Functional consequences of cytosine methylation in mitochondrial DNA catalyzed by DNA methyltransferase 1

Shock, Lisa

01 January 2011

Cytosine methylation of mitochondrial DNA (mtDNA) was first described several decades ago, but neither the mechanism generating this modification nor its functional significance was known. Because mitochondrial dysfunction is a hallmark characteristic of numerous human diseases, including neurological and cardiovascular disease, aging and cancer, this dissertation addressed whether epigenetic modification of mtDNA regulates mitochondrial function. We show that mtDNA contains not only 5-methylcytosine (5mC), but also 5-hydroxymethylcytosine (5hmC), suggesting that previous reports likely underestimated the degree of epigenetic modification within the mitochondrial genome. We questioned how these modifications were generated by looking for mitochondrial isoforms of the nuclear-encoded DNA methyltransferases. We found that an isoform of the most abundant mammalian methyltransferase, DNA methyltransferase 1 (DNMT1) translocates to mitochondria, driven by an in-frame mitochondrial targeting sequence (MTS) located upstream of the nuclear DNMT1 translational start site. This MTS is highly conserved across mammalian species, and directs a heterologous protein to the mitochondria. To investigate the function of mitochondrial DNMT1 (mtDNMT1), we created a cell line that carries a tandem-affinity purification (TAP) tag at the C-terminus of a single endogenous human DNMT1 allele. Using the DNMT1-TAP cell line, we showed that mtDNMT1 specifically binds mtDNA in a manner that is proportional to CpG density, proving its presence in the mitochondrial matrix. mtDNMT1 exhibits CpG-specific methyltransferase activity in vitro that is resistant to trypsin-treatment of intact mitochondria, but moderately susceptible to pharmacologic inhibition by the nucleoside analog 5-aza-2’-deoxycytidine (5-aza-dC). NRF1 and PGC1α, transcription factors that activate nuclear-encoded mitochondrial proteins in response to oxidative stress, were observed to up-regulate expression of mtDNMT1. Loss of p53, a tumor suppressor gene known to help control mitochondrial metabolism, also results in a striking increase in mtDNMT1 expression, and this up-regulation of mtDNMT1 appears to modify mitochondrial transcription in a gene-specific fashion. Our data suggests roles for mtDNMT1 in both the establishment and maintenance of cytosine methylation (from which 5hmC is presumably derived) and in the regulation of mitochondrial transcription. We propose that the enzymes responsible for epigenetic modification of mtDNA have potential as therapeutic targets, with relevance to a broad spectrum of human disorders.

DNMT1

mitochondria

methylation

hydroxymethylation

Medicine and Health Sciences

Estudo da expressão dos genes TETs e níveis de hidroximetilação em meduloblastoma / Study of TETs genes expression and hydroxymethylation levels in medulloblastoma

