From enhancer transcription to initiation and elongation : a study of eukaryotic transcriptional regulation during lymphocyte development / De la transcription des enhancers à l'initiation et l'élongation : une étude de la régulation transcriptionnelle eucaryote au cours du développement lymphocytaire

Koch, Frédéric

09 November 2011

La régulation transcriptionnelle des eucaryotes supérieurs est un processus hautement contrôlé du point de vue spatial et temporel lors du développement, ou en réaction à l’environnement. La transcription ciblée des gènes codant requiert l’assemblage d’un complexe de pré-initiation (PIC) aux promoteurs comprenant l’ARN Polymérase (Pol) II et les facteurs généraux de transcription (GTFs) et dépend de la médiation d’un signal par les facteurs activateurs de transcription (TFs). Les années récentes ont montré que la transition de l’initiation vers l’élongation productive de la transcription représente une étape clé de la régulation de l’expression des gènes. Ce processus est également contrôlé par la structure de la chromatine, les modifications d’histones et par la présence d’éléments cis-régulateurs tels que les ‘enhancers’ ou les ‘silencers’. Au cours de ma thèse, nous avons entrepris de décrypter les mécanismes de régulation transcriptionnelle impliqués dans les étapes du développement lymphocytaire. Nous avons essentiellement travaillé sur des thymocytes primaires murins isolés au stade de différenciation double positif (DP, CD4+/CD8+) pour lequel de nombreuses séquences de type ‘enhancers’ ont été caractérisées dans la littérature scientifique. Nous avons également utilisé des lymphocytes B humains (Raji) immortalisés pour certaines des expériences impliquant des manipulation génétiques complexes permettant l’étude de mutants du domaine carboxy-terminal (CTD) de Pol II. En couplant des approches d’analyse à l’échelle du génome au séquençage à haut-débit, nous avons établi des cartographies fines de la localisation de Pol II, des GTFs, des TFs,de modifications d’histones (ChIP-Seq) et de nucléosomes (MNase-seq) ainsi que la caractérisation de populations variées d’ARN par RNA-seq. Nos principaux résultats ont révélé (i) l’assemblage du PIC et la transcription des enhancers tissus-spécifiques, (ii) l’existence de plateforme d’initiation de la transcription (TIPs) aux enhancers et aux promoteurs tissus-spécifique, (ii) que le contenu en GC représente l’un des principaux éléments promoteurs mammifères en permettant une ouverture transcription-indépendante de la chromatine, (iv) l’importance d’une nouvelle modification post-traductionnelle du domaine CTD de Pol II pour la progression de l’enzyme en élongation et finalement (v) que la modification de l’histone H3 sur le résidu K36 methylé corrèle avec l’épissage des transcrits Pol II. Globalement, les résultats les plus important de ce manuscrit consistent dans la mise en évidence de la transcription des enhancers comme caractérisant l’expression des gènes tissus-spécifiques et dans l’importance des ilots CpG comme éléments promoteurs mammifères permettant la formation d’une structure ouverte de la chromatine. / Transcriptional regulation in higher eukaryotes resembles a tightly controlled temporal and spatial process, as exemplified during development or an organism’s response to environmental stimuli. Directed transcription requires the assembly of the preinitiation complex (PIC) at the promoter of protein-coding genes, including RNA Polymerase (Pol) II and the general transcription factors (GTFs), mediated by activating transcription factors (TFs). Several rate-limiting steps further control the progression of Pol II initiation to productive elongation of the gene. This process is further controlled by chromatin structure, histone modifications as well as cis-regulatory elements, such as enhancers or silencers. We set out to decipher some of these regulatory mechanisms during the tightly controlled process of lymphocyte development. Our work primarily made use of primary mouse thymocytes in CD4+/CD8+ double positive (DP, CD4+/CD8+) stage during T-cell development. To our advantage, many developmentally important cis-regulatory regions are well characterized in this cell population. For genetic manipulations, we made use of the Raji B-cell lymphoma cell-line. Using high throughput genome-wide approaches based on next generation sequencing (NGS), we performed both localization studies of Pol II, GTFs, TFs, histone modifying enzymes, histone modifications and nucleosomes as well as deep-sequencing of different RNA transcript populations. In summary, we find that (i) PICs assemble at tissue-specific enhancers leading to local transcription, (ii) large transcription initiation platforms (TIPs) at tissue-specific promoters and enhancers exist, which correlate with high CG-content of the DNA and transcription factor binding sites (TFBS), (iii) GC-content regulates the nucleosomal structure and initiation, including directionality, at promoters, (iv) Pol II is phosphorylated at a new residue of it C-terminal domain (CTD) in the 3’ regions of genes and (v) splicing events can influence the chromatin structure. Altogether, these results show that PIC formation at and transcription of enhancers are important for the regulation of T-cell target genes, that CpG islands represent important if not the major regulatory promoter element in mammals guiding tissue-specific gene expression and nucleosome structure, as well as novel mechanisms of Pol II elongation and the effect on chromatin structure.

