Análise de redes de interação transcricional na substância nigra, locus cerúleo e núcleo dorsal do nervo vago na Doença de Parkinson / Transcriptional interaction network analyses in substantia nigra, locus coeruleus and dorsal nucleus of vagus nerve in Parkinson\'s disease

Corradini, Beatriz Raposo

17 April 2013

INTRODUÇÃO: A doença de Parkinson é causada pela perda significativa de neurônios dopaminérgicos na substância nigra e perda celular no locus cerúleo, com perda do neurotransmissor dopamina e continuada deposição de inclusões proteicas nos tecidos cerebrais. A doença tem progressão caudo-rostral, iniciando-se no núcleo dorsal do nervo vago e, em grau menor, nos sistema olfativo, com evolução para o mesencéfalo e posteriormente para o prosencéfalo e neocórtex. Cerca de 90% dos casos são idiopáticos e o principal fator de risco é o envelhecimento. Para se compreender a interação genoma-ambiente e o mecanismo molecular nessa doença têm sido conduzidas investigações dos perfis de expressão gênica global em diversos tecidos-alvo. Essa abordagem de genômica funcional utiliza a tecnologia de DNA microarrays para estudo da expressão gênica e ferramentas de bioinformática para análise dos dados gerados. Neste trabalho foi feita uma análise das redes de interação transcricional em tecidos-alvo da doença de Parkinson utilizando-se amostras post mortem de tecidos cerebrais obtidas de pacientes e controles livres da doença. MÉTODOS: Estudo comparativo das redes de interação transcricional no núcleo dorsal do nervo vago, locus cerúleo e substância nigra entre pacientes com doença de Parkinson idiopática nos estágios Braak 4-5 e controles livres da doença utilizando material de necropsia. Foram utilizados DNA microarrays Agilent de 44 K e a análise estatística comparativa de dos transcritos válidos (TMEV) foi feita no vetor paciente X controle para cada região anatômica sob estudo. Para a análise das redes de interação transcricional dos grupos de pacientes e controles em cada região anatômica utilizou-se o software FunNet e as anotações genômicas do Gene Ontology Consortium. RESULTADOS: Os genes com maior número de ligações gene-gene em cada rede transcricional, ou hubs, foram identificados e correlacionados com sua função biológica e possível papel na doença de Parkinson. A análise comparativa entre o perfil de hubs (número de ligações, posição na rede) em cada região anatômica para pacientes e controles revelou que: i) no núcleo dorsal do nervo vago os hubs principais nas redes de controles e pacientes estão relacionados a funções de manutenção da homeostase cerebral e organização neuronal, ii) no locus cerúleo os hubs principais dos controles são genes ligados à manutenção das funções cerebrais, mobilização de células progenitoras (pericitos) e controle de vias inflamatórias, enquanto que na rede de pacientes esses hubs estão ligados aos processos de endo e exocitose, desenvolvimento neuronal e controle do estresse oxidativo e degradação de proteínas; iii) finalmente, na substância nigra os principais hubs da rede de controles estão envolvidos na proteção contra estresse oxidativo e proteínas não dobradas e na manutenção do sistema dopaminérgico mesodiencefálico, enquanto que na rede de pacientes predominam hubs ligados a processos epigenéticos de envelhecimento mitocondrial, transporte vesicular, neurogênese, inflamação e morte neuronal. CONCLUSÕES: Os resultados da análise de redes de interação transcricional de pacientes e controles em diferentes regiões anatômicas são compatíveis com o modelo de progressão caudo-rostral da doença de Parkinson e apontam para mecanismos compensatórios no núcleo dorsal do nervo vago e locus cerúleo / INTRODUCTION: Parkinson\'s disease is caused by a substantial loss of dopaminergic neurons in the substantia nigra and cell loss in locus coeruleus, concomitant loss of dopamine neurotransmitter and continuing deposition of protein within the brain as intracellular inclusions. The disease has a caudal-rostral progression, beginning in the dorsal nucleus of vagus nerve and, in a less extent, in the olfactory system, progressing to the midbrain and finally to the basal forebrain and the neocortex. About 90% of the cases are idiopathic and the main risk factor is ageing. In order to have a better understanding of the genome-environment interactions and of the molecular mechanisms involved in this disease, the investigation of global gene expression in different target tissues has been conducted. This functional genomic approach is based on DNA microarray technology and on the use of bioinformatics for analyzing the data. In the present work an analysis of transcriptional interaction networks in Parkinson\'s disease target tissues was conducted in post mortem cerebral tissue samples obtained from patients and disease-free controls. METHODS: Comparative study of transcriptional interaction networks in the dorsal nucleus of vagus nerve, locus coeruleus, and substantia nigra of idiopathic Parkinson\'s disease patients in Braak stages 4-5 and disease-free controls using post mortem tissue samples. Agilent 44 K DNA microarrays were used and the statistical comparative analysis of valid transcripts was accomplished (TMEV) in the vector patient X control for each anatomic region under study. In order to analyze the transcriptional interaction networks for patient and control groups in each anatomic region the FunNet software and the Gene Ontology genomic annotations were used. RESULTS: The genes with high number of gene-gene connections in each transcriptional network, or hubs, were identified and related to their biological function and putative role in Parkinson\'s disease. The comparative analysis between hub profiles (number of connections, position in the network) in each anatomic region for patients and controls revealed that: i) in the dorsal nucleus of vagus nerve the main hubs in patient and control networks are related to the maintenance of brain homeostasis and to neuronal organization; ii) in the locus coeruleus the main hubs of control network are related to the maintenance of brain functions, mobilization of progenitor cells (pericytes) and control of inflammatory pathways, whereas in the patient network the main hubs are linked to exo and endocytosis processes, neuronal development and control of oxidative stress and protein degradation; iii) finally, in the substantia nigra the main hubs in the control network are related to protection against oxidative stress and unfolded/misfolded proteins and in the maintenance of the midbrain dopaminergic system, whereas in the patient network the main hubs are related to epigenetic processes of mitochondrial ageing, vesicular transport, neurogenesis and inflammation and neuronal death. DISCUSSION: The results of transcriptional interaction networks analyses performed for patient and control groups in different anatomic regions are compatible with the caudal-rostral model of Parkinson\'s disease progression and point out to compensatory mechanisms acting in vagus nerve and locus coeruleus