Salomão, Karina Bezerra

15 September 2017

O meduloblastoma (MB) é um tumor embrionário que se origina de alterações genéticas em vias importantes para neurôgenese do cerebelo como Sonic hedgehog (Shh) e Wingless (Wnt). Alterações específicas nessas vias permitem a classificação do MB pelo perfil de expressão e mutacional em quatro subgrupos: SHH, WNT, grupo 3 e grupo 4. A ativação dessas vias pode estar relacionada à hipermetilação de reguladores negativos. A dinâmica da hidroximetilação foi descrita durante o desenvolvimento cerebelar, mas não há relatos na literatura sobre os níveis da hidroximetilação em amostras de MB. Os principais objetivos desse trabalho foram: avaliar os níveis de expressão dos genes TETs e IDHs em MB por qPCR; investigar os níveis de hidroximetilação por meio de imuno-histoquímica e dot-blot; avaliar mutações no éxon 4 de IDH1 e IDH2 por sequenciamento; analisar a metilação e hidroximetilação em genes reguladores negativos das vias SHH, WNT, NOTCH, BMP; modular a atividade dos genes TETs por meio do ácido ascórbico e verificar sua influência funcional e epigenética. Foi observada diminuição na expressão dos genes TETs e IDHs em amostras de MB apenas em comparação com cerebelos fetais, mas não em relação aos cerebelos não-fetais. As linhagens celulares de MB apresentaram expressão diminuída em comparação aos dois grupos controles. A classificação das amostras de MB permitiu verificar uma expressão gênica subgrupo específica. A expressão de TET3 apresentou associação com status da doença; e maiores níveis de IDH2 foram associados à metástase. Não foram encontradas mutações no éxon 4 de IDH1, ou no éxon 4 de IDH2 em MB. Os níveis de hidroximetilação global estão diminuídos em amostras de MB e linhagens celulares em comparação aos cerebelos não-neoplásicos; porém não estão associados com características clínicas dos pacientes. Não foram encontrados níveis detectáveis de hidroximetilação nos genes estudados. Os efeitos do ácido ascórbico foram linhagem-específicos, não ocorreu aumento nos níveis de hidroximetilação, mas alterações na expressão do gene TET3. Em conclusão, níveis de hidroximetilação e expressão dos genes TETs e IDHs são importantes para o MB. No entanto, estudos funcionais direcionados à manipulação desses genes são necessários para elucidar suas funções nesse tumor. / Medulloblastoma (MB) is an embryonic tumor that originates from genetic alterations in pathways that are important to the neurogenesis of cerebellum, such as Sonic hedgehog (Shh) e Wingless (Wnt). These alterations allow us to classify MB based in expression and mutational profile in four subgroups: SHH, WNT, group 3 and group 4. The activation of these pathways could be related to hypermethylation of negative regulators. Hydroxymethylation dynamics was described during cerebellum development, but there are not reports in the literature about hydroxymethylation levels in MB samples. The main aims of this study were: to evaluate TET and IDH genes expression in MB using qPCR; to investigate hydroxymethylation levels using immunohistochemistry and dot-blot; to evaluate mutations in exon 4 of IDH1 and IDH2 genes through sequencing analysis; to analyze methylation and hydroxymethylation levels in genes that regulate SHH, WNT, NOTCH and BMP pathways; to modulate TET genes activity through ascorbic acid and verify its functional and epigenetic influence in MB cell lines. We observed a decrease in TET and IDH genes expression in MB samples compared to fetal cerebellum, but not according to non-fetal cerebellum. MB cell lines presented a decrease when compared to both control groups. The classification of MB samples allowed us to verify a subgroup-specific gene expression. TET3 expression was associated with disease status; and higher levels of IDH2 gene expression were associated with metastasis. We did not find mutations in exon 4 of IDH1 and exon 4 of IDH2 genes in MB samples. Hydroxymethylation levels were decreased in MB samples and cell lines when compared to non-neoplastic cerebellum; however, they were not associated with clinical characteristics of the patients. We did not detect hydroxymethylation levels in the studied genes. Ascorbic acid effects are cell linespecific: we did not observe increase in hydroxymethylation levels, but alterations in TET3 gene expression. In conclusion, hydroxymethylation and expression levels of TET and IDH genes are important for MB. Though, functional assays that target these genes are required to elucidate their function in MB.

5-Hydroxymethylation

Hidroximetilação

IDH

IDH

Medulloblastoma

Meduloblastoma

TET

TET

Estudo da expressão dos genes TETs e níveis de hidroximetilação em meduloblastoma / Study of TETs genes expression and hydroxymethylation levels in medulloblastoma

