated genes. MBD2 is redistributed on methylated DNA in models of oncogenic transformation

Devailly, Guillaume

19 December 2014

La méthylation de l'ADN est une marque épigénétique répressive impliquée dans de nombreux processus physiologiques et pathologiques. Des hyperméthylations de promoteurs sont ainsi responsables de répressions transcriptionnelles de gènes suppresseurs de tumeurs dans les cancers. La méthylation de l'ADN serait capable d'induire une répression transcriptionnelle par la combinaison de deux mécanismes principaux : l'éloignement de facteurs de transcription activateurs, et le recrutement de protéines répressives liant spécifiquement l'ADN méthylé. MBD2 est une protéine de liaison à l'ADN méthylé capable de recruter les complexes répresseurs NuRD et SIN3A. ZBTB4 est capable de se lier à l'ADN méthylé in vitro et induit une répression de la transcription de plasmides méthylés lorsqu'elle est surexprimée. Son rôle de répresseur transcriptionnel dépendant de la méthylation de l'ADN reste toutefois peu documenté. Nous avons identifiés par RNAseq les modifications du transcriptome induites par une déplétion de MBD2 ou de ZBTB4. Les gènes surexprimés après déplétion de MBD2 ou ZBTB4 sont méthylés sur leur promoteur, et sont aussi surexprimés après traitement avec des agents déméthylants. Des résultats d'immuno-précipitations de chromatine réalisées contre les deux protéines endogènes montrent que la quasi-totalité des sites de fixation de MBD2 et qu'une partie des sites de fixations de ZBTB4 correspondent à des régions méthylés. Ces résultats confirment à l'échelle du génome que MBD2 endogène est bien un interprète majeur de la méthylation de l'ADN, et que ZBTB4 réprime bien la transcription de gènes méthylés. Nous avons aussi observé une redistribution importante de MBD2 sur le génome dans des modèles de progression tumorale. Nos résultats montrent que les gènes réprimés pendant la transformation oncogénique le sont en partie par MBD2. L'expression de certains de ces gènes peut être induite dans les lignées transformées par déplétion de MBD2 par siRNA / DNA methylation is an epigenetic mark that plays a role in many physiological and pathological processes. Indeed, silencing of tumor suppressor genes in cancer is frequently caused by promoter hypermethylations. Transcriptional repression induced by DNA methylation is likely caused by the combination of two mechanisms: the repulsion of activator transcription factors, and the recruitment of repressor proteins able to specifically recognize methylated DNA. MBD2 is a methyl DNA binding protein that cans recruits NuRD or SIN3A repressor complexes. ZBTB4 is able to bind methylated DNA in vitro, and can repress the transcription of methylated plasmids when overexpressed. Its methylationdependent transcriptional repressor function remains poorly documented. By RNAseq, we have identified transcriptomic modifications induced by the depletion of either MBD2 or ZBTB4. Genes up regulated after MBD2 or ZBTB4 depletion were methylated on their promoter, and were also up regulated after treatment with demethylating agents. Chromatin immunoprecipitations experiments against endogenous proteins showed that almost all MBD2 binding sites, and that a part of ZBTB4 binding sites, correspond to methylated DNA regions. These results confirmed at genome wide scale that endogenous MBD2 is a major reader of DNA methylation and that ZBTB4 does repress the transcription of methylated genes. We observed an important redistribution of MBD2 on the genome in models of tumor progression. Our results showed that MBD2 plays role in gene repressions occurring during oncogenic transformation. Some of those repressed genes can be re-expressed in transformed cell lines after depletion of MBD2 by siRNA

Épigénétique

Méthylation de l’ADN

Répression transcriptionnelle

Transformation tumorale

MBD2

ZBTB4

RNAseq

ChIPseq

Epigenetics

DNA methylation

Transcriptional repression

Methyl DNA binding proteins

Malignant transformation

MBD2

ZBTB4

RNAseq

ChIPseq

572.8

Análise do papel de hormônios e fatores de crescimento no controle da proliferação celular em mamíferos / Analysis of the role of hormones and growth factors in the control of cell proliferation in mammals

