Epigenetic landscape of normal and malignant lympho-hematopoiesis : interplays between chromatin signature and tissue specific gene expression / Le paysage épigénétique de la lympho-hématopoïèse normale et pathologique : les relations entre la signature chromatinienne et l'expression génique régulée d'une manière tissue spécifique

Pekowska, Aleksandra

16 February 2011

La régulation transcriptionelle fine assurée par les Eléments Cis Régulateurs (ECR, eg. promoteurs et «enhancers») et les facteurs protéiques associés, est à la base de la mise en place et le maintien de l'identité tissulaire. Les modifications de la chromatine corrèlent avec l’activité d’ECRs et constituent l’épigénome de la cellule. Au cours de ma thèse, je me suis intéressée aux transitions des modifications des histones (H3K4me1/me2/me3, H3K36me3, H3K27me3 and H3K9me2) accompagnant le développement précoce de la cellule T. Pour cela, j’ai utilisé un modèle murin reproduisant une étape cruciale de la thymopoïèse - la sélection β - et la technique d’Immunoprecipitation de la chromatine couplée à des puces à ADN (ChIP-chip). Au sein des enhancer connus, nos analyses ont mis en évidence une nouvelle signature épigénétique liée à leur activité. De plus, nous montrons que l'étendue d'enrichissement d’H3K4me2 au sein des régions géniques des gènes exprimés, constitue une signature épigénétique des gènes tissus spécifiques. Tout ceci a permis de mieux comprendre le rôle de l’épigénétique dans l'établissement et le maintien de l'identité cellulaire.Le traitement anti-cancer moderne est basé sur les analyses de différents marqueurs d'agressivité (MA) et par la suite, de l’établissement de la thérapie personnalisée. Durant la dernière partie de ma thèse, j’ai participé à un projet collaboratif avec le laboratoire de Thérapie Cellulaire de l’Institut Paoli Calmettes à Marseille, qui visait l’isolation des MA des Leucémies Aiguës Myéloïdes à caryotype normal (LMAcn) grâce aux études de profilage épigénétique (H3K27me3) des blastes des patients atteints de LMAcn. / Precise transcriptional regulation underlies the establishment and maintenance of cell type specific identity and is governed by dedicated DNA sequences (i.e., cis regulatory elements (CREs): eg.: promoters, enhancers) and transcription factors. Chromatin modifications (eg.: histone modifications, DNA methylation) impinge on CREs activity and constitute the epigenome of the cell.During my PhD, I was interested in the transitions of a set of histone modifications (H3K4me1/me2/me3, H3K36me3, H3K27me3 and H3K9me2), during one of the major checkpoints of thymopoiesis - the β-selection. I used a dedicated mouse model and Chromatin Immunoprecipitation coupled with microarrays (ChIP-chip) technique. Our data evidenced a previously unappreciated epigenetic signature linked to enhancer activity. In parallel, computational analyses of the patterns of gene body enrichment of H3K4me2 highlighted an epigenetic signature linked to the regulation of the tissue specific gene expression. Altogether, this enabled to deepen the relationship between chromatin states and regulation of cell type specific identity.Modern anticancer treatment is based on the analyses of a number of cancer aggressiveness markers (CAM) and results in a highly personalized therapy. Epigenetic profiling can constitute a powerful tool for CAM’s isolation. In the second part of the presented work, I participate in a collaborative project (with Cellular Therapy Centre at the Paoli Calmettes Institut, Marseille) aiming to isolate new CAM for Acute Myeloid Leukemia with normal karyotype (AMLnc) patients. For this purpose I performed epigenetic (H3K27me3) profiling of blasts of AMLnc.