Karina Bezerra Salomão

15 September 2017

O meduloblastoma (MB) é um tumor embrionário que se origina de alterações genéticas em vias importantes para neurôgenese do cerebelo como Sonic hedgehog (Shh) e Wingless (Wnt). Alterações específicas nessas vias permitem a classificação do MB pelo perfil de expressão e mutacional em quatro subgrupos: SHH, WNT, grupo 3 e grupo 4. A ativação dessas vias pode estar relacionada à hipermetilação de reguladores negativos. A dinâmica da hidroximetilação foi descrita durante o desenvolvimento cerebelar, mas não há relatos na literatura sobre os níveis da hidroximetilação em amostras de MB. Os principais objetivos desse trabalho foram: avaliar os níveis de expressão dos genes TETs e IDHs em MB por qPCR; investigar os níveis de hidroximetilação por meio de imuno-histoquímica e dot-blot; avaliar mutações no éxon 4 de IDH1 e IDH2 por sequenciamento; analisar a metilação e hidroximetilação em genes reguladores negativos das vias SHH, WNT, NOTCH, BMP; modular a atividade dos genes TETs por meio do ácido ascórbico e verificar sua influência funcional e epigenética. Foi observada diminuição na expressão dos genes TETs e IDHs em amostras de MB apenas em comparação com cerebelos fetais, mas não em relação aos cerebelos não-fetais. As linhagens celulares de MB apresentaram expressão diminuída em comparação aos dois grupos controles. A classificação das amostras de MB permitiu verificar uma expressão gênica subgrupo específica. A expressão de TET3 apresentou associação com status da doença; e maiores níveis de IDH2 foram associados à metástase. Não foram encontradas mutações no éxon 4 de IDH1, ou no éxon 4 de IDH2 em MB. Os níveis de hidroximetilação global estão diminuídos em amostras de MB e linhagens celulares em comparação aos cerebelos não-neoplásicos; porém não estão associados com características clínicas dos pacientes. Não foram encontrados níveis detectáveis de hidroximetilação nos genes estudados. Os efeitos do ácido ascórbico foram linhagem-específicos, não ocorreu aumento nos níveis de hidroximetilação, mas alterações na expressão do gene TET3. Em conclusão, níveis de hidroximetilação e expressão dos genes TETs e IDHs são importantes para o MB. No entanto, estudos funcionais direcionados à manipulação desses genes são necessários para elucidar suas funções nesse tumor. / Medulloblastoma (MB) is an embryonic tumor that originates from genetic alterations in pathways that are important to the neurogenesis of cerebellum, such as Sonic hedgehog (Shh) e Wingless (Wnt). These alterations allow us to classify MB based in expression and mutational profile in four subgroups: SHH, WNT, group 3 and group 4. The activation of these pathways could be related to hypermethylation of negative regulators. Hydroxymethylation dynamics was described during cerebellum development, but there are not reports in the literature about hydroxymethylation levels in MB samples. The main aims of this study were: to evaluate TET and IDH genes expression in MB using qPCR; to investigate hydroxymethylation levels using immunohistochemistry and dot-blot; to evaluate mutations in exon 4 of IDH1 and IDH2 genes through sequencing analysis; to analyze methylation and hydroxymethylation levels in genes that regulate SHH, WNT, NOTCH and BMP pathways; to modulate TET genes activity through ascorbic acid and verify its functional and epigenetic influence in MB cell lines. We observed a decrease in TET and IDH genes expression in MB samples compared to fetal cerebellum, but not according to non-fetal cerebellum. MB cell lines presented a decrease when compared to both control groups. The classification of MB samples allowed us to verify a subgroup-specific gene expression. TET3 expression was associated with disease status; and higher levels of IDH2 gene expression were associated with metastasis. We did not find mutations in exon 4 of IDH1 and exon 4 of IDH2 genes in MB samples. Hydroxymethylation levels were decreased in MB samples and cell lines when compared to non-neoplastic cerebellum; however, they were not associated with clinical characteristics of the patients. We did not detect hydroxymethylation levels in the studied genes. Ascorbic acid effects are cell linespecific: we did not observe increase in hydroxymethylation levels, but alterations in TET3 gene expression. In conclusion, hydroxymethylation and expression levels of TET and IDH genes are important for MB. Though, functional assays that target these genes are required to elucidate their function in MB.

Hidroximetilação

IDH

Meduloblastoma

TET

5-Hydroxymethylation

IDH

Medulloblastoma

TET

Chemical allergen induced perturbations of DNA methylation : insights into in vivo T cell polarisation