Doença de Parkinson

Genômica

Genomics

Locus cerúleo

Locus coeruleus

Nervo vago

Parkinson disease

Redes de interação transcricional

Substância nigra

Substantia nigra

Transcriptional networks

Vagus nerve

Análise de redes de interação transcricional na substância nigra, locus cerúleo e núcleo dorsal do nervo vago na Doença de Parkinson / Transcriptional interaction network analyses in substantia nigra, locus coeruleus and dorsal nucleus of vagus nerve in Parkinson\'s disease

Beatriz Raposo Corradini

17 April 2013

INTRODUÇÃO: A doença de Parkinson é causada pela perda significativa de neurônios dopaminérgicos na substância nigra e perda celular no locus cerúleo, com perda do neurotransmissor dopamina e continuada deposição de inclusões proteicas nos tecidos cerebrais. A doença tem progressão caudo-rostral, iniciando-se no núcleo dorsal do nervo vago e, em grau menor, nos sistema olfativo, com evolução para o mesencéfalo e posteriormente para o prosencéfalo e neocórtex. Cerca de 90% dos casos são idiopáticos e o principal fator de risco é o envelhecimento. Para se compreender a interação genoma-ambiente e o mecanismo molecular nessa doença têm sido conduzidas investigações dos perfis de expressão gênica global em diversos tecidos-alvo. Essa abordagem de genômica funcional utiliza a tecnologia de DNA microarrays para estudo da expressão gênica e ferramentas de bioinformática para análise dos dados gerados. Neste trabalho foi feita uma análise das redes de interação transcricional em tecidos-alvo da doença de Parkinson utilizando-se amostras post mortem de tecidos cerebrais obtidas de pacientes e controles livres da doença. MÉTODOS: Estudo comparativo das redes de interação transcricional no núcleo dorsal do nervo vago, locus cerúleo e substância nigra entre pacientes com doença de Parkinson idiopática nos estágios Braak 4-5 e controles livres da doença utilizando material de necropsia. Foram utilizados DNA microarrays Agilent de 44 K e a análise estatística comparativa de dos transcritos válidos (TMEV) foi feita no vetor paciente X controle para cada região anatômica sob estudo. Para a análise das redes de interação transcricional dos grupos de pacientes e controles em cada região anatômica utilizou-se o software FunNet e as anotações genômicas do Gene Ontology Consortium. RESULTADOS: Os genes com maior número de ligações gene-gene em cada rede transcricional, ou hubs, foram identificados e correlacionados com sua função biológica e possível papel na doença de Parkinson. A análise comparativa entre o perfil de hubs (número de ligações, posição na rede) em cada região anatômica para pacientes e controles revelou que: i) no núcleo dorsal do nervo vago os hubs principais nas redes de controles e pacientes estão relacionados a funções de manutenção da homeostase cerebral e organização neuronal, ii) no locus cerúleo os hubs principais dos controles são genes ligados à manutenção das funções cerebrais, mobilização de células progenitoras (pericitos) e controle de vias inflamatórias, enquanto que na rede de pacientes esses hubs estão ligados aos processos de endo e exocitose, desenvolvimento neuronal e controle do estresse oxidativo e degradação de proteínas; iii) finalmente, na substância nigra os principais hubs da rede de controles estão envolvidos na proteção contra estresse oxidativo e proteínas não dobradas e na manutenção do sistema dopaminérgico mesodiencefálico, enquanto que na rede de pacientes predominam hubs ligados a processos epigenéticos de envelhecimento mitocondrial, transporte vesicular, neurogênese, inflamação e morte neuronal. CONCLUSÕES: Os resultados da análise de redes de interação transcricional de pacientes e controles em diferentes regiões anatômicas são compatíveis com o modelo de progressão caudo-rostral da doença de Parkinson e apontam para mecanismos compensatórios no núcleo dorsal do nervo vago e