Régulation transcriptionelle

Épigénétique

Developpement lymphocytaire

Enhancers

Structure chromatine

Transcription regulation

Epigenetics

Lymphocyte development

Enhancers

Chromatin structure

Role of HDAC inhibition and environmental condition in altering phases of amphetamine self-administration

Arndt, David L.

January 1900

Doctor of Philosophy / Psychological Sciences / Mary E. Cain / Gene-environment interactions play a significant role in drug abuse and addiction. Epigenetics (the study of how environmental stimuli alter gene expression) has gained attention in recent years as a significant contributor to many behavioral phenotypes of drug addiction. The current study sought to determine if differential rearing conditions can alter a specific epigenetic mechanism, histone deacetylase (HDAC), and how HDAC inhibition can affect drug-taking and drug-seeking behaviors differently among enriched, isolated, or standard-housed rats. Ninety male Sprague-Dawley rats were reared for 30 days in enriched (EC), isolated (IC), or standard (SC) conditions prior to amphetamine (0.03, 0.05, 0.1 mg/kg/infusion, i.v.) self-administration, extinction, or reinstatement sessions. Trichostatin A (TsA; 0.3 mg/kg, i.v.), an HDAC inhibitor, was injected 30 min prior to drug-taking or drug-seeking sessions. Results indicated that EC rats self-administered less amphetamine (0.03 mg/kg/infusion) than IC rats. No significant effects of TsA administration were found on general self-administration for any of the three amphetamine doses. While enrichment facilitated the extinction of active lever pressing, there was also a mild facilitation of extinction in IC-TsA rats compared to IC-vehicle counterparts. Lastly, TsA administration decreased cue-, but not drug-induced reinstatement, with IC-TsA rats exhibiting significantly attenuated cue-induced reinstatement compared to IC-vehicle rats. These findings suggest that differential rearing can alter HDAC mechanisms that can change drug-seeking behaviors, particularly in rats reared in isolated conditions. While TsA-induced HDAC inhibition may be less protective against general amphetamine self-administration, it may decrease drug-seeking tendencies during relapse that are induced by the reintroduction of contextual environmental cues heavily associated with drug reward.

Behavioral epigenetics

Amphetamine

Self-administration

Histone deacetylase inhibition

Classical conditioning

Operant conditioning

Targeted Inhibition of Polycomb Repressive Complexes in Multiple Myeloma : Implications for Biology and Therapy

Alzrigat, Mohammad

January 2017

Multiple myeloma (MM) is a hematological malignancy of antibody producing plasmablasts/plasma cells. MM is characterized by extensive genetic and clonal heterogeneity, which have hampered the attempts to identify a common underlying mechanism for disease establishment and development of appropriate treatment regimes. This thesis is focused on understanding the role of epigenetic regulation of gene expression mediated by the polycomb repressive complexes 1 and 2 (PRC1 and 2) in MM and their impact on disease biology and therapy. In paper I the genome-wide distribution of two histone methylation marks; H3K27me3 and H3K4me3 were studied in plasma cells isolated from newly diagnosed MM patients or age-matched normal donors. We were able to define targets of H3K27me3, H3K4me3 and bivalent (carry both marks) which are, when compared to normal individuals, unique to MM patients. The presence of H3K27me3 correlated with silencing of MM unique H3K27me3 targets in MM patients at advanced stages of the disease. Notably, the expression pattern of H3K27me3-marked genes correlated with poor patient survival. We also showed that inhibition of the PRC2 enzymatic subunit EZH2 using highly selective inhibitors (GSK343 and UNC1999) demonstrated anti-myeloma activity using relevant in vitro models of MM. These data suggest an important role for gene repression mediated by PRC2 in MM, and highlights the PRC2 component EZH2 as a potential therapeutic target in MM. In paper II we further explored the therapeutic potential of UNC1999, a highly selective inhibitor of EZH2 in MM. We showed that EZH2 inhibition by UNC1999 downregulated important MM oncogenes; IRF-4, XBP-1, BLIMP-1and c-MYC. These oncogenes have been previously shown to be crucial for disease establishment, growth and progression. We found that EZH2 inhibition reactivated the expression of microRNAs genes previously found to be underexpressed in MM and which possess potential tumor suppressor functions. Among the reactivated microRNAs we identified miR-125a-3p and miR-320c as predicted negative regulators of the MM-associated oncogenes. Notably, we defined miR-125a-3p and miR-320c as targets of EZH2 and H3K27me3 in MM cell lines and patients samples.  These findings described for the first time PRC2/EZH2/H3K27me3 as regulators of microRNA with tumor suppressor functions in MM. This further strengthens the oncogenic features of EZH2 and its potential as a therapeutic target in MM. In paper III we evaluated the therapeutic potential of targeting PRC1 in MM using the recently developed chemical PTC-209; an inhibitor targeting the BMI-1 subunit of PRC1. Using MM cell lines and primary cells isolated from newly diagnosed or relapsed MM patients, we found that PTC-209 has a potent anti-MM activity. We showed, for the first time in MM, that PTC-209 anti-MM effects were mediated by on-target effects i.e. downregulation of BMI-1 protein and the associated repressive histone mark H2AK119ub, but that other subunits of the PRC1 complex were not affected. We showed that PTC-209 reduced MM cell viability via significant induction of apoptosis. More importantly, we demonstrated that PTC-209 shows synergistic anti-MM activity with other epigenetic inhibitors targeting EZH2 (UNC1999) and BET-bromodomains (JQ1). This work highlights the potential use of BMI-1 and PRC1 as potential therapeutic targets in MM alone or in combination with other anti-MM agents including epigenetic inhibitors.