Chapman, Victoria

January 2015

Epigenetic regulation of gene expression plays a pivotal role in the orchestration of immune responses. In particular, they have been implicated in the generation of in vitro cytokine-driven T cell polarization and therefore may determine the vigor, quality and/or longevity of such responses in vivo. Chemical allergens form two categories: skin sensitizing chemicals associated with allergic contact dermatitis, such as 2,4-dinitrochlorobenzene (DNCB) that result in type 1/type 17 responses in mice, and chemicals that cause sensitization of the respiratory tract and occupational asthma, for example trimellitic anhydride (TMA) that induces preferential type 2 responses in mice. To explore the regulation and maintenance of these divergent responses generated by polarised T cell populations in vivo, BALB/c strain mice were exposed topically DNCB and TMA. DNA from draining lymph nodes (LN) was processed for methylated DNA (5mC) immunoprecipitation (MeDIP) followed by hybridization to a whole-genome DNA promoter array. A higher number of DNCB-associated differently methylated regions (DMR) were identified and there was significant crossover between allergen treatments. Promoter-associated DMR, unique to either DNCB or TMA, were generally hypomethylated. Pathway analyses highlighted a number of immune related pathways, including chemokine and cytokine signalling. A number of these DMR were hypothesised to be candidate biomarkers of chemical allergy. To confirm this, novel analysis of hydroxymethylated (5hmC) DNA in the in vivo allergen-activated LN was compared to analysis of 5mC to identify LN specific DMR. The Gmpr DMR is suggested as a possible biomarker for contact allergen-induced immune responses and the Nwc DMR was characteristic of TMA treatment, highlighting its possible utility as a biomarker for responses induced by chemical respiratory allergens. These data not only represent novel analysis of 5hmC in response to chemical allergy in vivo, but also provide a possible basis for differentiation between classes of chemical allergens. Finally, a combined population of effector/effector memory T cells (TEff/TEM) was isolated from the CD4+ and CD8+ populations of allergen-activated draining lymph nodes (LN). Levels of 5mC and 5hmC at T cell lineage cytokine prompters was determined and analysed by comparison with concurrently sorted naïve T cells. In CD8+ TEff/TEM from DNCB-stimulated LN, increased expression of Ifng and Gzmb correlated with a reduction 5mC at their respective promoters. There were also reduced levels of 5mC at an Ifng enhancer. In contrast, TMA-simulated CD4+ TEff/TEM were characterised by high levels of Il4 expression which were associated with a decrease in promoter 5mC and an increase in 5hmC, as well as increased 5hmC at an Il4 enhancer region. These data demonstrate that exposure to chemical allergens results in characteristic DNA methylation patterns indicative of epigenetic regulation of divergent T cell populations in vivo. Furthermore, it highlights a particularly important role for DNA hydroxymethylation at the Th2 locus. In conclusion, exposure to chemical allergens results in divergent patterns of 5mC and 5hmC. These provide possible biomarkers for the different classes of chemical allergens and represent an insight into the importance of 5mC and 5hmC in the control of polarised T cell responses in vivo.

572.8

Discovery of new modes of action of TET methyldioxygenases

Delatte, Benjamin

01 October 2014

It has been known for a long time that the cytosine base can be modified to produce a new nucleotide, identified as 5-methylcytosine (mC). In normal cells, mC is correctly distributed into the genome, but in many diseases including life-threatening cancers, its pattern is profoundly perturbed. In 2009, Anjana Rao, published that certain proteins, known as the TET enzymes, are capable of removing mC by further oxidizing it to 5-hydroxymethylcytosine (hmC). This original article, cited more than 1200 times, has led to a great expansion in our understanding of DNA methylation. Such recent publications expanded this knowledge by showing that the TETs successively oxidize hmC to 5-formylcytosine (fC) and 5-carboxylcytosine (caC). <p>These oxidized methylcytosines have been implicated in several mechanisms of DNA demethylation, including “active” demethylation through base excision repair, and “passive” demethylation via successive rounds of DNA replication. In addition, DNA hydroxymethylation is thought to be involved in a wide range of diseases, and a marked decrease of hmC seems to be a “hallmark” of many cancers. <p>However, little is known about the regulation of their modes of action. It is tempting to speculate that these proteins interact with a plethora of factors to elicit coordinated biological functions. Likewise, they might be regulated by environment, which in certain situations, could alter the hydroxymethylome landscape, and lead to cellular malfunction and diseases.<p>In the first study, we pursued a large, unbiased screen of the TET interactome, and discovered that TET2 and TET3 interact with the O-linked N-acetylglucosamine (O-GlcNAc) transferase (OGT). OGT is a glycosyltransferase that adds N-acetylglucose moieties on various proteins, including histone H2B, expanding therefore the “histone code”. We further discovered that the TET-OGT association seems to enhance OGT activity and to potentiate glycosylation and stabilization of SET1/COMPASS, a complex that is responsible for the global deposition of the H3K4me3 histone mark that “decorates” active promoters. Finally, we could confirm a decreased genome-wide H3K4me3 deposition in a model of acute myeloid leukemia mutated for TET2, suggesting that the TET-OGT link is implicated in Health and Disease.<p>In the second study, we looked at the impact of the environment on TET activity and on cellular hydroxymethylomes. We focused on oxidative stress assaults that are known to be involved in inflammation, a mediator of cancer and neurodegenerative diseases. We observed a significant decrease of hmC in cell lines treated with various oxidant stressors, likely due to a direct inactivation of the TETs catalytic domain. Moreover, gene ontology analysis of differentially hydroxymethylated regions (dhMRs), profiled by deep-sequencing on treated vs non-treated cells, highlighted pathways involved in oxidative stress response. The implication of TETs in oxidative stress response was further emphasized by a decreased proliferation of TET1-depleted cells when they are treated with oxidant stressors. Importantly, those results were confirmed in mice knockout for the major antioxidant enzymes GPx1 and GPx2. <p>In conclusion, the work of this thesis contributed to better understand the modes of action of the TET proteins, through (1) direct interaction with OGT, and (2) via direct regulation by oxidative-stress-associated molecules, and we hope that these results will bring new insights to better understand these fascinating enzymes. <p> / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished

Disciplines biomédicales diverses

Epigenetics

DNA

Methylation

Epigénétique

ADN

Méthylation

hydroxymethylation

DNA methylation

TET proteins

Analyse intégrée génétique et épigénétique des lymphoproliférations malignes liées au virus HTLV-1 : de la biologie à la clinique / Integrated Genetic and Epigenetic Analysis of Adult T-Cell Leukemia/Lymphoma : From Biology to Clinic

Marçais, Ambroise

05 July 2017

Les leucémies/lymphomes à cellules T de l’adulte (Adult T-cell leukemia/Lymphoma, ATL) sont des hémopathies lymphoïdes T CD4+ malignes matures rares, induite par le rétrovirus HTLV-1 (Human T lymphotropic virus type 1). Nous avons étudié différents aspects moléculaires de la lymphomagenèse HTLV-1 induite sur une série rétrospective de patients pris en charge pour un ATL.Nous avons dans un premier temps étudié la marque épigénétique hydroxymethylation (5hmc) de l’ADN, ainsi que les enzymes la régulant sur des cellules primaires d’ATL. Nous avons observé une diminution du taux de 5hmc dans les formes agressives comparativement aux formes indolentes qui corrélait avec une diminution de l’expression de la dioxygénase TET2 et avec la survie des malades. Nous avons également mis en évidence la présence de mutations somatiques du gène TET2 chez moins de 10% des patients et identifié un polymorphisme surreprésenté dans le locus de TET2 chez les patients atteints ATL comparé à des patients chroniquement infectés sains ethniquement appariés.Dans un deuxième temps, nous avons exploité une technique de PCR « ligation médiée » suivie d’un séquençage à haut débit afin d’étudier l’architecture de l’intégration virale comme outil de maladie résiduelle. Nous avons retrouvé une meilleure sensibilité de cette technique pour définir la réponse au traitement par rapport aux critères de réponse actuels ouvrant la voie de son utilisation pour le suivi des patients.Enfin, nous avons étudié le paysage des altérations génomiques sur une cohorte de 60 patients par une approche globale. Nous avons observé des mutations sur 3 voies principales : TCR/NF-KB, trafic cellulaire T et échappement au système immunitaire corroborant les résultats d’une récente étude sur une population de patients japonais. L’analyse par RNAseq a révélé la perturbation systématique de l’expression génique cellulaire induite par l’intégration virale soit par le biais d’un transcrit chimérique partant du LTR 3’ viral soit par un arrêt de la transcription d’un gène cellulaireLe suivi de patients progressant d’une forme indolente à une forme agressive a révélé l’acquisition de mutations activatrices principalement sur la voie de signalisation TCR/NF-KB. Le suivi de patients ayant rechuté après une période de rémission a également révélé l’acquisition de nouvelles mutations.Ces résultats soulignent la spécificité de la lymphomagenèse HTLV-1, qui procède d’une part d’évènements secondaires à l’intégration virale au sein du génome cellulaire, induisant la perturbation de l’expression de gènes cellulaires (premier évènement oncogénique) et d’autre part à l’accumulation d’altérations génomiques secondaires, communs aux autres hémopathies lymphoïdes T et B matures, responsables de la transformation. / Adult T cell leukemia/lymphoma (ATL) is a rare and mature T cell malignancy induced by the retrovirus HTLV-1 (Human T-lymphotropic virus type 1) which bears a dismal prognosis. We have studied several molecular aspects of HTLV-1 induced lymphomagenesis on a retrospective cohort of ATL patients.First, we analyzed the global level of the DNA epigenetic mark hydroxymethylation (5hmc) as well as of enzymes implicated in its regulation in primary ATL cells. We observed a reduction of the 5hmc level in aggressive ATL compared to indolent forms with a positive correlation between the reduction of the 5hmc level, the decrease of the TET2 dioxygenase transcript and the patient overall survival. We found that somatic mutations in TET2 were present with a frequency of less than 10% but identified a SNP in TET2 locus whose frequency in ATL patients was higher compared to that of an ethnically matched control population.In a second part, we took advantage of a new technique of ligated mediated PCR followed with high throughput sequencing to analyze the viral integration architecture as a means of minimal residual disease detection. We demonstrate that this technique allows a better definition of the treatment response compared to actual consensus response criteria.Finally, we performed an integrated genomic analysis of a retrospective cohort of 60 ATL patients. We identified alterations targeting the TCR/NFKB signaling pathway, T cell trafficking and immune escape mechanisms, consistent with previous findings described in a Japanese ATL cohort. RNAseq analysis revealed the systematic perturbation of host gene expression secondary to viral integration and proceeding via the viral antisense leading to the production of a virus-host chimeric transcript production or the direct transcription termination of a host gene. Analysis of matched sequential samples of patients progressing from an indolent to an aggressive form revealed in most of the cases the acquisition of mutations affecting the TCR/NF-KB pathway. Analysis of sequential samples from patients who relapsed after a remission period also showed the acquisition of additional genetic alterations.These results underscore the specific nature of HTLV-1 induced lymphomagenesis, which proceeds on the one hand through mechanisms induced by the viral integration in the host genome, and consequent host-gene expression perturbation (viral first oncogenic hit) and on the other hand through secondary oncogenic mutations in various pathways, common to other mature B and T cell lymphoid malignancies.