locus cerúleo / INTRODUCTION: Parkinson\'s disease is caused by a substantial loss of dopaminergic neurons in the substantia nigra and cell loss in locus coeruleus, concomitant loss of dopamine neurotransmitter and continuing deposition of protein within the brain as intracellular inclusions. The disease has a caudal-rostral progression, beginning in the dorsal nucleus of vagus nerve and, in a less extent, in the olfactory system, progressing to the midbrain and finally to the basal forebrain and the neocortex. About 90% of the cases are idiopathic and the main risk factor is ageing. In order to have a better understanding of the genome-environment interactions and of the molecular mechanisms involved in this disease, the investigation of global gene expression in different target tissues has been conducted. This functional genomic approach is based on DNA microarray technology and on the use of bioinformatics for analyzing the data. In the present work an analysis of transcriptional interaction networks in Parkinson\'s disease target tissues was conducted in post mortem cerebral tissue samples obtained from patients and disease-free controls. METHODS: Comparative study of transcriptional interaction networks in the dorsal nucleus of vagus nerve, locus coeruleus, and substantia nigra of idiopathic Parkinson\'s disease patients in Braak stages 4-5 and disease-free controls using post mortem tissue samples. Agilent 44 K DNA microarrays were used and the statistical comparative analysis of valid transcripts was accomplished (TMEV) in the vector patient X control for each anatomic region under study. In order to analyze the transcriptional interaction networks for patient and control groups in each anatomic region the FunNet software and the Gene Ontology genomic annotations were used. RESULTS: The genes with high number of gene-gene connections in each transcriptional network, or hubs, were identified and related to their biological function and putative role in Parkinson\'s disease. The comparative analysis between hub profiles (number of connections, position in the network) in each anatomic region for patients and controls revealed that: i) in the dorsal nucleus of vagus nerve the main hubs in patient and control networks are related to the maintenance of brain homeostasis and to neuronal organization; ii) in the locus coeruleus the main hubs of control network are related to the maintenance of brain functions, mobilization of progenitor cells (pericytes) and control of inflammatory pathways, whereas in the patient network the main hubs are linked to exo and endocytosis processes, neuronal development and control of oxidative stress and protein degradation; iii) finally, in the substantia nigra the main hubs in the control network are related to protection against oxidative stress and unfolded/misfolded proteins and in the maintenance of the midbrain dopaminergic system, whereas in the patient network the main hubs are related to epigenetic processes of mitochondrial ageing, vesicular transport, neurogenesis and inflammation and neuronal death. DISCUSSION: The results of transcriptional interaction networks analyses performed for patient and control groups in different anatomic regions are compatible with the caudal-rostral model of Parkinson\'s disease progression and point out to compensatory mechanisms acting in vagus nerve and locus coeruleus

Doença de Parkinson

Genômica

Locus cerúleo

Nervo vago

Redes de interação transcricional

Substância nigra

Genomics

Locus coeruleus

Parkinson disease

Substantia nigra

Transcriptional networks

Vagus nerve

Efeito da administração aguda de iodo na regulação da expressão do gene do co-transportador de sódio-iodeto (NIS) - estudo in vivo e in vitro. / Effect of acute iodine administration on the regulation of sodium-iodide symporter (NIS) gene expression in vivo and in vitro studies.