Multiple Myeloma

Epigenetics

Polycomb

PRC2

PRC1

EZH2

BMI-1

UNC1999

PTC-209

Epigenetic Therapy

The Role of TET Proteins in the Epigenetic Regulation of Neural Gene Expression and Behavior

Towers, Aaron Joseph

January 2016

<p>Understanding how genes affect behavior is critical to develop precise therapies for human behavioral disorders. The ability to investigate the relationship between genes and behavior has been greatly advanced over the last few decades due to progress in gene-targeting technology. Recently, the Tet gene family was discovered and implicated in epigenetic modification of DNA methylation by converting 5-methylcytosine to 5-hydroxymethylcytosine (5hmC). 5hmC and its catalysts, the TET proteins, are highly abundant in the postnatal brain but with unclear functions. To investigate their neural functions, we generated new lines of Tet1 and Tet3 mutant mice using a gene targeting approach. We designed both mutations to cause a frameshift by deleting the largest coding exon of Tet1 (Tet1Δe4) and the catalytic domain of Tet3 (Tet3Δe7-9). As Tet1 is also highly expressed in embryonic stem cells (ESCs), we generated Tet1 homozygous deleted ESCs through sequential targeting to compare the function of Tet1 in the brain to its role in ESCs. To test our hypothesis that TET proteins epigenetically regulate transcription of key neural genes important for normal brain function, we examined transcriptional and epigenetic differences in the Tet1Δe4 mouse brain. The oxytocin receptor (OXTR), a neural gene implicated in social behaviors, is suggested to be epigenetically regulated by an unknown mechanism. Interestingly, several human studies have found associations between OXTR DNA hypermethylation and a wide spectrum of behavioral traits and neuropsychiatric disorders including autism spectrum disorders. Here we report the first evidence for an epigenetic mechanism of Oxtr transcription as expression of Oxtr is reduced in the brains of Tet1Δe4-/- mice. Likewise, the CpG island overlapping the promoter of Oxtr is hypermethylated during early embryonic development and persists into adulthood. We also discovered altered histone modifications at the hypermethylated regions, indicating the loss of TET1 has broad effects on the chromatin structure at Oxtr. Unexpectedly, we discovered an array of novel mRNA isoforms of Oxtr that are selectively reduced in Tet1Δe4-/- mice. Additionally, Tet1Δe4-/- mice display increased agonistic behaviors and impaired maternal care and short-term memory. Our findings support a novel role for TET1 in regulating Oxtr expression by preventing DNA hypermethylation and implicate TET1 in social behaviors, offering novel insight into Oxtr epigenetic regulation and its role in neuropsychiatric disorders.</p> / Dissertation

Genetics

Neurosciences

Molecular biology

Behavior

Brain

Epigenetics

Gene targeting

Maternal care

Oxytocin receptor

Characterization of the Epigenetic Signature Underlying Early Myogenic Differentiation

