IN VIVO EPIGENETIC STUDY OF HISTONE ACETYLATION ASSOCIATED WITH OBESITY

Naahidi, Sheva Jay

January 2007

Post translational modifications in histone proteins are transmissible changes that are not coded for in the DNA sequence itself but have a significant affect in the control of gene expression. Eukaryotic transcription is a regulated process, and acetylation plays a major role in this regulation. Deranged equilibrium of histone acetylation can lead to alteration in chromatin structure and transcriptional dysregulation of genes that are involved in the control of proliferation, cell-cycle progression, differentiation and or apoptosis. Evidence shows that high glucose conditions mimicking diabetes can increase histone acetylation and augment the inflammatory gene expression. Recent advances also highlight the involvement of altered histone acetylation in gastrointestinal carcinogenesis or hyperacetylation in amelioration of experimental colitis. However, the role of histone acetylation under obesity conditions is not yet known. Therefore in the present study, western blot analysis in the liver of Zucker obese versus lean rats was performed to determine the pattern and level of H3 and H4 acetylation (both in nuclear and homogenate fractions) at specific lysine (K) in pathological state of hepatic steatosis The same technique was also applied in the liver of obese rats fed higher amounts of vitamin B6 (OH) versus those fed normal amounts of vitamin B6 (ON) to assess if hyper-acetylation can be a protective response to hepatic steatosis. In both experimental models, it was also of interest to elucidate the expression of anti- and pro- apoptotic factor Bcl-2 and Bax in respect to histone acetylation. It was observed that, in liver homogenate fractions in control animals (LC/OC), there was a higher level of histone H3 acetylation at (K9, K14) and H4 acetylation at K5 in the obese animals. In contrast, the nuclear level of H3 and H4 acetylation at the same lysine residues was considerably higher in the lean and lower in the obese animals. Obese animals contained lower liver preneoplastic lesions as well as liver weight as a result of higher amounts of vitamin B6, had significantly higher H3 acetylation at K9 and K14 and H4 acetylation at K5, in both homogenate and nuclear fractions. However, histone acetylation was not detected for histone H4 at lysine 12 (K12) in either control group (LC/OC) or obese with different B6 diet group (OH/ON). Nevertheless, global histone H3 and H4 acetylation in both homogenate and nuclear fractions, was slightly higher in the lean rats and obese rats fed higher amounts of B6. By using the western blot technique, the level of anti- and pro- apoptotic Bcl-2 and Bax were also evaluated. The moderately higher level expression of anti-apoptotic Bcl2 protein was found in lean animals, whereas the expression of pro-apoptotic Bax was significantly higher in obese animals. Furthermore, anti-apoptotic Bcl2 protein expression was slightly higher in the obese rats fed normal amounts of B6 diet; but, pro-apoptotic Bax was higher in the obese rats fed higher amounts of vitamin B6. This is the first study which shows that hyperacetylation of histones in liver nuclei can be correlated with amelioration of hepatic steatotis. Histone acetylation and B6 rich diet might be involved in the regulation of biological availability of key apoptotic proteins, which, in turn, can possibly modify the severity of the disease.