Développement lymphocytaire T

Promoteurs

Enahcers

Épigénétique

Modifications des histones

Specificité tissulaire

T cell development

Promoters

Enahncers

Epigenetics

Histone modifications

Tissue specificity

Kombination von K-means++ Clustering und PCA zur Analyse von Chromatin-Daten

Gerighausen, Daniel

12 February 2018

In der Epigenetik werden die Veränderungen der Erbinformationen neben der DNS erforscht. Dabei werden den Histonen, um die sich die DNS im Zellkern wickelt, eine große Bedeutung zugeordnet. In dieser Arbeit werden die Ergebnisse eines neuen Segmentierungsverfahrens ausgewertet und visualisiert. Dabei werden die vorliegenden Daten mittels des k-means++ Algorithmus geclustert.Zuerst werden die Clusterergebnisse statistisch ausgewertet, um sie dann mit den durch vorgehenden Arbeiten erworbenen Kenntnissen zu vergleichen. Mittels dieses Vergleichs werden dann die idealen Parameter für das Clustering bestimmt. Die Ergebnisse dieses idealen Clusterings werden dann mittels Starplots, Scatterplots und Binningplots visualisiert. Für die Erstellung der Scatter- und Binningplots wird eine PCA genutzt, um die Daten auf zwei Dimensionen zu reduzieren.

info:eu-repo/classification/ddc/000

ddc:000

Inactivation et activation de régions chromosomiques par des modifications épigénétiques. Mécanismes impliqués et rôle dans la progression tumorale dans les cancers de la vessie / Inactivation and activation of chromosomal regions by epigenetic modifications.Mechanisms involved and role in tumor progression in bladder cancer.

Wong, Jennifer

27 November 2018

Dans les cancers, la transcription des gènes peut être altérée par des mécanismes génétiques ou épigénétiques. En 2011, mon laboratoire a montré que la progression des cancers de la vessie pouvait être liée à un mécanisme épigénétique appelé MRES (« Mutiple Regional Epigenetic Silencing »). Les tumeurs possédant ce phénotype présentent une inactivation simultanée de gènes voisins dans 7 régions du génome. A l’aide d’une nouvelle approche bio-informatique : « SegCorr », nous avons identifié plus de 400 régions du génome dont l’expression des gènes est corrélée indépendamment du nombre de copie du gène. Ces régions se répartissent en 7 groupes et sont associées à 6 phénotypes de cancer de la vessie. De plus, l’extinction de l’expression des gènes d’une faible proportion de régions est associée à la méthylation de l’ADN et/ou une perte sur les histones de de marques d’activation de la transcription : H3K9ac et H3K4me3 ou des gains de marques de répression de la transcription : H3K27me3 et H3K9me3. Grâce au nouvel algorithme « Musette », J’ai montré que le phénotype MRES n’était probablement pas dû à des altérations génétiques. Enfin, pour comprendre à quel stade de la progression tumorale du cancer de la vessie le phénotype MRES pourrait apparaître, j’ai montré que les tumeurs de cancer de vessie induites chez les souris par ingestion d’un carcinogène (N-butyl-N-(4-hydroxybutyl)nitrosamine) pouvait être un bon modèle d’étude. / In cancers, gene transcription can be altered by genetic or epigenetic mechanisms. In 2011, my laboratory showed that the progression of bladder cancer could be linked to an epigenetic mechanism called MRES ("Mutiple Regional Epigenetic Silencing"). Tumors with this phenotype exhibit simultaneous inactivation of neighboring genes in 7 regions of the genome. Using a new bioinformatics approach: "SegCorr", we have identified more than 400 genomic regions in which gene expression is correlated. These regions fall into 7 groups and are associated with 6 phenotypes of bladder cancer. In addition, the extinction of gene expression from a small proportion of regions is associated with DNA methylation and / or loss of histone marks associated with active transcription: H3K9ac and H3K4me3 or gains of histone marks associated with transcription repression: H3K27me3 and H3K9me3. Using a new algorithm “Musette”, I have shown that the MRES phenotype is probably not due to genetic alterations. Finally, to understand at which stage of tumor progression of bladder cancer the MRES phenotype might appear, I have shown that bladder cancer tumors induced in mice by ingestion of a carcinogen (N-butyl-N-(4-hydroxybutyl) nitrosamine) could be a good model.