Nascimento, Caroline Serrano do

19 November 2008

O iodo em excesso promove o efeito Wolff-Chaikoff. Oligominerais já foram descritos como potenciais reguladores da expressão de proteínas. Tornou-se interessante avaliar se o iodo interferiria com a expressão do mRNA da NIS, em curtos períodos de tempo. Foram realizados, em ratos e células (de 30 min24h), estudos de expressão, comprimento de cauda poli-A e recrutamento para polissomos, do mRNA de NIS. Observou-se, in vivo e in vitro, que o excesso de iodo promoveu diminuição da expressão e do comprimento da cauda poli-A do mRNA de NIS, em todos os períodos estudados, além de promover menor recrutamento deste mRNA para os polissomos. A diminuição da cauda poli-A do mRNA de NIS pode ter aumentado sua instabilidade/degradação e também ter sido responsável por uma menor eficiência de tradução deste transcrito. Conclui-se que: (a) o iodo regula pós-transcricionalmente a expressão gênica da NIS, sendo fundamental nos processos que norteiam o efeito Wolff-Chaikoff e (b) oligoelementos têm relevância na regulação da expressão de proteínas relacionadas ao seu transporte. / Iodide in excess exerts the Wolff-Chaikoff effect. It is described that some minerals can regulate the expression of proteins. This study aimed to investigate if the iodide could modify the expression of NIS mRNA, in short periods of time. Rats and cells, divided in time-groups of 30 min up to 24h, were used in studies of expression, poly-A tale length and polysomal profile of NIS mRNA. Both in vivo and in vitro studies showed that the iodide treatment promoted a reduction in the expression and the poly-A length of NIS mRNA, in all time-groups, and decreased its recruitment to the polysomes. It is possible that the reduction of NIS mRNA poly-A tale length has increased the instability/degradation of this transcript, and impaired the translation efficiency of it. Concluding: a) the iodine exerts a post-transcriptional regulation of NIS mRNA expression, being essencial in the processes that guide the Wollf-Chaikoff effect; b) the oligoelements have an extremely important role in the expression regulation of proteins related to their transport.

Acute treatment

Cauda poli-A

Expressão gênica

Gene expression

Iodine

Iodo

NIS

NIS

Poly-A tale

Post-transcriptional regulation

Regulação pós-transcricional

Tratamento agudo

Étude de la régulation transcriptionnelle de Mlxipl par RFX6 et identification des gènes cibles dans les cellules bêta pancréatiques / Study of the transcriptional regulation of Mlxipl by RFX6 and identification of target genes in pancreatic beta cells

Grans, Julia

05 April 2019

La fonction endocrine du pancréas est essentielle pour l'homéostasie du glucose parce que les îlots pancréatiques contiennent le seul type des cellules endocrines, nommées cellules bêta, qui sont capable de produire et sécréter de l’insuline. Le facteur de transcription RFX6, maintenu dans toutes les cellules endocrines matures, est essentiel pour le développement, l'identité et la fonction des cellules bêta. Chez l'homme, des mutations de RFX6 causent le syndrome de Mitchell-Riley, un trouble du développement caractérisé par un diabète néonatal et des malformations du système gastro-intestinal. La recherche des cibles de RFX6 dans les îlots murins a révélé que le facteur de transcription Mlxipl est directement régulé par RFX6. Dans cette thèse, nous avons étudié le mécanisme de la régulation transcriptionnelle de Mlxipl par RFX6 ainsi que les rôles de RFX6 et MLXIPL dans les cellules bêta adultes. Nous avons démontré que RFX6 se lie au premier intron de Mlxipl qui contient un motif de liaison (xbox) critique, et nous avons identifié les cofacteurs de ce processus. En comparant l’effet de la répression de Rfx6 et Mlxipl dans des milieux riches ou faibles en glucose dans la lignée cellulaire bêta Ins-1 832/13 sur le transcriptome, nous avons déterminé les programmes génétiques contrôlés par RFX6 et MLXIPL. / Pancreatic endocrine function is critical for glucose homeostasis because pancreatic islets contain the only cells of the body, the beta cells, capable of producing and secreting insulin. The transcription factor RFX6 is maintained in all mature islet cells and is as an essential regulator of beta cell development, identity and function. In humans, RFX6 mutations cause Mitchell-Riley syndrome, a developmental disorder characterized by neonatal diabetes and malformations of the digestive tract. The search for RFX6 targets in murine islets revealed that the transcription factor Mlxipl is directly regulated by RFX6. In this thesis, we investigated the mechanism of Mlxipl transcriptional regulation by RFX6, and the respective roles of RFX6 and its downstream target MLXIPL in adult beta cells. We demonstrated that RFX6 binds to the first intron of Mlxipl that contains a critical RFX binding motif (xbox), and we identified cofactors of this process. By comparing the changes in the transcriptomes linked to the loss of RFX6 or MLXIPL in the pancreatic beta cell line Ins-1 832/13 and the glucose level, we determined the genetic programs controlled by RFX6 and MLXIPL.