epigenetic

histone modification

histone acetylation

obesity

hepatic steatosis

histone acetyltransferase

Biology

IN VIVO EPIGENETIC STUDY OF HISTONE ACETYLATION ASSOCIATED WITH OBESITY

Naahidi, Sheva Jay

January 2007

Post translational modifications in histone proteins are transmissible changes that are not coded for in the DNA sequence itself but have a significant affect in the control of gene expression. Eukaryotic transcription is a regulated process, and acetylation plays a major role in this regulation. Deranged equilibrium of histone acetylation can lead to alteration in chromatin structure and transcriptional dysregulation of genes that are involved in the control of proliferation, cell-cycle progression, differentiation and or apoptosis. Evidence shows that high glucose conditions mimicking diabetes can increase histone acetylation and augment the inflammatory gene expression. Recent advances also highlight the involvement of altered histone acetylation in gastrointestinal carcinogenesis or hyperacetylation in amelioration of experimental colitis. However, the role of histone acetylation under obesity conditions is not yet known. Therefore in the present study, western blot analysis in the liver of Zucker obese versus lean rats was performed to determine the pattern and level of H3 and H4 acetylation (both in nuclear and homogenate fractions) at specific lysine (K) in pathological state of hepatic steatosis The same technique was also applied in the liver of obese rats fed higher amounts of vitamin B6 (OH) versus those fed normal amounts of vitamin B6 (ON) to assess if hyper-acetylation can be a protective response to hepatic steatosis. In both experimental models, it was also of interest to elucidate the expression of anti- and pro- apoptotic factor Bcl-2 and Bax in respect to histone acetylation. It was observed that, in liver homogenate fractions in control animals (LC/OC), there was a higher level of histone H3 acetylation at (K9, K14) and H4 acetylation at K5 in the obese animals. In contrast, the nuclear level of H3 and H4 acetylation at the same lysine residues was considerably higher in the lean and lower in the obese animals. Obese animals contained lower liver preneoplastic lesions as well as liver weight as a result of higher amounts of vitamin B6, had significantly higher H3 acetylation at K9 and K14 and H4 acetylation at K5, in both homogenate and nuclear fractions. However, histone acetylation was not detected for histone H4 at lysine 12 (K12) in either control group (LC/OC) or obese with different B6 diet group (OH/ON). Nevertheless, global histone H3 and H4 acetylation in both homogenate and nuclear fractions, was slightly higher in the lean rats and obese rats fed higher amounts of B6. By using the western blot technique, the level of anti- and pro- apoptotic Bcl-2 and Bax were also evaluated. The moderately higher level expression of anti-apoptotic Bcl2 protein was found in lean animals, whereas the expression of pro-apoptotic Bax was significantly higher in obese animals. Furthermore, anti-apoptotic Bcl2 protein expression was slightly higher in the obese rats fed normal amounts of B6 diet; but, pro-apoptotic Bax was higher in the obese rats fed higher amounts of vitamin B6. This is the first study which shows that hyperacetylation of histones in liver nuclei can be correlated with amelioration of hepatic steatotis. Histone acetylation and B6 rich diet might be involved in the regulation of biological availability of key apoptotic proteins, which, in turn, can possibly modify the severity of the disease.

epigenetic

histone modification

histone acetylation

obesity

hepatic steatosis

histone acetyltransferase

Biology

Role of BRD4 and histone acetylation in estrogen receptor-positive breast cancers

Nagarajan, Sankari

18 May 2015

No description available.

570

Bromodomain

Histone acetylation

Estrogen receptor

epigenetics

Enhancer RNA

Histone modifications

Biologie (PPN619462639)

Epigenetik in der Schizophrenie und der Einfluss von Histon-Deacetylasen auf die Arbeitsgedächtnisfunktion / Epigenetics in schizophrenia and the influence of histone deacetylases on working memory

Löns, Sebastian

13 October 2015

No description available.

610

Schizophrenie

Epigenetik

Arbeitsgedächtnis

Histonacetylierung

schizophrenia

epigenetics

working memory

histone acetylation

Psychiatrie (PPN619876344)

The Role of Lysine Acetyltransferase Tip60 in the Murine Hippocampus

Urban, Inga

22 July 2014

No description available.

570

Tip60

hippocampus

epigenetics

histone acetylation

homeostasis

learning and memory

immediate-early genes

RNA-Seq

Biologie (PPN619462639)

Caractérisation fonctionnelle de l'activité de l'histone acétyltransférase GCN5 au sein des complexes ATAC et SAGA chez l'homme / Functional characterization of the histone acetyltransferase GCN5 in the human ATAC and SAGA complexes