Épigénétique

Expression des gènes

Modifications des histones

Altérations génétiques

Expression des gènes

Histone modifications

Epigenetic

Gene expression

Genetic alterations

Gene expression

Microfluidic Technology for Low-Input Epigenomic Analysis

Zhu, Yan

25 May 2018

Epigenetic modifications, such as DNA methylation and histone modifications, play important roles in gene expression and regulation, and are highly involved in cellular processes such as stem cell pluripotency/differentiation and tumorigenesis. Chromatin immunoprecipitation (ChIP) is the technique of choice for examining in vivo DNA-protein interactions and has been a great tool for studying epigenetic mechanisms. However, conventional ChIP assays require millions of cells for tests and are not practical for examination of samples from lab animals and patients. Automated microfluidic chips offer the advantage to handle small sample sizes and facilitate rapid reaction. They also eliminate cumbersome manual handling. In this report, I will talk about three different projects that utilized microfluidic immunoprecipitation followed by next genereation sequencing technologies to enable low input and high through epigenomics profiling. First, I examined RNA polymerase II transcriptional regulation with microfluidic chromatin immunoprecipitation followed by next generation sequencing (ChIP-seq) assays. Second, I probed the temporal dynamics in the DNA methylome during cancer development using a transgenic mouse model with microfluidic methylated DNA immunoprecipitation followed by next generation sequencing (MeDIP-seq) assays. Third, I explored negative enrichment of circulating tumor cells (CTCs) followed by microfluidic ChIP-seq technology for studying temporal dynamic histone modification (H3K4me3) of patient-derived tumor xenograft on an immunodeficient mouse model during the course of cancer metastasis. In the first study, I adapted microfluidic ChIP-seq devices to achieve ultrahigh sensitivity to study Pol2 transcriptional regulation from scarce cell samples. I dramatically increased the assay sensitivity to an unprecedented level (~50 K cells for pol2 ChIP-seq). Importantly, this is three orders of magnitude more sensitive than the prevailing pol2 ChIP-seq assays. I showed that MNase digestion provided better ChIP-seq signal than sonication, and two-steps fixation with MNase digestion provided the best ChIP-seq quality followed by one-step fixation with MNase digestion, and lastly, no fixation with MNase digestion. In the second study, I probed dynamic epigenomic changes during tumorigenesis using mice often require profiling epigenomes using a tiny quantity of tissue samples. Conventional epigenomic tests do not support such analysis due to the large amount of materials required by these assays. In this study, I developed an ultrasensitive microfluidics-based methylated DNA immunoprecipitation followed by next-generation sequencing (MeDIP-seq) technology for profiling methylomes using as little as 0.5 ng DNA (or ~100 cells) with 1.5 h on-chip process for immunoprecipitation. This technology enabled me to examine genome-wide DNA methylation in a C3(1)/SV40 T-antigen transgenic mouse model during different stages of mammary cancer development. Using this data, I identified differentially methylated regions and their associated genes in different periods of cancer development. Interestingly, the results showed that methylomic features are dynamic and change with tumor developmental stage. In the last study, I developed a negative enrichment of CTCs followed by ultrasensitive microfluidic ChIP-seq technology for profiling histone modification (H3K4Me3) of CTCs to resolve the technical challenges associated with CTC isolation and difficulties related with tools for profiling whole genome histone modification on tiny cell samples. / Ph. D.

Chromatin immunoprecipitation (ChIP)

Next generation sequencing (NGS)

Epigenetics

Transcriptional regulations

DNA methylation

Histone modifications

Microfluidics

Circulating tumor cell (CTC)