Lymphome

Htlv-1

Clonalité

Mutations

Hydroxyméthylation

Lymphoma

Htlv-1

Clonality

Mutations

Hydroxymethylation

Alterations in Genomic 5-Hydroxymethylcytosine Level in Hepatocellular Cancer

Mustafa, Mufaddal

09 August 2013

No description available.

Oncology

Biology

Molecular Biology

Genetics

5-hmC

methylation

hydroxymethylation

HCC

liver

cancer

Epigenetics in leukemia / Epigénétique dans les leucémies

Bagacean, Cristina

15 March 2018

Les dérivés de la cytosine sont d’importantes modifications épigénétiques dont le rôle dans l’évolution de la leucémie lymphoïde chronique (LLC) n’est pas totalement exploré. Dans ce contexte, notre première étude vise à examiner le niveau global de la 5-methylcytosine (5-mCyt), 5-hydroxymethylcytosine (5-hmCyt), 5-carboxylcytosine (5-CaCyt) et 5-hydroxymethyluridine (5-hmU) dans des lymphocytes B purifiés de patients LLC (n=56) et d’individus sains (n=17). Les principaux acteurs de la régulation épigénétique (DNMT1/3A/3B, MBD2/4, TET1/2/3, SAT1) ont été évalués par PCR quantitative en temps réel. L’analyse a permis de mettre en exergue trois groupes de patients. En premier lieu, un groupe de patients stables (délai médian de progression [PFS] et délai au premier traitement [TFT] >120 mois), avec un profil épigénétique similaire au groupe contrôle. Deuxièmement, un groupe intermédiaire (PFS=84; TFT=120 mois) qui présente une augmentation de la déméthylation de l’ADN expliquée par l'induction SAT1 / TET2 pendant la progression de la maladie. Troisièmement, un groupe de patients avec une forme active de la maladie (PFS=52; TFT=112 mois) qui présentent une hyperlymphocytose, une réduction du temps de doublement des lymphocytes et des modifications épigénétiques majeures. Au sein de ce groupe, une réduction est observée pour la 5-mCyt, 5-hmCyt, 5-CaCyt et serait associée à une diminution des DNMTs, TETs et MBDs au cours de la progression de la maladie. Les profils épigénétiques mis en évidence sont indépendants du statut mutationnel IGHV mais sont associés avec les anomalies cytogénétiques. Nous nous sommes également intéressés à cette association et nous avons montré dans la deuxième étude que les modifications des dérivées de la cytosine peuvent affiner le pouvoir pronostic des anomalies cytogénétiques. En conclusion, nos résultats suggèrent que les variations de la méthylation ainsi que des intermédiaires de la déméthylation de l’ADN sont impliqués dans la progression de la LLC. / Cytosine derivatives are important epigenetic modifications whose role in the pathogenesis and evolution of chronic lymphocytic leukemia (CLL) is not fully explored. In this context, our first study aims to examine the global DNA level of 5-methylcytosine (5-mCyt), 5-hydroxymethylcytosine (5-hmCyt), 5-carboxylcytosine (5-CaCyt) and 5-hydroxymethyluridine (5-hmU) in purified B lymphocytes of CLL patients (n = 56) and healthy individuals (n = 17). The main actors in epigenetic regulation (DNMT1 / 3A / 3B, MBD2 / 4, TET1 / 2/3, SAT1) were evaluated by quantitative real time PCR. The analysis highlighted three groups of patients. First, a group of patients with stable disease (median time to progression [PFS] and time to first treatment [TFT]> 120 months), with an epigenetic profile similar to the control group. Secondly, an intermediate group (PFS = 84, TFT = 120 months) which shows an increase in DNA demethylation explained by SAT1 / TET2 induction during disease progression. Third, a group of patients with an active form of the disease (PFS = 52, TFT = 112 months) who have hyperlymphocytosis, a short lymphocyte doubling time, and major epigenetic changes. Within this group, a reduction is observed for 5-mCyt, 5-hmCyt, 5-CaCyt which is associated with a decrease in DNMTs, TETs and MBDs during disease progression. The identified epigenetic profiles are independent of IGHV mutational status but are associated with cytogenetic abnormalities. We were also interested in this association and we showed in the second study that modifications of cytosine derivatives levels can refine the prognostic power of cytogenetic abnormalities.In conclusion, our results suggest that methylation variations as well as DNA demethylation intermediates are involved in the progression of CLL.