Riss, Anne

12 September 2012

Afin d’initier la transcription par l’ARN Polymérase II, la chromatine est modifiée par des coactivateurs, dont certains catalysent des modifications post-traductionnelles des queues des histones. La protéine GCN5 est une enzyme qui possède une activité histone acétyltransférase (HAT). Elle fait partie du complexe coactivateur SAGA, qui acétyle les histones H3. Or, il existe un second complexe HAT contenant GCN5 : le complexe ATAC, mis en évidence chez la drosophile. Chez l’homme en revanche, l’existence d’un tel complexe n’avait pas encore été démontrée au début de ma thèse.L’objectif de ma thèse a consisté tout d’abord en la purification et la caractérisation du complexe HAT ATAC chez l’homme. Puis, j’ai cherché à comprendre le fonctionnement et la spécificité d’action du complexe ATAC, par rapport au complexe SAGA.Dans une première partie, j’ai ainsi pu montrer que GCN5 fait partie d’un second complexe chez l’homme, le complexe ATAC. La composition en sous-unités du complexe ATAC a été déterminée et l’activité de ce dernier sur les histones étudiée. Nous avons pu démontrer que, comme hSAGA, hATAC acétyle les histones in vitro et in vivo, et préférentiellement la lysine 14 de l’histone H3. Chez les vertébrés, un paralogue de GCN5, PCAF peut se substituer à GCN5 dans les complexes ATAC ou SAGA.Par la suite, j’ai poursuivi la caractérisation de ces complexes HAT afin de comprendre le rôle des enzymes au sein des complexes et leurs fonctions. Pour cela, j’ai voulu comprendre le rôle des sous-unités, comment elles influencent l’activité de l’enzyme, et ainsi identifier les protéines qui permettent la spécificité de hATAC par rapport à hSAGA. / In order to initiate the transcription by the RNA polymerase II, chromatin needs to be modified by coactivators. Some of these coactivators are histone post-translational modifying complexes. GCN5 is a histone acetyltransferase enzyme (HAT), which can acetylate the histones. This enzyme is found in a multiproteic complex named SAGA. Recently, a second HAT complex containing GCN5 was discovered: ATAC, in drosophila. At the beginning of my thesis, the existence of such complex in human was not shown.My thesis objectives were then to identify and characterize an ATAC complex in human cells. In a first part, we purified and identified the composition in subunits of human ATAC. Then we studied the activity and specificity of ATAC on histone substrates, compared to SAGA. Next, we were wondering how the subunits of the two HAT complexes could play a role on the regulation of the activity of the enzyme GCN5, in order to understand the histone specificity of ATAC and SAGA.

Acétylation

Histone

GCN5

ATAC

SAGA

Epigénétique

Chromatine

Histone acetylation

GCN5

ATAC

SAGA

Epigenetic

Chromatin

572.8

Acétylation des histones au cours des processus de mémorisation : influence du vieillissement et de l'environnement enrichi / Histone acetylation and memory processes : impact of ageing and environmental enrichment

Neidl, Romain

29 March 2012

La formation de souvenirs nécessite la mise en place de programmes génétiques dans l’hippocampe. L’activation de la transcription de gènes impliqués dans les processus de plasticité comme le bdnf s’effectue, au moins en partie, via l’acétylation des histones, mécanisme qui permet des changements de la structure de la chromatine. Nos résultats soulignent l’existence d’une régulation spécifique et différentielle de l’acétylation des histones dans l’hippocampe de rongeurs adultes en fonction du type d’information à traiter. Les acétylations des histones H2B et H4 sont spécifiques de l’apprentissage d’une tâche (MWM, CFC) alors que celle de l’histone H3 semble plus sensible au contexte environnemental. Il est par ailleurs décrit que le vieillissement ainsi que l’environnement enrichi (EE) sont des facteurs susceptibles d’induire des changements d’acétylation des histones, aboutissant respectivement à la répression et à l’activation de gènes de « mémoire ». Nos études mettent en évidence qu’un EE de 6 mois, même appliqué à des rats âgés de 18 mois qui présentent déjà des déficits mnésiques, est capable d’induire des modifications durables de la structure de la chromatine par l’intermédiaire de H3. En favorisant l’expression de gènes comme le bdnf, ces changements participent au maintien des capacités mnésiques, normalement perdues chez le Rat âgé de 24 mois. Dans l’ensemble, nos résultats soulignent l’importance des mécanismes liés aux acétylations des histones dans les processus mnésiques et indiquent que ces régulations restent modulables au cours de la vie, permettant d’envisager d’éventuelles options thérapeutiques dans des conditions de vieillissement pathologique. / Hippocampal-dependent memory formation is associated with the establishment of specific genetic programs in the rat hippocampus. This transcriptional activation of genes involved in synaptic plasticity and memory processes, like bdnf, can in part be attributable to histone acetylation-related mechanisms, allowing dynamic chromatin structure changes. Our results indicate a specific and differential regulation of histone acetylation in young rodents hippocampus depending on the nature of the stimuli. In fact, H2B and H4 acetylations are specific to rats having learnt a task (MWM, CFC), whereas H3 acetylation seems to be more sensitive to the environmental context. Besides, it is known that ageing and environmental enrichment (EE) are factors able to modulate histone acetylation, leading respectively to repression and activation of memory-related genetic programs. Here, we showed that an EE of 6 months, even applied to 18 month-old rats, which already present memory deficits, is able to induce persistent chromatin structure modifications through H3. By favoring the expression of genes as bdnf, these changes could participate in the preservation of memory abilities, which are normally lost in 24 month-old rats. The precise identification of regulating elements located on the bdnf promoter brings new data about the potential factors involved in the transcriptional response following EE, e.g. CREB and NFκB. Altogether, our results confirm the role of histone acetylation in memory processes and underline that these regulations remain flexible during life, thus highlighting possible therapeutic strategies in pathological ageing conditions.