Crosstalk between histone modifications in Saccharomyces cerevisiae

Howe, Françoise Sara

January 2012

The N-terminal tails of histone proteins protrude from the nucleosome core and are extensively post-translationally modified. These modifications are proposed to affect many DNA-based processes such as transcription, DNA replication and repair. Post-translational modifications on histone tails do not act independently but are subject to crosstalk. One example of crosstalk is on histone H3 between lysine 14 (H3K14) and trimethylated lysine 4 (H3K4me3), a modification found at the 5’ end of most active or poised genes. In this work, Western blots and chromatin immunoprecipitation (ChIP) experiments show that different amino acid substitutions at histone H3 position 14 cause varying degrees of H3K4me3 loss, indicating that H3K14 is not essential for H3K4me3 but acts as a modulator of H3K4me3 levels. A neighbouring residue, H3P16 is also important for H3K4me3 and may operate in concert with H3K14 to control H3K4me3. These crosstalk pathways have gene-specific effects and the levels of H3K4me3 are influenced to different extents on genes that fall into functionally distinct classes. A model is proposed to explain how H3K14/H3P16 may exert these varying effects on H3K4me3 at individual genes. In addition to its ability to regulate H3K4me3, H3K14 also influences the levels of two modifications on H3K18, acetylation and monomethylation. A ChIP-sequencing experiment has shown that H3K18me1, a previously uncharacterised modification in S. cerevisiae, is widely distributed throughout the genome and correlates strongly with histone H3 levels. The potential for a functional acetyl/methyl switch at H3K18 is explored. Together, these data indicate that, with gene-specific effects, crosstalk between histone modifications may be even more complex than originally thought.

579.5

Histone H2B-R95A mutant identifies the pheromone pathway that signals cell cycle arrest during rapamycin response

Ayachi, Sami

12 1900

La rapamycine est un immunosuppresseur utilisé pour traiter plusieurs types de maladies dont le cancer du rein. Son fonctionnement par l’inhibition de la voie de Tor mène à des changements dans des processus physiologiques, incluant le cycle cellulaire. Chez Saccharomyces cerevisiae, la rapamycine conduit à une altération rapide et globale de l’expression génique, déclenchant un remodelage de la chromatine. Nous proposons que les modifications des histones peuvent jouer un rôle crucial dans le remodelage de la chromatine en réponse à la rapamycine. Notre objectif principal est d’identifier d’une banque de mutants d’histone les variantes qui vont échouer à répondre à la rapamycine dans une tentative de réaliser une caractérisation des modifications d’histone critiques pour la réponse à cette drogue. Ainsi, nous avons réalisé un criblage d’une banque de mutants d’histone et identifié plusieurs mutants d‘histone dont la résistance à la rapamycine a été altérée. Nous avons caractérisé une de ces variantes d’histone, à savoir H2B, qui porte une substitution de l’alanine en arginine en position 95 (H2B-R95A) et démontré que ce mutant est extrêmement résistant à la rapamycine, et non à d’autres drogues. Des immunoprécipitations ont démontré que H2B-R95A est défectueux pour former un complexe avec Spt16, un facteur essentiel pour la dissociation de H2A et H2B de la chromatine, permetant la réplication et la transcription par les ADN et ARN polymérases, respectivement. Des expériences de ChIP-Chip et de micropuce ont démontré que l’arginine 95 de H2B est requise pour recruter Spt16 afin de permettre l’expression d’une multitude de gènes, dont certains font partie de la voie des phéromones. Des évidences seront présentées pour la première fois démontrant que la rapamycine peut activer la voie des phéromones et qu’une défectuosité dans cette voie cause la résistante à cette drogue. / Rapamycin is an immunosuppressant used for treating many types of diseases such as kidney carcinomas. It works by inhibiting the Tor signaling pathway leading to changes in physiological processes, including cell cycle arrest. In Saccharomyces cerevisiae, rapamycin leads to a rapid and global alteration in gene expression, prompting chromatin remodeling. We propose that histone modification(s) might play a crucial role in remodeling of the chromatin in response to rapamycin. Our main objective is to identify from a histone mutant collection variants that fail to respond to rapamycin in an attempt to characterize histone modifications critical for this drug response. As such, we conducted a screen of the histone mutant collection and identified several hits that showed resistance to rapamycin. We characterized one of the histone variants, namely H2B, carrying alanine substitution at arginine 95 (H2B-R95A) and show that it is extremely resistant to rapamycin, but not to other drugs. Pull downs demonstrated that H2B-R95A was defective in forming a complex with Spt16, an essential factor that is required to disassociate H2A and H2B from the chromatin in order to allow replication and transcription by DNA and RNA polymerases, respectively. ChIP-Chip and microarray experiments showed that arginine 95 of H2B is required to recruit Spt16 to allow expression of several genes, a subset of which are involved in the pheromone signaling pathway. Evidence will be presented to show for the first time that rapamycin can activate the pheromone pathway and that defects in this pathway cause resistance to the drug.