Cellules bêta pancréatiques

Diabète néonatal

Régulation transcriptionnelle

Expression

Syndrome de Mitchell-Riley

RFX6

Pancreatic beta cell

Neonatal diabetes

Transcriptional regulation

Expression

Mitchell-Riley syndrom

RFX6

572.8

616.4

ALTERNATIVE SPLICING OF CYTOPLASMIC POLYADENYLATION ELEMENT BINDING PROTEIN 2 IS MODULATED VIA SERINE ARGININE SPLICING FACTOR 3 IN CANCER METASTASIS

DeLigio, James T, DeLigio, James Thomas

01 January 2018

Our laboratory delineated a role for alternative pre-mRNA splicing (AS) in triple negative breast cancer (TNBC). We found the translational regulator cytosolic polyadenylation element binding protein 2 (CPEB2) which has two isoforms, CPEB2A and CPEB2B, is alternatively spliced during acquisition of anoikis resistance (AnR) and metastasis. The splicing event which determines the CPEB2 isoform is via inclusion/ exclusion of exon four in the mature mRNA transcript. The loss of CPEB2A with a concomitant increase in CPEB2B is required for TNBC cells to metastasize in vivo. We examined RNAseq profiles of TNBC cells which had CPEB2 isoforms specifically downregulated to examine the mechanism by which CPEB2 isoforms mediate opposing effects on cancer-related phenotypes. Downregulation of the CPEB2B isoform inhibited pathways driving the epithelial-to-mesenchymal transition (EMT) and hypoxic response, whereas downregulation of the CPEB2A isoform did not have this effect. Specifically, CPEB2B functioned as a translational activator of TWIST1 and HIF1a. Functional studies showed that specific downregulation of either HIF1α or TWIST1 inhibited the ability of CPEB2B to induce AnR and drive metastasis. The mechanism governing inclusion/ exclusion of exon 4 was determined to be serine/ arginine-rich splicing factor 3 (SRSF3). Binding of SRSF3 to a consensus sequence within CPEB2 exon 4 promoted its inclusion in the mature mRNA, and mutation of this sequence abolished association of SRSF3 with exon 4. SRSF3 expression was upregulated in TNBC cells upon acquisition of AnR correlating with a reduction in the CPEB2A/B ratio. Importantly, downregulation of SRSF3 by siRNA in these cells induced the exclusion of exon 4. Downregulation of SRSF3 also reversed the CPEB2A/B ratio in a wild-type CPEB2 exon 4 minigene construct, but not a mutant CPEB2 minigene with the SRSF3 RNA cis-element ablated. Physiologic studies demonstrated SRSF3 downregulation ablated AnR in TNBC cells, and was “rescued” by ectopic expression of CPEB2B. Importantly, biostatistical analysis of The Cancer Genome Atlas database showed a positive relationship between alterations in SRSF3 expression and lower overall survival in TNBC. Overall, this study demonstrates that SRSF3 modulates CPEB2 AS to induce the expression of the CPEB2B isoform that drives TNBC phenotypes correlating with aggressive human breast cancer.

alternative pre-mRNA splicing

gene regulation

tumor progression

invasion and metastasis

cell motility and migration

breast cancer

Cancer Biology

Medical Biochemistry

Medical Molecular Biology

Molecular Genetics

Anomalies des programmes de réponse lymphocytaire après stimulation du récepteur à l’antigène dans la leucémie lymphoïde chronique / Abnormalities of lymphocyte response programs after antigen receptor stimulation in chronic lymphocytic leukemia