Leucémie lymphoïde chronique

Méthylation de l'ADN

Hydroxyméthylation de l'ADN

TET

DNMT

Chronic lymphocytic leukemia

DNA methylation

DNA hydroxymethylation

TET

DNMT

Efeito do tabagismo no perfil de metilação e hidroximetilação global de DNA e nos genes MIR-9-3 e MIR- 137 em mucosa oral

Costa, Ludimila de Araújo

18 March 2016

Submitted by Vasti Diniz (vastijpa@hotmail.com) on 2017-09-04T14:53:59Z No. of bitstreams: 1 arquivototal.pdf: 1981370 bytes, checksum: 073d461bd0c895a458664955c646a988 (MD5) / Made available in DSpace on 2017-09-04T14:53:59Z (GMT). No. of bitstreams: 1 arquivototal.pdf: 1981370 bytes, checksum: 073d461bd0c895a458664955c646a988 (MD5) Previous issue date: 2016-03-18 / Epigenetic is the study of inherited and reversible changes in functional genome that do not alter the sequence of nucleotide bases. Modulate gene expression mainly by interference of external factors, such as smoking. MicroRNAs are a family of small post transcriptional regulatory RNAs genes which expression can also be controlled by DNA methylation.The aim of this study was to investigate the influence of smoking on the methylation and hydroxymethylation status of global DNA and specific sites of miR-9-3 and miR-137 genes in the healthy oral mucosa. Samples of oral epithelial cells were collected using mouthwash from a population of 95 individuals who were divided into three groups according to smoking status: never (n=30), current (n=29) and former smokers (n=36). Genomic DNA was extracted, and global DNA methylation and hydroxymethylation was performed using an ELISA-based technique; DNA methylation at specific sites of miR-9-3 and miR-137 was performed using methylation-specific PCR. Higher levels of global DNA methylation were found in current smokers with over 15 years of consumption, but no differences were found in relation to global DNA hydroxymethylation. Global DNA methylation was higher than the hydroxymethylation level but they were not correlated in the oral mucosa. For specific sites, the miR-137 promoter had partially methylated DNA in all groups and miR-9-3 hypomethylation was detected in current smokers in comparison to never and former smokers. There were no differences in epigenetic marks analyzed in relation to gender and age. We concluded that smoking habits were capable of inducing changes in global DNA methylation and miR-9-3 promoter methylation status. / Epigenética é o estudo das mudanças herdadas e reversíveis no genoma funcional que não alteram a sequência de bases nucleotídicas. Modulam a expressão gênica principalmente por interferência de fatores externos, como o tabagismo. Os microRNAs constituem uma família de pequenos RNAs reguladores pós transcripcionais da expressão gênica também controlados pela metilação do DNA. O objetivo deste estudo foi investigar a influência do fumo sobre o perfil de metilação e hidroximetilação global do DNA, e o perfil de metilação em sítios específicos dos genes miR-9-3 e miR-137 na mucosa bucal de indivíduos sem alterações clínicas visíveis. Para tanto, amostras de células bucais foram obtidas por bochecho de 95 indivíduos, os quais foram divididos em três grupos de acordo com o hábito de fumar: não fumantes (n=30), fumantes (n=29) e ex-fumantes (n=36). O DNA genômico foi extraído e a análise da metilação e hidroximetilação global foi realizada pelo teste ELISA e a metilação nos sítios específicos dos genes pela técnica de PCR específica para metilação. As análises estatísticas foram realizadas pelo software BioEstat 5.0 ao nível de significância de 5%. Os dados mostraram que indivíduos fumantes por um período superior a 15 anos apresentaram maior nível de metilação global que não fumantes e ex-fumantes. Não foram detectadas diferenças em relação ao nível de hidroximetilação global entre os grupos. O nível de metilação global apresentou-se maior quando comparado ao nível de hidroximetilação global, porém esses níveis não estão correlacionados na mucosa oral. Em relação aos sítios específicos, o gene miR-137 apresentou-se parcialmente metilado em todos os grupos, e o miR-9-3 mostrou uma tendência a hipometilação no grupo de indivíduos fumantes em comparação aos não fumantes e ex-fumantes. Não foram observadas diferenças nas marcas epignéticas analisadas em relação a gênero e idade. Conclui-se que o hábito de fumar pode modificar o perfil de metilação global do DNA e no promotor do gene miR-9-3.