Hamed, Munerah

30 August 2019

Although skeletal myogenesis is largely controlled by myogenic regulatory factors, epigenetic modifications have recently emerged as an essential regulatory mechanism of gene expression. Molecular regulation of stem cell differentiation is exerted through both genetic and epigenetic factors over distal enhancer regions. Understanding the mechanistic action of active or poised enhancers is therefore, imperative for the control of stem cell differentiation. Based on the genome-wide co-occurrence of different epigenetic marks in proliferating myoblasts, we have generated a chromatin state model to profile differentiation- and rexinoid-responsive histone acetylation in early myoblast differentiation. Here, we delineate the functional mode of transcription regulators during early myogenic differentiation using genome-wide chromatin state association. We define a role of transcriptional coactivator p300, when recruited by muscle master regulator MyoD, in the establishment and regulation of myogenic loci at the onset of myoblast differentiation. In addition, we reveal an enrichment of loci-specific histone acetylation at p300 associated active or poised enhancers, mainly when enlisted by MyoD. We have previously established that bexarotene, a clinically approved agonist of retinoid X receptor (RXR), promotes the specification and differentiation of skeletal muscle lineage. Hence, we investigated the genome-wide impact of rexinoids on myogenic differentiation and uncovered a new mechanism of rexinoid action, which is mediated by the nuclear receptor and largely reconciled through direct regulation of MyoD gene expression. In addition, we determined rexinoid-responsive residue-specific histone acetylation at a distinct chromatin state associated with MyoD and myogenin. Finally, through ChIP-seq and RNA-seq analyses, we have identified dystroglycan (Dag1) as a differentiation-dependent and a rexinoid-responsive model target, and we revealed a possible co-regulation of Dag1 by p300 and MyoD accompanied by enrichment of loci-specific histone acetylation. Taken together, we provide novel molecular insights into the regulation of myogenic enhancers by p300 in concert with MyoD. Furthermore, we provide novel mechanistic perceptions into the interplay between RXR signaling and chromatin states pertinent to myogenic programs in early myoblast differentiation. Our studies present a valuable insight for driving condition-specific chromatin state or enhancers pharmacologically to treat muscle-related diseases and for the identification of additional myogenic targets and molecular interactions for therapeutic development.

Histone acetyltransferase

p300

Nuclear receptor

RXR

Gene regulation

Chromatin

Stem cell differentiation

Epigenetics

Analyse bioinformatique du génome et de l’épigénome du pommier / Bioinformatic analysis of the apple genome and epigenome

Daccord, Nicolas

27 November 2018

La pomme est l’un des fruits les plus consommés au monde. En utilisant les dernières technologies de séquençage (PacBio) et de cartes optiques (BioNano), nous avons généré un assemblage de novo de haute qualité du génome du pommier (Malus domestica Borkh.). Nous avons réalisé une annotation des gènes et des éléments transposables pour permettre à cet assemblage d’être utilisé en tant que génome de référence. La grande contiguité de l’assemblage a permis de détecter les éléments transposables de façon exhaustive, ce qui fournit une opportunité sans précédents d’étudier les régions non-caractérisées d’un génome d’arbre. Nous avons également trouvé que le génome du pommier est entièrement dupliqué, comme montré par les relations de synthénie entre les chromosomes. En utilisant du Whole Genome Bisulfite Sequencing (WGBS) ainsi que l’assemblage précédemment généré, nous avons montré des cartes de méthylation de l’ADN pour tout le génome et montré une corrélation générale entre la méthylation de l’ADN près des gènes et l’expression des gènes. De plus, nous avons identifié plusieurs Régions Différentiellement Méthylées (RDMs) entre les méthylomes de fruits et de feuilles du pommier, associées à des gènes candidats qui pourraient être impliqués dans des traits agronomiques importants tel que le développement du fruit. Enfin, nous avons développé un pipeline rapide, simple et complet qui prend entièrement en charge l’analyse des données WGBS, de l’alignement des reads au calcul des RDMs. / Apple is one of the most consumed fruits in the world. Using the latest sequencing (PacBio) and optical mapping (BioNano) technologies, we have generated a high-quality de novo assembly of the apple (Malus domestica Borkh.) genome. We performed a gene annotation as well as a transposable element annotation to allow this assembly to be used as a reference genome. The highcontiguity of the assembly allowed to exhaustively detect the transposable elements, which represented over half the assembly, thus providing an unprecedented opportunity to investigate the uncharacterized regions of a tree genome. We also found that the apple genome is entirely duplicated as showed by the synteny links between chromosomes. Using Whole Genome Bisulfite Sequencing (WGBS) and the previously generated assembly, we produced genome-wide DNA methylation maps and showed a general correlation between DNA methylation next to genes and gene expression. Moreover, we identified several Differentially Methylated Regions (DMRs) between apple fruits and leaf methylomes associated to candidate genes that could be involved in agronomically relevant traits such as apple fruit development. Finally, we developped a complete and easyto- use pipeline which aim is to handle the complete treatment of WGBS data, from the reads mapping to the DMRs computing. It can handle datasets having a low number of biological replicates.