Rapamycin

Histone modifications

Chromatin remodeling

Spt16

Pheromone pathway

Rapamycine

Modifications d’histone

Remodelage de la chromatine

Voie de phéromones

Typage de la classe génotypique du gène PRDM9 à partir de données de séquençage de Nouvelle Génération

Ang Houle, Marie-Armande

07 1900

Les positions des évènements de recombinaison s’agrègent ensemble, formant des hotspots déterminés en partie par la protéine à évolution rapide PRDM9. En particulier, ces positions de hotspots sont déterminées par le domaine de doigts de zinc (ZnF) de PRDM9 qui reconnait certains motifs d’ADN. Les allèles de PRDM9 contenant le ZnF de type k ont été préalablement associés avec une cohorte de patients affectés par la leucémie aigüe lymphoblastique. Les allèles de PRDM9 sont difficiles à identifier à partir de données de séquençage de nouvelle génération (NGS), en raison de leur nature répétitive. Dans ce projet, nous proposons une méthode permettant la caractérisation d’allèles de PRDM9 à partir de données de NGS, qui identifie le nombre d’allèles contenant un type spécifique de ZnF. Cette méthode est basée sur la corrélation entre les profils représentant le nombre de séquences nucléotidiques uniques à chaque ZnF retrouvés chez les lectures de NGS simulées sans erreur d’une paire d’allèles et chez les lectures d’un échantillon. La validité des prédictions obtenues par notre méthode est confirmée grâce à analyse basée sur les simulations. Nous confirmons également que la méthode peut correctement identifier le génotype d’allèles de PRDM9 qui n’ont pas encore été identifiés. Nous conduisons une analyse préliminaire identifiant le génotype des allèles de PRDM9 contenant un certain type de ZnF dans une cohorte de patients atteints de glioblastomes multiforme pédiatrique, un cancer du cerveau caractérisé par les mutations récurrentes dans le gène codant pour l’histone H3, la cible de l’activité épigénétique de PRDM9. Cette méthode ouvre la possibilité d’identifier des associations entre certains allèles de PRDM9 et d’autres types de cancers pédiatriques, via l’utilisation de bases de données de NGS de cellules tumorales. / The positions of recombination events cluster tightly together in recombination hotspots, which are determined in part by the rapidly evolving protein PRDM9 via its tri- methyltransferase activity. The locations of hotspots are determined by the repetitive ZnF array of PRDM9, which binds to DNA. Alleles of PRDM9 containing the k-ZnF have previously been associated with patients affected with childhood acute lymphoblastic leukaemia. PRDM9 alleles are notoriously difficult to type due to the repetitive nature of the ZnF arrays. Here, we propose a method to characterize the alleles of PRDM9 from next- generation sequencing samples, by identifying the number of alleles containing a specific ZnF type. Our method is based on the correlation between profiles from the sample, representing the counts of nucleotide sequences unique to each ZnF, and from ideal sets of short reads representing an allele pair. We conduct a simulation analysis to examine the validity of the predictions obtained by our method with all pairs of known alleles. We confirm that the method can accurately genotype previously unobserved PRDM9 alleles. We also conducted a preliminary analysis to identify the PRDM9 k-ZnF genotype in a cohort of paediatric glioblastoma (pGBM), a childhood cancer characterized by the recurrent mutations in the coding sequence of the histone H3, the target of the enzymatic activity of PRDM9. Although no associations of k-ZnF containing PRDM9 alleles is found in our pGBM cohort, this method opens the possibility of identifying associations between certain PRDM9 alleles with other types of early onset childhood cancers, through a data-mining effort in public cancer databases.