Mémoire

Hippocampe

Acétylation des histones

Vieillissement

Environnement enrichi

Memory

Hippocampus

Histone acetylation

Ageing

Environmental enrichment

572.8

616.8

Avaliação do padrão de acetilação das histonas por técnica imunohistoquímica em adenocarcinoma de pâncreas : influência epigenética na carcinogenese

Juliano, Camila Nóbrega

January 2012

Introdução: O Adenocarcinoma ductal pancreático é um tumor bastante agressivo que apresenta uma alta de letalidade e, para o qual, poucas opções terapêuticas estão disponíveis. Isto pode ser parcialmente explicado pela complexidade derivada de múltiplas aberrações genéticas e da população celular mista presente em um tumor pancreático, o que também pode explicar o curso clínico heterogêneo observado na prática diária. Ultimamente, pesquisas científicas têm contribuído para ampliar o conhecimento sobre o impacto das alterações epigenéticas no desenvolvimento de múltiplos tipos de câncer, porém no pâncreas essas alterações ainda são incertas e, por isso, foco de investigação. A desregulação epigenética parece estar envolvida no ciclo celular da célula tumoral, incluindo o crescimento celular, diferenciação, progressão tumoral e morte celular, e a acetilação das histonas é um importante mecanismo que regula a transcrição de genes envolvidos nesses processos. Padrões globais de modificações das histonas foram recentemente apontados como preditores de desfecho em pacientes com câncer, mas poucos estudos têm sido realizados nesta área, inclusive em Adenocarcinoma ductal pancreático (ADP). Objetivos: O presente estudo foi desenvolvido a fim de investigar o padrão de modificação de acetilação das histonas em adenocarcinoma pancreático, através da análise imunohistoquímica. Materiais e métodos: Uma análise clinicopatológica retrospectiva foi realizada em 119 pacientes diagnosticados com câncer de pâncreas entre os anos de 2005 e 2011, e realizado estudo imunohistoquímico com os anticorpos contra H4K12ac, H3K9ac e H3K18ac. Marcação nuclear positiva para cada histona foi medida quanto à intensidade e expressão, sendo classificadas em grupos de baixa ou de alta intensidade/expressão. Os resultados foram analisados em relação aos parâmetros clinicopatológicos de cada paciente. Resultados: Houve uma relação positiva entre diferenciação tumoral e alta expressão de H4K12ac (P <0,05), bem como a intensidade forte dos três marcadores correlacionou-se positivamente com o estágio do tumor (P <0,01). Análise univariada mostrou pior sobrevida em pacientes com níveis elevados de expressão de H4K12ac (p = 0,038) e H3K18Ac (P = 0,033). Modelo de risco proporcional de Cox revelou o efeito prognóstico independente de níveis elevados de H4K12ac H3K18ac (taxas de risco de 1,6 e 1,7, respectivamente, p <0,05), especialmente para pacientes em estágios iniciais. Sugerimos como hipótese que as modificações na acetilação das histonas H4K12 e H3K18 podem ser consideradas fatores prognósticos importantes para o câncer de pâncreas, embora o mecanismo envolvido necessite de mais investigação. Aumentando a compreensão e o conhecimento sobre o padrão de acetilação das histonas, poder-se-ão finalmente gerar novas idéias para um diagnóstico molecular racional e novas abordagens terapêuticas. / Introduction: Ductal pancreatic adenocarcinoma (DPAs) is a highly aggressive tumor, with a high letality rate, for which few therapeutic options are available. This may be partially explained by the notorious complexity derived from the multiple genetic aberrations and mixed cellular population present in a pancreatic tumor, which can also explain the heterogeneous clinical course observed in daily practice. Lately, there is an increase in the literature about the impact of epigenetic changes on the development of several cancer, however in the pancreas these changes are still uncertain. Epigenetic deregulation may be involved in tumor cell biology, including cell growth, differentiation, tumor progression and cell death, and histone acetylation is a major mechanism that regulates gene transcription. Patterns of global histone modifications have been recently suggested as outcome predictors in cancer patients, but few studies have been conducted on pancreatic ductal adenocarcinomas. Objectives: This study was designed to investigate the predictive value of histone acetylation modifications on pancreatic cancer. Material and methods: A retrospective clinicopathologic analysis was undertaken in 119 patients diagnosed with PDAC between 2005 and 2011, and immunohistochemistry performed with antibodies against H4K12ac, H3K9ac and H3K18ac. Positive nuclear staining for each histone was measured as the intensity and expression, being classified into low or high-staining groups. Results were analyzed in relation to patients’ clinicopathologic parameters. Results: There was a positive relationship between tumor differentiation and H4K12ac high scores (P<0.05) and staining of the three markers correlated positively with tumor stage (P<0.01). Univariate analysis showed worse survival in patients with high detection levels of H4K12ac (p=0.038) and H3K18Ac (P=0.033). A backwards Cox proportional hazards model revealed the independent prognostic effect of high H4K12ac and H3K18ac levels (hazard ratios of 1.6 and 1.7 respectively, p<0.05), especially for patients at early stages. We hypothesize that acetylation of H4K12 and H3K18 may be considered valuable prognostic factors for pancreatic cancer, although the mechanism involved needs further investigation. Increasing insights into histone acetylation modifications can ultimately generate new ideas for rationally and molecularly based diagnostic and therapeutic approaches.