Assemblage de génome

Annotation de genes

Méthylation différentielle

Genome assembly

Gene annotation

Epigenetics

Differential methylation

630

Conséquences cliniques et moléculaires de la marque H3K27 me3 HIST1 dans les leucémies aigües myéloïdes sans anomalies cytogénétiques / Clinical and molecular influences of H3K27me3 HIST1 mark in acute myeloid leukemia with normal cytogenetics

Garciaz, Sylvain

03 October 2018

De nombreuses altérations épigénétiques ont été décrites dans les leucémies aiguës myéloïdes (LAM). Nous avons récemment mis en évidence un enrichissement anormal en la marque histone H3K27me3, située sur 70 kb du cluster HIST1 (6p22) dans 50% des échantillons de patients atteints d'une LAM avec un caryotype normal (CN). Nous étudions dans ce travail, les conséquences cliniques et moléculaires de cette marque. H3K27me3 HIST1high est associé à 1) une meilleure survie des patients en analyse multivariée 2) la sous-expression du mRNA de plusieurs gènes histones (HIST1H1D, HIST1H2BG et HIST1H2BH) 3) un enrichissement fonctionnel en gènes associés à la réponse immunitaire ou inflammatoire, en faveur d’un engagement dans la différenciation granulocytaire, surexprssion confirmée pour trois de ces gènes (CYBB, FCN1 et CLEC4A) par RT-qPCR dans les blastes de patients H3K27me3 HIST1high 4) une diminution de la quantité absolue de protéine histone linker H1d par spectormétrie de masse et par Western blot et 5) une meilleure sensibilité à la différenciation induite par l'acide rétinoïque dans la lignée OCI-AML3 avec un KD de H1d (augmentation de l’expression des marqueurs de différenciation CD11B et CD11C, présence de granules intra-cytoplasmiques et expression des gènes CYBB et ITGAM). En conclusion, le biomarqueur H3K27me3 HIST1high est associé à une meilleure survie dans les LAM-CN NPM1mut, un phénotype plus différencié des blastes et une sous-expression génique et protéique de certains histones incluant le sous-type histone linker H1d. H1d semble être important dans la différenciation des blastes de LAM NPM1mut et pourrait constituer une cible thérapeutique. / The epigenetic machinery is frequently altered in acute myeloid leukemia (AML). We previously described an abnormal histone H3K27me3 repressive enrichment covering 70 kb on the HIST1 cluster (6.p22). In the present work, we further studied the medical significance and the molecular impact of this new epigenetic biomarker. We observed that H3K27me3 HIST1high is associated with 1) a better patients' outcome in multivariate analysis, 2) a lower histone mRNA expression of several histone genes (HIST1H1D, HIST1H2BG and HIST1H2BH), 3) a mature granulocytic gene expression profile including immune or inflammatory responsive genes, (we confirmed the higher expression of three of these genes, CYBB, FCN1 and CLEC4A, using qPCR in the H3K27me3 HIST1high patients' samples), 4) a decrease in histone linker H1d absolute protein abundance by Mass spectrometry and by Western blot analyses and 5) a better retinoic acid sensitization of the H1d KD OCI-AML3 cell line (i.e. increase of CD11B and CD11C expression on cell surface, higher percentage of cytoplasmic granules and mRNA up-expression of two mature granulocytic genes, CYBB and ITGAM). To conclude, this study showed that epigenetic silencing of the HIST1 locus by the H3K27me3 mark is associated with a better outcome, but also a mature gene expression profile in the NPM1mut subgroup of patients. We suggested that H1d has an important role of histone linker expression in AML blast cell differentiation. This protein could constitute a new epigenetic target.