Mari Cleide Sogayar

16 November 1977

O objetivo deste trabalho foi estudar o processo pelo qual hormônios e fatores de crescimento controlam a proliferação celular em mamíferos. O modelo experimental utilizado foi linhagens de células estabelecidas em cultura. Os estudos centraram-se em dois tipos básicos de células: fibroblastos e células adrenais e o ataque experimental foi feito sob dois pontos de vista: bioquímico e genético. O ataque bioquímico envolveu desenvolver estudos cinéticos da síntese de DNA não só durante o carenciamento de células para soro, como também durante a reestimulação de células carenciadas por:soro, hormônios e fatores de crescimento. Medidas do conteúdo intracelular de cAMP foram efetuadas com o intuito de adquirir informações à respeito do mecanismo de ação destes fatores. Um modelo de ciclo celular foi proposto no qual o controle do crescimento seria exercido através de reguladores positivos e negativos que agiriam estimulando ou inibindo a passagem de células do estado de repouso (Go) para a fase proliferativa. Entre os reguladores positivos (estimuladores) do sistema fibroblasto, encontra-se hormônios clássicos, como esteróides e insulina, e fatores de crescimento de natureza hormonal como EGF, PF (fator proteico extraído de glândulas pituitárias) e prostaglandina F2α. O esteróide hidrocortisona pode agir como regulador negativo, inibindo o crescimento de fibroblastos. Medidas do período de tempo transcorrido desde a estimulação de células carenciadas (Go), até o aparecimento da onda de síntese de DNA (período definido operacionalmente como Gl) foram feitas. Em fibroblastos 3T3 este período foi de 12 a 13 horas tanto para células estimuladas com soro como com hormônios clássicos (hidrocortisona, insulina) ou fatores de crescimento (EGF, PF) ou ainda com combinações deles (EGF + PF + insulina; PF + hidrocortisona; PF + hidrocortisona + insulina). No sistema células adrenais, adrenocorticotropina (ACTH) foi o único hormônio clássico que apresentou atividade sobre o crescimento destas células e também o único efetuador negativo encontrado. Neste sistema PF mostrou-se como o único fator com atividade estimulatória sobre o crescimento. Gl aqui foi de 11 horas tanto para células estimuladas com soro como com PF. Além disso os hormônios clássicos hidrocortisona e insulina não apresentaram atividade estimulatória por si só ou em combinação com PF. A análise da ação de hidrocortisona no sistema fibroblasto e de ACTH no sistema células adrenais estimuladas, forneceu evidências de que após deixar Go, em direção a S, numa certa altura de Gl as células tornam-se irreversivelmente comprometidas com o processo replicativo. Este comprometimento parece ocorrer 5 horas antes de S, sendo referido como Glc. Em face destes resultados foi proposto que os reguladores agem estimulando ou inibindo a transição Go → Glc. Na tentativa de obter maior definição do sistema de controle do crescimento, aproveitamo-nos das vantagens oferecidas pelo modelo experimental usado, para a busca de mutantes do tipo regulatório. Esta busca resultou no isolamento das linhagens ST1 e AR-1, derivadas, respectivamente, de fibroblastos 3T3 e células adrenais Y-l. Entre os vários aspectos interessantes da linhagem ST1 destaca-se: a) o dramático efeito de hidrocortisona causando mudança nas características das células as quais passam de um fenótipo tipicamente transformado para normal. Este fenômeno foi observado tanto \"in vitro\" (através de medidas de parâmetros de crescimento) como \"in vivo\" (através de ensaios de tumorogenicidade); b) as alterações morfológicas de caráter antagônico provocadas, por um lado, pela adição de hidrocortisona (causando achatamento) e, por outro, pela retirada do soro ou adição de cAMP ao meio de cultura (arredondamento). Através do estudo da ação de inibidores, obteve-se evidências do envolvimento de microtúbulos nestas alterações morfológicas. A análise do conteúdo intracelular de cAMP indicou que este nucleotídeo não atua como mediador da ação de hidrocortisona. Sua ação parece ser devida à indução de alterações no sistema superfície celular - membrana -citoesqueleto. Ao contrário de outros variantes de células Y-l resistentes à ACTH, células AR-1 mostraram-se também resistentes a cAMP. A utilidade destas células nos estudos da postulada mediação deste nucleotídeo na ação de ACTH, é óbvia. / The