Histonas

Acetilação

Neoplasias pancreáticas

Imunoistoquímica

Histone

Histone-acetylation

Pancreatic cancer and histone

Immunohystochemistry

Efeito do exercício físico sobre marcadores epigenéticos em córtex pré-frontal de ratos wistar durante o processo de envelhecimento

Cechinel, Laura Reck

January 2016

Ao longo dos últimos anos observou-se um aumento no número de idosos no mundo, com isso faz-se necessário buscar terapias que amenizem os danos relacionados e também elucidar os mecanismos envolvidos neste processo. O exercício físico tem sido sugerido como uma ferramenta importante, não farmacológica, para atenuar os déficits relacionados à idade. Ainda, estudos recentes sugerem uma relação entre o processo de envelhecimento cerebral e o desequilíbrio de mecanismos epigenéticos, contudo, estes dados ainda não são conclusivos. Sabe-se que o grau de neuroplasticidade varia com a idade e que as estruturas encefálicas podem responder diferentemente à exposição ao exercício. Estudos demonstram que o córtex pré-frontal está envolvido em funções de alta ordem como atenção, tomada de decisão e memória de trabalho. Portanto, o objetivo deste trabalho foi avaliar os efeitos de diferentes protocolos de exercício físico (sessão única e exercício diário moderado) sobre a modulação de marcadores epigenéticos em córtex pré-frontal de ratos Wistar de 3 e 21 meses de idade. Os animais foram submetidos ao protocolo de sessão única (20 minutos) ou o exercício diário moderado (20 minutos durante 14 dias), 1 hora após a última sessão foram eutanasiados. O córtex pré-frontal foi dissecado e a acetilação da H4, o conteúdo da DNA metiltransferase (DNMT1 e DNMT3b), assim como a atividade da histona metiltransferase H3K27 foram analisadas. Os resultados serão apresentados na versão completa desta dissertação. / Over the past few years the number of elderly people has increased in the world, therefore it is necessary to search therapies that ameliorate age-related deficits as well as elucidate the mechanisms involved in this process. Physical exercise has been suggested as an important non-pharmacological approach to alleviate the age-related decline. Furthermore, recent studies have suggested a relationship between the process of brain aging and imbalance of epigenetic mechanisms, however, these data are not conclusive. It is well described that prefrontal cortex is involved in higher functions like attention, decision making and working memory. Then, the aim of this study was to investigate the effects of two exercise protocols (single session and daily moderate exercise) on the modulation of epigenetic markers in the prefrontal cortex from Wistar rats of 3- and 21- months-old. Animals were submitted to single session protocol (20 minutes) or the daily moderate exercise (20 minutes for 14 days), and 1hour after the last exercise session animals were euthanized. Prefrontal cortex was dissected out and acetylation of H4, the content of DNA methyl transferase (DNMT1 and DNMT3B), as well as histone methyltransferase H3K27 activity were analyzed. Results will be presented in the full version.