Leucémie aiguës myéloïdes

Épigénétique

Histone

H3K27me3

Acute myeloid leukemia

Epigenetics

Histone

H3K27me3

Regulação epigenética da expressão gênica de Schistosoma mansoni induzida por inibidor de histona deacetilase / Epigenetic regulation of gene expression in Schistosoma mansoni induced by histone deacetilase inhibitor

Anderson, Letícia

01 April 2016

A esquistossomose é um grave problema de saúde pública, com alta mortalidade e morbidade em países endêmicos, causada pelo verme trematódeo do gênero Schistosoma. O praziquantel é a única droga disponível para tratamento da doença, é usada em larga escala para tratamento de populações de áreas endêmicas, porém não previne a reinfecção e tem efeito somente em vermes adultos. Drogas estudadas em câncer como inibidores de histona deacetilases (iHDACs) modificam o padrão epigenético da célula desencadeando a morte celular, e em Schistosoma mansoni já foi mostrado que a inibição de HDACs além de aumentar a acetilação de histonas alterou o fenótipo de miracídios e provocou morte em esquistossômulos e vermes adultos. O presente estudo investigou o efeito do iHDAC Trichostatin A (TSA) na regulação da transcrição gênica em esquistossômulos, detectando por meio de ensaios de microarray centenas de genes diferencialmente expressos, relacionados a replicação de DNA, metabolismo e complexos modificadores de histonas. A inibição de HDAC em vermes adultos levou a um aumento da acetilação nas marcas de histonas H3K9ac, H3K14ac e H4K5ac relacionadas à indução de transcrição. Com imunoprecipitação de cromatina seguida de PCR (ChIP-qPCR) detectou-se o aumento de deposição de H3K9ac e H3K14ac na região promotora de genes com expressão aumentada ou diminuída, porém a marca de repressão H3K27me3 não sofreu alteração na região promotora de nenhum gene analisado. Análises adicionais indicaram um conjunto de genes diferencialmente expressos que codificam proteínas histone readers, que fazem parte de complexos modificadores de histonas, como EED capaz de identificar a marca de repressão H3K27me3 e regular a atividade de EZH2, apontando um novo alvo terapêutico. O efeito sinérgico entre iHDAC e um iEZH2 foi testado e detectou-se o aumento da mortalidade de esquistossômulos. A estrutura de SmEZH2 foi modelada por homologia e usada para análises computacionais que sugeriram uma alta afinidade de ligação de SmEZH2 com o iEZH2, abrindo uma perspectiva de desenvolvimento de novas drogas específicas para tratamento da esquistossomose. / Schistosomiasis is a serious public health problem, with high mortality and morbidity in endemic countries, caused by trematode worms of the genus Schistosoma. Praziquantel is the only available drug for treatment of the disease; it is used extensively to treat populations in endemic areas, but does not prevent reinfection and is effective only in adult worms. Drugs studied in cancer as histone deacetylase inhibitors (iHDACs) modify the epigenetic status of the cell, triggering cell death, and it has been shown in Schistosoma mansoni that inhibition of HDACs increase histone acetylation, alter the phenotype of miracidia and cause death in schistosomules and adult worms. The present study investigated the effect of iHDAC Trichostatin A (TSA) on the regulation of gene transcription in schistosomules, detecting by means of microarray assays hundreds of differentially expressed genes related to DNA replication, metabolism and histone remodeling complexes. Inhibition of HDAC in adult worms led to an increase in histone acetylation marks H3K9ac, and H3K14ac H4K5ac related to transcriptional induction. With chromatin immunoprecipitation followed PCR (ChIP-qPCR) we detected an increased deposition of H3K9ac and H3K14ac at the promoter region of genes with increased or decreased expression, but the repressive mark H3K27me3 was not changed at all analyzed gene promoter regions. Additional analysis indicated a set of differentially expressed genes that encode histone reader proteins that are part of histone modifier complexes such as EED, which is able to identify the repression mark H3K27me3 and to regulate EZH2 activity, pointing to a new therapeutic target. The synergistic effect between iHDAC and one iEZH2 has been tested and found to cause an increase in schistosomules mortality. The SmEZH2 structure was modeled by homology and used for computational analyses, which suggested a high affinity binding of SmEZH2 with iEZH2, opening the opportunity for development of new specific drugs for treatment of schistosomiasis.

Epigenética

Epigenetics

Expressão gênica

EZH2

EZH2

Gene expression

HDAC

HDAC

Histona

Histone

Schistosoma mansoni

Schistosoma mansoni

Impactos das biotécnicas reprodutivas no controle epigenético de genes imprinted / Impact of reproductive biotechniques on the epigenetic regulation of imprinted genes