PRDM9

Hotspots de recombinaison

Cancers pédiatriques

Modifications sur les histones

Séquençage de Nouvelle Génération

Recombination Hotspots

Childhood Cancer

Histone Modifications

Next-Generation Sequencing

Role paternálního H4K12ac při utváření pronukleí a v časné embryogenezi u myší. / Role paternálního H4K12ac při utváření pronukleí a v časné embryogenezi u myší.

Dudková, Barbora

January 2013

During the process of spermatogenesis, histones are replaced by protamines, basic proteins enabling transmission of DNA to the oocyte during fertilization. In mouse sperm, there is only 1% of remaining histones whose N-terminal tails contain post-translationally modified residues. In this study, I was interested in contribution of paternal histone H4 acetylated on lysine K12 residues (H4K12ac) that is present in mature sperm head in remaining nucleosomes. Physiologically, H4K12ac has an important role in transcription factor accumulation and in regulation of gene expression. The presence and abundance of H4K12ac modification in various pronuclei stages of 1-cell embryo and parthenotes were assessed by imunnoflourescent detection with utilization of anti-H4K12ac antibody. Altogether, the paternal pronucleus exhibits a strong acetylation signal on H4K12 since its formation, while in the maternal one, there is a slow continual increase of H4K12ac getting on the same level as paternal pronucleus till the pronuclei fusion. Simultaneously DNA methylation status in both pronuclei was detected. In paternal pronucleus there is a continual decrease in the DNA methylation detectable as a decrease of 5mC and an increase of 5hmC signal. Meanwhile, the maternal pronucleus stays widely methylated. DNA...

Funkční analýza genomu pomocí mapování integračních míst podporujících expresi retrovirů v lidských buňkách / Functional genome analysis using the retroviral integration sites permissive for provirus expression in human cells

Miklík, Dalibor

January 2013

The expression of retroviral genes depends on the establishment of the provirus - the DNA copy of retroviral genome integrated into the host genome. The transcriptional state of provirus is then influenced by the environment at the site of integration. The phenomenon of proviral silencing is an obstacle to the usage of retroviral vectors and a barrier to the eradication of human immunodeficiency virus type 1 (HIV-1) from infected individuals. Taking advantage of single cell clones bearing one provirus, this diploma thesis investigates the distribution of (epi)genomic features at the sites occupied by stably expressed proviruses. In total, long-term expression profiles of 245 and 255 clones carrying avian sarcoma-leucosis virus (ASLV) and HIV-1, respectively, were obtained. The database-based analysis of 42 integration sites of ASLV and three integration sites of HIV-1 proviruses shows that proviral stable expression highly correlates with the transcriptional start sites (TSS) at the sites of integration. Histone marks characteristic for the proximity of active TSSs and regulatory elements at the sites of integration of stably expressed proviruses confirm this finding. The results presented in this thesis could inspire other analyses investigating the relationship between the integration site and the...

Studium epigenetických regulací HLA genů II. třídy v rámci příbuzenských vztahů. / The study of epigenetic regulation of gene HLA II. Clas within family relationships

Chmel, Martin

January 2015

Introduction: At our post-genomic era the studies of epigenetic regulation constitutes one of the tools for understanding the function of genes. Epigenetic regulation can directly control the temporal and spatial gene activity or silencing. The molecular basis of these regulations are DNA bases modifications, chromatin remodeling and RNA interference. At the same time, these mechanisms have a special way of transferring genetic information to subsequent generations called epigenetic inheritance. It has been proven epigenetic deregulation of certain genes as cause for many disease. For this reason, the study of epigenome HLA genes seems particularly important because these genes play a fundamental role in regulating the immune system. Aims: The aim of this work is to create a description of epigenetic modifications within families. It is an analysis of histone modifications and DNA methylation in the promoter region of the gene HLA DQA1. The aim was also to compare the differences in epigenetic modifications between alleles and compared the differences in these modifications between generations. The results will be compared with the analysis of the level of expression of the gene HLA DQA1. Methods: From collected peripheral blood of donors were isolated DNA, RNA, and leukocytes. DNA was used for...