Schleiss, Cédric

21 December 2018

Une cellule reçoit en permanence des signaux de son environnement. Cette stimulation induit une cascade de signalisation activant un programme génique et protéomique dynamique aboutissant à une réponse cellulaire adaptée. Dans la leucémie lymphoïde chronique (LLC), la stimulation du récepteur à l’antigène induit un programme et une réponse anormale à l’origine de la prolifération leucémique. Notre objectif est de caractériser ce programme cellulaire pathologique. Pour cela, nous avons mis en place un modèle de stimulation afin de reproduire ex vivo cette stimulation du récepteur à l’antigène de cellules primaires issues de patients porteurs de LLC et d’activer ce programme cellulaire. Nous avons alors analysé la dynamique transcriptionnelle et protéomique activée dans ces cellules afin de caractériser les anomalies de ce programme. Cette étude nous a permis de mettre en évidence la spécificité de ce programme prolifératif et de caractériser les gènes clés de ce programme tumoral. Ces gènes constituent de potentielles cibles thérapeutiques innovantes. / A cell constantly receives signals from its environment. This stimulation induces a signalling cascade activating a dynamic genic and proteomic program, leading to an adapted cellular response. In chronic lymphocytic leukemia (CLL), an antigen receptor stimulation induces a program and an abnormal response behind leukemic proliferation. Our aim was to characterize the pathological cell program. To achieve this, we have implemented a stimulation model to reproduce ex vivo antigen receptor stimulation of primary cells from CLL patients and activate this cellular program. We then analyzed the transcriptional and proteomic dynamics activated in these cells in order to characterize the abnormalities of this program. This study allows us to highlight the specificity of this proliferative program and to identify key genes of tumor program. These genes constitute potential new therapeutic targets.

Leucémie Lymphoïde Chronique

Récepteur à l’antigène

Prolifération lymphocytaire

Chronic Lymphocytic Leukemia

Antigen receptor

Lymphocytic proliferation

571.96

572.8

616.99

Contrôle de la stabilité de TIMELESS par un complexe ubiquitine ligase de type Culline-3 dans l’horloge circadienne de Drosophila melanogaster / Control of TIMELESS stability by the Cul-3 ubiquitin ligase complex in the Drosophila circadian clock

Dognon, Alexandre

16 March 2011

La plupart des êtres vivants possèdent une horloge circadienne (période de 24heures). Elle leur permet notamment d’anticiper les changements quotidiens (lumière,température) imposés par la rotation de la terre et d’y adapter leur comportement et leurphysiologie. L’horloge est présente dans la plupart des cellules et repose sur deux boucles derégulation transcriptionnelle négative qui génèrent des oscillations d’ARNm des gènesd’horloge. Un délai entre l’accumulation des ARNm et celle des protéines assure lefonctionnement de la boucle de rétroaction. Ce délai est dû à des modifications posttraductionnellesdes protéines PERIOD et TIMELESS. Les oscillations protéiques sontnotamment contrôlées par leur phosphorylation, l’ubiquitination et la dégradation via leprotéasome. L’ubiquitine ligase SCFSlmb induit la dégradation circadienne de PER et de TIM.SCFJetlag contrôle la dégradation de TIM par la lumière, cette dernière intervenant dans lasynchronisation de l’oscillateur.Au cours de notre étude, nous avons identifié une nouvelle ubiquitine ligase, uncomplexe Cul-3, qui contrôle principalement la stabilité de TIM. Nos résultats indiquent queCul-3 contrôle surtout la stabilité de TIM peu phosphorylé, de façon indépendante de PER,tandis que Slmb contrôle principalement la stabilité de TIM phosphorylé. Nous proposons unmodèle dans l'oscillation de TIM régie par deux systèmes d'ubiquitination: Cul-3 pourretarder l'accumulation nocturne de la protéine, et Slmb pour précipiter sa disparition en finde nuit. / Most living organisms possess a circadian clock (24 hours period). This internal clockallows them to anticipate the daily changes (light, temperature) due to the rotation of theearth and consequently adapt their behavior and physiology. The molecular clock relies ontwo negative feedback loops that generate oscillations of the clock gene mRNA. A delaybetween the accumulation of the mRNAs and the proteins is required for the feedback loop,and is generated by post-translational modifications of PERIOD and TIMELESS. The proteinoscillations are controlled by their phosphorylation, ubiquitination and proteasomedependentdegradation. The ubiquitin ligase SCFSlmb induces the circadian degradation ofPER and TIM. SCFJetlag controls the light-dependent degradation of TIM, which is involved inthe resetting of the clock.In our study, we have identified Cul-3, as a new clock ubiquitin ligase that controlsTIM stability. Our results indicate that Cul-3 mostly controls the stability ofhypophosphorylated TIM, independently of PER, whereas SLMB controls the stability ofphosphorylated TIM. We propose a model where TIM oscillations are regulated by twoubiquitination process. Cul-3 delays the night accumulation of TIM, whereas Slmbprecipitates its degradation at the end of the night.