aim of this work was to study the process by which hormones and growth factors control proliferation of mammalian cells. Cell lines established in culture were used as the experimental model. The studies were centered on two basic types of cells: fibroblasts and adrenal cells and the experimental approach was made from two viewpoints: biochemical and genetic. The biochemical approach involved kinetic studies of the DNA synthesis process not only during serum starvation but also during restimulation of serum starved cells by serum, hormones and growth factors. Intracellular cyclic AMP determinations were made in order to gain informations on the mechanism of action of these factors. A cell cycle model was proposed in which cell growth control would be exerted by positive and negative regulators that would act by stimulating or inhibiting the flow of cells from a resting state (Go) to the proliferative phase. Among the positive regulators (stimulators) found for the fibroblast system are: classical hormones, like steroids and insulin, and growth factors of homonal nature, like EGF, PF (protein factor extracted from pituitary glands) and prostaglandin F2α. The steroid hydrocortisone can also act as a negative regulator, inhibiting fibroblast growth. Measurements of the time interval between stimulation of serum starved (Go) cells and the onset of DNA synthesis (period that is operationally defined as Gl) were made. In 3T3 fibroblasts this period was 12 to 13 hours for cells stimulated not only by serum but also by classical hormones (hydrocortisone, insulin) or growth factors (EGF, PF) or even by combinations of these factors (EGF + PF + insulin; PF + hydrocortisone; PF + hydrocortisone + insulin). In the adrenal system, adrenocorticotropin (ACTH) was the only classical hormone to present activity on the growth of these cells and also the only negative regulator found. In this system PF was shown to be the only factor with growth stimulatory activity. GL was estimated as 11 hours for cells stimulated with serum or PF. Moreover hydrocortisone and insulin had no stimulatory activity \"per si\" or in combination with PF. The analysis of hydrocortisone action on the fibroblast system on one hand and of that of ACTH on the adrenal system, on the other, indicated that upon leaving Go, towards S, at a certain point in Gl, cells become irreversibly committed to the replicative process. This commitment seems to occur 5 hours before S and is referred to as Glc. In view of these data we proposed that regulators act by stimulating or inhibiting the transition Go → Glc. In an attempt to obtain a better definition of the growth control system and taking advantage of the experimental model utilized, we searched for mutants of the regulatory type. This search resulted in the isolation of the lines ST1 and AR-l from 3T3 fibroblasts and Y-l adrenal cells, respectively. Among several interesting aspects of the STl cell line, we point out: a) the dramatic effect of hydrocortisone changing the characteristics of these cells from a typically transformed phenotype to a normal pattern. This phenomenon was observed both \"in vitro\" (by measuring a number of growth parameters) and \"in vivo\" (by tumorogenicity assays). b) morphological alterations of antagonistic nature caused by hydrocortisone (flattening) on one hand, and by the removal of serum or cAMP addition to the culture medium (rounding) on the other. Evidence for the involvement of microtubules in these alterations were obtained through studies on the action of several inhibitors. Quantitative analysis of intracellular cAMP indicated that this nucleotide does not act as a mediator of hydrocortisone action. Rather, this action seems to be due to the induction of alterations on the cell surface-membrane-cytoskeleton system. Contrary to other variants of the Y-1 line which are resistant to ACTH, AR-1 cells are also resistant to cAMP. The usefulness of these cells in studies of the postulated mediation by cAMP of the ACTH action, is obvious.

Adrenocorticotropina

Controle de proliferação celular

Cultura de células de mamíferos

Hormônios glicocorticoides

Reversão fenotípica tumoral-normal

Transformação maligna

Adrenocorticotropic

Control of cell proliferation

Culture of mammalian cells

Glucocorticoid hormones

Malignant transformation

Tumor-standard phenotypic reversion