Martucci, Mariane Ferracin

14 August 2015

Técnicas de reprodução assistida (TRAs) são utilizadas tanto na medicina humana quanto na medicina veterinária com o objetivo principal de corrigir infertilidades adquiridas ou herdadas. A transferência nuclear de célula somática (TNCS) ocupa um lugar de destaque na veterinária pela possibilidade de geração de indivíduos geneticamente idênticos, permitindo a produção de rebanhos homogêneos de alto mérito genético e servindo como modelo de estudo para técnicas de reprogramação. Porém, a utilização de TRAs, e em especial da TNCS, é considerada responsável pelo aumento na geração de conceptos portadores de alterações durante e após o desenvolvimento embrionário e fetal. A provável causa principal é a alteração na regulação da reprogramação epigenética devido à manipulação de gametas e embriões no período inicial do desenvolvimento, levando a alterações na regulação epigenética de genes imprinted. O presente estudo teve como objetivo principal avaliar marcas epigenéticas e expressão de genes imprinted no desenvolvimento de conceptos bovinos produzidos por TNCS ou inseminação artificial (IA). Para tal, foram coletadas amostras de tecido muscular e membranas corioalantoideana e amniótica de animais na fase pré natal (fetal) e tecidos muscular, nervoso e hepático na fase pós natal (animais nascidos saudáveis adultos ou não) de animais derivados de IA ou TNCS. Foi analisada a expressão dos genes imprinted H19, IGF2, IGF2R e Airn quando possível, assim como a metilação do DNA no locus H19/IGF2 na fase pós natal. Foi observado que na fase pré natal não foi detectada expressão do IGF2, enquanto que a expressão de H19 é aumentada em relação ao IGF2R, porém, sem diferenças entre os grupos nos tecidos estudados. Na fase pós natal, o padrão de expressão dos genes IGF2, H19 e IGF2R indica diminuição da expressão gênica relativa no fígado de animais TNCS e no aumento da expressão gênica do H19 na musculatura de animais adultos (saudáveis) bovinos produzidos por TNCS, apesar de o padrão de metilação dos genes imprinted IGF2/H19 não ser diferente entre organismos considerados saudáveis e não saudáveis. Os resultados deste projeto contribuem para o entendimento dos mecanismos epigenéticos relacionados ao desenvolvimento embrionário e fetal, em especial aqueles relacionados à dinâmica das alterações epigenéticas envolvidas no imprinting genômico / Assisted reproductive technologies (ARTs) are usually used in both human and veterinary medicine aiming the correction of heritable or acquired infertilities. The somatic cell nuclear transfer technique (SCNT) is of particular importance in veterinary as it enables the generation of genetically identical organisms, allowing the production of homogeneous genetically improved herds, and also serving as a model for reprogramming studies. However, the use of TRAs, SCNT in special, may be responsible for the increase of developmental-related abnormalities in the conceptuses. Such phenotypes are probably caused by a disruption during the epigenetic reprogramming due to the manipulation of gametes and embryos during the early development period, and therefore leading to disturbances in the epigenetic regulation of imprinted genes. The present study aimed to evaluate epigenetic marks and expression of imprinted genes in different developmental periods of cattle generated by SCNT or artificial insemination (AI). For that, corionic/alantoic and amniotic membranes from fetuses and muscular, nervous and hepatic tissues from born animals, healthy (adult) or not, produced by SCNT or AI were collected. The expression of the imprinted genes H19, IGF2, IGF2R and Airn was analyzed as well as the DNA methylation at locus H19/IGF2 in post-natal period. It was observed that IGF2 was not detected during pre-natal period, whereas H19 expression is increased when compared to IGF2R in the groups studied herein. At post-natal period the IGF2, H19 and IGF2R expression patterns infers the decrease of relative gene expression in the liver and the increase of H19 expression in the muscle of SCNT adult animals. The methylation pattern of IGF2/H19 locus, however, did not differ between healthy or not animals. The results described herein may contribute to the understanding of the epigenetic mechanisms related to embryonic and fetal development, and in special, to those related to the epigenetic dynamics during genomic imprinting

Bovine

Bovino

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Atividade quimiopreventiva da tributirina e do ácido fólico quando administrados isoladamente e/ou em associação na etapa de promoção da hepatocarcinogênese em ratos Wistar / Chemopreventive effect of tributyrin and folic acid when administered isolated and / or in association in promotion of hepatocarcinogenesis in rats