Horloge biologique

Rythmes d’activité-repos

Ubiquitine ligase

Phosphorylation

Boucle de régulation transcriptionnelle

Biological clock

Rest-activity rhythms,

Ubiquitin ligase

Protein phosphorylation,

Transcriptional feedback loop

Structural study of the transcriptional co-activator SAGA / Etude structurale du coactivateur transcriptionel SAGA chez la levure Saccharomyces cerevisiae

Durand, Alexandre

29 April 2014

Le complexe SAGA (Spt-Ada-Gcn5 acetyl transferase) est un co-activateur transcriptionel, conservé chez les eucaryotes, qui participent à la transcription d’environ 10% des gènes chez la levure, où il fait le lien entre les composants du complexe de pré-initiation, tel que la TATA-box Binding Protein (TBP) et des activateurs, et modifie les histones dans le contexte de la chromatine (acétylation et déubiquitination). Ces travaux de thèse ont permis de décrire l’architecture moléculaire du complexe observée par microscopie électronique. Nous avons pu (i) localiser le module de déubiquitination au sein du complexe entier et ainsi (ii) définir une zone d’interaction avec le nucléosome ; (iii) montrer la présence de deux sites d’interaction avec la protéine TBP situé au niveau d’une « pince »moléculaire ; (iv) observer un lien fonctionnel entre le module de déubiquitination, en particulier de la protéine Sgf73, et les conformations adoptées par cette pince. / The SAGA complex (Spt-Ada-Gcn5 acetyl transferase) is a transcriptional coactivator, highly conserved in eukaryotes, involved in the transcription of 10% of the genes in yeast, where it bridges the components of the pre-initiation complex such as the TATA-box Binding Protein (TBP) and activators, as well as modifies histones in the chromatin template (acetylation and deubiquitination). This work has revealed the molecular architecture of the complex observed by electron microscopy. We could (i) localize the deubiquitination module within the whole complex and thus (ii) define the interaction surface with the nucleosome; (iii) reveal the presence of two TBP-interacting surfaces localized at the tips of a molecular clamp; (iv) observe a functional link between the deubiquitination module, in particular the Sgf73 protein, and the conformation adopted by this clamp.

Transcription

Complexe de pré-initiation

Co-activateur transcriptionnel

Complexe SAGA

TBP

Modification des histones

Déubiquitination

Nucléosome

Transcription

SAGA complex

Transcriptional coactivator

Pre-initiation complex

TBP

Histones

Deubiquitination

Nucleosome

572.8

Caractérisation des fonctions génomiques de variants du récepteur des androgènes dans le cancer de la prostate / Transcriptional activities of androgen receptor variants in prostate cancer

Ould Madi-Berthelemy, Pauline

25 September 2018

Le récepteur des androgènes (RA) est la principale cible thérapeutique du cancer de la prostate (CaP) métastatique. Bien que cette thérapie soit initialement efficace, les effets sont transitoires. De nombreux mécanismes peuvent expliquer la progression du CaP vers un stade de résistance à la castration, telles les modifications du RA. Des données récentes ont montré que les variants constitutifs RA-Q641X et RA-V7, caractérisés par la perte du domaine de liaison au ligand, étaient associés à l’expression de marqueurs mésenchymateux. L’étude de la régulation de la N-cadhérine a mis en évidence que si le RA sauvage et les variants constitutifs se liaient tous deux aux éléments de réponse du gène codant, seuls les derniers étaient associés à une augmentation de l’acétylation de l’histone H4, marque positive de la transcription. Le RNA-seq a révélé que leur expression était aussi corrélée à la régulation de sets de gènes spécifiques incluant des facteurs de transcription dont certains ont déjà été caractérisés en cancérologie.En ce qui concerne le RA-T576A, porteur d’une mutation faux-sens, les données ont révélé une séquence consensus de liaison à l’ADN moins conservée pour le RA sauvage que pour ce mutant et l’importance du 11ème nucléotide des éléments de réponse. De plus, cette mutation a semblé impacter le transcriptome du RA. Ce travail met en évidence le comportement distinct des variants du RA et aide à mieux comprendre leurs modes d’action en décrivant leurs activités transcriptionnelles. / The androgen receptor (AR) is the main therapeutic target in metastatic prostate cancer (PCa). Although this therapy is initially effective, the effects are transient. Many mechanisms can explain PCa progression toward castration resistance including abnormalities in the AR. Recent data have shown that constitutive AR (e.g AR-Q641X and AR-V7), which have lost the ligand binding domain, were associated with the induction of mesenchymal marker expression. The study of N-cadherin regulation highlighted that while both constitutive AR and wild type AR bound to response elements located in the encoding gene, only the AR variants were associated with an increase of H4 acetylation, a positive transcription mark. RNA-seq revealed that their expression was also correlated to specific sets of genes regulation, including transcription factors and genes involved in migration, AR regulation, and therapeutic resistance.Concerning AR-T576A, which hold a missense mutation, data revealed a less conserved consensus sequence for the wild type AR than for this mutant and highlighted the importance of the 11th nucleotide of the response element for AR recruitment to DNA. Plus, this mutation seemed to impair AR transcriptome. This work highlights the distinct AR variants’ behavior and helps to understand their mode of action by depicting their transcriptional landscapes.