Epigenética

Metilação

Hidroximetilação

Fumo

MicroRNA

Mucosa oral

Methylation

Hydroxymethylation

Smoking

MicroRNA

Oral mucosa

Epigenetic

CIENCIAS BIOLOGICAS::BIOLOGIA GERAL

Caractérisation de la différenciation terminale des lymphocytes B humains / Caractérisation of the human terminal B cell differentiation

Pignarre, Amandine

14 December 2018

La génération de plasmocytes (PC) à longue durée de vie sécrétant des anticorps hautement affins spécifiques de l’antigène, caractéristique de la réponse immune adaptative, est l’étape ultime de la différenciation des lymphocytes B au sein des centres germinatifs des organes lymphoïdes secondaires. La transition d’un lymphocyte B naïf vers un PC est associée au passage d’un programme transciptionnel des gènes de l’identité B vers l’expression des gènes de l’indentité plasmocytaire. Ce travail de thèse s’est concentré sur la caractérisation de cette étape terminale de la différenciation lymphocytaire B humaine tant au niveau transcriptomique qu’épigénétique. A l’aide d’un modèle de différenciation in vitro à partir de lymphocytes B naïfs humains, nous avons identifié les cellules engagées dans ce processus. Ces précurseurs des plasmablates sont notamment caractérisés par une répression de la voie de signalisation de l’IL-4 aboutissant à la perte du marqueur CD23, le récepteur de faible affinité à l’IgE mais aussi à l’apposition de 5hmC, l’hydroxyméthylcytosine, au niveau des gènes de l’identité PC. L’étude de cette marque épigénétique dans un contexte pathologique, le myélome multiple, a fait l’objet du second axe de recherche de notre projet et a révélé le rôle du gène FAM72D dans la prolifération cellulaire. / The generation of long-lived plasma cells (PCs) secreting protective, antigen-specific, high-affinity antibodies as a part of adaptative immunity, is the ultimate step of the terminal differentiation of B cells within germinal centers of secondary lymphoid organs. The transition of a naïve B cell into a PC is associated with the switch from a B cell identity programm to PC identity programm. The focus of this thesis project was to characterise the transcriptomic and épigenetic profile of cells commited to this ultimate step of the B cell differentiation. Thanks to an in vitro model of human naïve B cell differentiation into PCs, we identify cells commited to this process. These plasmablasts founder cells are caracterised by a downregulation of the IL-4 pathway leading to the loss of CD23, the low-affinity receptor for IgE, but also to the hydroxymethylation (5hmC apposition) of PC identity genes. The study of 5hmC in multiple myeloma samples was the subject of the second research axis of our project and revealed the role of FAM72D gene as a marker of cell proliferation.

Lymphocyte B

Différenciation

Hydroxyméthylation

5hmC

Plasmablaste

Plasmocyte

Myélome multiple

B cells

Differentiation

Hydroxymethylation

5hmC

Plasmablaste

Plasmocyte

Multiple myeloma