Henriques, Aline

30 April 2013

O carcinoma hepatocelular (HCC) é a 3&#170; causa de morte por neoplasias no mundo, sendo também o 5º tipo de neoplasia mais frequente. Seu tratamento limitado juntamente com o mau prognóstico tornam importante a adoção de medidas preventivas. A prevenção das etapas iniciais da hepatocarcinogênese pela administração de compostos bioativos de alimentos (CBAs) atualmente vem sendo observada em diversos estudos. Sugere-se que o processo de carcinogênese envolva alterações genéticas e epigenéticas, como a hipometilação do DNA e a desacetilação de histonas. Nesse sentido, o tratamento com ácido fólico (AF), precursor indireto de grupamento metil, e tributirina (TB), inibidora de enzimas desacetilases de histonas, quando em associação, poderia agir em adição potencializando os efeitos quimiopreventivos dos mesmos comparados às suas ações isoladas. A eventual atividade quimiopreventiva da TB (100mg/100g de peso corpóreo), do AF (0,08mg/100g de peso corpóreo), ambos com a metade da dose utilizada na literatura, e da associação entre os mesmos (AS) foi analisada durante a etapa de promoção da hepatocarcinogênese em ratos Wistar submetidos ao modelo do hepatócito resistente (HR). Para avaliação de GST-P, da proliferação celular, da apoptose, bem como a localização da histona H3K9 foi utilizada a técnica de imunohistoquímica; para a quantificação de H3K9, western blot. Em relação à análise macroscópica, os grupos tratados apresentaram menor número de nódulos em relação a MD (sem significância estatística), além de menor porcentagem de LPN menores do que 1mm nos grupos TB e AS. Na análise microscópica foi observado que os grupos TB, AF e AS apresentaram menor número de lesões pré neoplásicas persistentes (pLPN) em relação ao grupo controle isocalórico (MD, maltodextrina), assim como menor porcentagem de área ocupada por pLPN e por lesões em remodelação (rLPN). Quanto a proliferação celular, os grupos AF e AS apresentaram menor número de núcleos em fase S/mm2 quando comparados aos grupos MD e TB. Em relação à apoptose, os grupos TB e AS apresentaram maior número de hepatócitos em apoptose e corpúsculos apoptóticos/mm2 quando comparados aos grupos MD e AF. No resultado da metilação global do DNA não houve diferença entre os grupos. Em adição, os grupos AF e AS apresentaram maiores concentrações séricas de folato; o mesmo não ocorrendo para B12. No que diz respeito à acetilação de H3K9, os grupos TB e AS apresentaram maior porcentagem de acetilação quando comparados aos grupos N, MD e AF. Em conclusão, os grupos tratados com TB, AF e a associação entre eles apresentaram quimioprevenção pronunciada, sendo que o grupo AS apresentou mecanismos aditivos dos tratamentos isolados. / The hepatocellular carcinoma (HCC) is the third leading cause of death by cancer in the world, and the fifth most frequent type of neoplasm. Its limited treatment along with poor prognosis make it important to adopt preventive measures. The prevention of the initial stages of hepatocarcinogenesis by the administration of bioactive food compounds (BFCs) is currently being observed in several studies. It is suggested that the process of carcinogenesis involves genetic and epigenetic modifications, such as DNA hypomethylation and deacetylation of histones. Accordingly, treatment with folic acid (FA), indirect precursor of methyl grouping, and tributyrin (TB), a histone deacetylases inhibiting enzyme, when associated could act in addition to enhance the chemopreventive effects compared to their isolated actions. The possible chemopreventive activity of TB (100mg/100g body weight), FA (0.08 mg/100 g body weight) and the association between them (AS) were studied during the promotion stage of hepatocarcinogenesis in Wistar rats submitted to resistant hepatocyte model (RH).For evaluation of GST-P, cell proliferation, apoptosis, and the location of histone H3K9 was used immunohistochemistry, to quantify H3K9, western blot. Regarding the macroscopic analysis, the treated groups showed a lower number of nodules compared to MD (not statistically significant), and a lower percentage smaller than 1mm in groups TB and AS. Under microscopic examination the groups TB, FA and AS showed a lower number of persistent pre-neoplastic lesions (pLPN) compared to the isocaloric control group (MD, maltodextrin), as well as a lower percentage of the area occupied by pLPN and remodeling lesions (rLPN). As cell proliferation, FA and AS groups had fewer S phase nuclei/mm2 compared to MD and TB groups. Regarding apoptosis, TB and AS groups showed higher numbers of hepatocytes in apoptosis and apoptotic corpuscles/mm2 compared to MD and FA groups. Global DNA methylation did not differ between groups. In addition, AF and AS groups had higher serum concentrations of folate, which did not occur for B12.Concerning the H3K9 acetylation, the groups TB and AS showed higher percentage of acetylation when compared with the groups N, MD and FA. In conclusion, the groups treated with TB, FA and the association of both showed pronounced chemoprevention, and the AS group showed additive mechanisms compared with isolated treatments.

Ácido fólico

Chemoprevention

Epigenética

Epigenetics

Folic acid

Hepatocarcinogênese

Hepatocarcinogenesis

Quimioprevenção

Tributirina

Tributyrin