Cancer de la prostate

Variants du récepteur des androgènes

N-cadhérine

Activité transcriptionnelle

Liaison à l’ADN

Prostate cancer

Androgen receptor variants

N-cadherin

Transcriptional landscape

DNA binding

572.8

616.99

Origine et évolution des récepteurs nucléaires et étude structurale du premier stéroïdien, ERR / Origin and evolution of nuclear receptors and structural study of the first steroid, ERR

Beinsteiner, Brice

16 October 2018

Les récepteurs nucléaires (RNs) sont des facteurs de transcriptions se liant à des séquences spécifiques d'ADN et activant la transcription de gènes en réponse à la fixation de ligands spécifiques. Parmi tous les RNs impliquées dans l'étiologie des cancers, les récepteurs liés aux œstrogènes ERR jouent un rôle important dans les cancers du sein, de l'ovaire, du colon, de l’endomètre et la prostate. Ce RN est dit orphelin car il ne possède pas de ligand naturel connu à ce jour. Par une approche de biologie structurale intégrative combinant cryo-microscopie électronique, bioinformatique et évolution, mon travail de thèse s'est focalisé sur l'étude structurale de ERR et sur l'origine et l'évolution des RNs. Dans ce contexte, 3 outils informatiques ont été développés. Les résultats obtenus ont permis d'une part la révision des connaissances fondamentales sur l'origine des récepteurs nucléaires et leur évolution. D'autre part, l'étude structurale de ERR a permis d'acquérir de nouvelles données sur la topologie des récepteurs nucléaires stéroidiens fixés sur un élément de réponse ERRE/ERE ainsi que sur le mécanisme allostérique de la liaison du coactivateur PGC-1α sur le dimère de ERR. La résolution du complexe à l'échelle atomique par cryo-microscopie électronique permettra d'ouvrir la voie vers la conception de nouvelles molécules thérapeutiques. / Nuclear receptors (NRs) are transcription factors which bind to specific DNA sequences and activate gene transcription in response to the binding of specific ligands. Among all of the RNs involved in the etiology of cancers, ERR estrogen receptors play an important role in breast, ovarian, colon, endometrial and prostate cancers. This NR is said to be orphan because it does not have a natural ligand known to date. Using an integrative structural biology approach combining cryo-electron microscopy, bioinformatics and evolution, my PhD work focused on the structural study of ERR and the origin and evolution of RNs. In this context, three informatic tools have been developed. The results obtained allowed, on the one hand, the revision of fundamental knowledge on the origin of nuclear receptors and their evolution. On the other hand, structural study of ERR allow us to acquire new data on topology of steroid nuclear receptors fixed on an element of ERRE / ERE response as well as on the allosteric mechanism of the binding of the coactivator PGC-1α on the dimer of ERR. The resolution of the complex at the atomic scale by cryo-electron microscopy will open the way towards the design of new therapeutic molecules.

ERR

Récepteur nucléaire

Régulation transcriptionnelle

Biologie structurale

Cryo-microscopie électronique

Bioinformatique

Evolution

ERR

Nuclear receptor

Transcriptional regulation

Structural biology

Cryo-electron microscopy

Bioinformatics

Evolution

572.8