Exercício físico

Córtex cerebral

Biomarcadores

Envelhecimento

Epigenética

Aging

Cortex

Treadmill exercise

Histone acetylation

DNA methyltransferase

Mécanisme de régulation de l'acétyltransférase p300/CBP / Mechanism of regulation of the p300/CBP acetyltransferase

Delvecchio, Manuela

26 September 2011

Le p300/CBP acétyltransférase est un co-activateur transcriptionnel très important qui est impliqué dans la régulation d'un grand nombre de processus biologiques, comme la transcription d'ADN, le développement et l'immunité innée. Jusqu'à présent, le rôle de p300/CBP dans la régulation de l'expression des gènes a été largement étudiée, mais les mécanismes qui régulent son activité enzymatique sont encore peu connus. Des études ont montré que le dysfonctionnement de p300/CBP est associé à plusieurs formes de cancer et de maladies neurodégénératives. Dés lors, chaque progrès concernant les mécanismes de régulation de p300/CBP est devenu primordial pour le développement de nouvelles thérapies. Le 'noyau' de p300/CBP contient deux domaines pour la reconnaissance des modifications post-traductionnelles (MPTs), un bromodomaine et un PHD finger (le module BP), adjacent à un domaine HAT (ou domaine histone acétyltransférase). Plusieurs enzymes, modifiant la chromatine, contiennent des domaines de reconnaissance des MPTs. Fréquemment des groupements particuliers de ces domaines sont très conservés et liés, au sein de la même protéine ou du même complexe protéique, suggérant qu'ils réalisent des fonctions coordonnées. Ces domaines adjacents peuvent agir en concertation dans la reconnaissance simultanée de différents MPTs ou peuvent exercer des fonctions différentes de celles qui sont effectuées par ces deux domaines particuliers, tels que les fonctions de régulation enzymatique. Plusieurs études suggèrent que les cycles acétylation/désacétylation dans la boucle d'auto-inhibition, à l'intérieur du domaine HAT, jouent un rôle important dans la régulation de l'activité enzymatique de p300/CBP. La proximité du module BP et du domaine HAT suggère que la spécificité de liaison, appartenant au module BP, peut être intrinsèquement liée à la régulation de l'activité du domaine HAT. L'objectif de ma thèse est de déterminer le rôle du module BP dans la régulation de l'activité du domaine HAT. Je propose que le module BP soit impliqué dans la régulation de p300/CBP de deux façons. La première consiste à établir un lien avec le domaine HAT qui stabilise la conformation auto-inhibée de l'enzyme. La deuxième exige que le module BP joue un rôle dans le choix des substrats de p300/CBP. J'ai été en mesure de montrer que BP peut se lier au domaine HAT et à la chromatine modifiée et qu'il peut reconnaître les modifications effectuées par p300/CBP lui-même. Les données obtenues indiquent que le module BP peut être impliqué dans la régulation de l'activité de p300/CBP et dans son ciblage à la chromatine. / The p300/CBP acetyltransferase is an important transcriptional co-activator which is involved in regulating a wide range of biological processes, such as DNA transcription, development and innate immunity. To date, the role of p300/CBP in gene regulation has been extensively described but little is known about the mechanisms which regulate its activity. Since misregulation of p300/CBP has been associated to the development of several forms of cancers and neurodegenerative diseases, studies directed to decipher the mechanisms of regulation of p300/CBP are of great importance for the development of new therapies. The p300/CBP 'core' contains two post-translational modifications (PTMs) recognition motifs, a bromodomain and a PHD domain (the bromo-PHD module, BP), in close proximity to a histone acetyltransferase domain (HAT). Many chromatin modifying enzymes contain recognition modules for PTMs. Frequently particular groupings of such modules are conserved and linked within the same protein or the same multisubunit complex, suggesting that they perform concerted functions. These linked modules may act combinatorially to allow recognition of multiple PTMs or display new functions that are not possessed by the single modules, such as regulatory properties. Accumulating evidence suggests that acetylation/deacetylation in a conserved autoinhibitory loop of the p300/CBP HAT domain plays an important role in regulation of HAT activity. The close apposition of the BP module and the HAT domain suggests that BP substrate recognition is intrinsically linked to regulation of HAT activity. During my thesis work, I have investigated the role of BP in HAT regulation. I propose that the BP module is involved in p300/CBP regulation by binding to the HAT domain and stabilizing the autoinhibited conformation of the enzyme. I have also investigated substrate specificity of the BP module towards modified chromatin. I could show that the BP module binds histone modifications including those that are p300/CBP dependent. Altogether, the data suggests that the BP module is involved in regulating p300/CBP HAT activity and in targeting of chromatin.

P300

Acetyltransférase

PhD domain

Acetylation des histones

Chromatin

P300

Acetyltransferase

Bromodomain

PhD domain

Histone acetylation

Chromatin

570