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COUP-TFI est nécessaire dans la différentiation et la migration des granules du gyrus denté / COUP-TFI is required in the differentiation and migration of granule cells in the developing dentate gyrusParisot, Joséphine 23 November 2015 (has links)
L’hippocampe est un composant majeur du cerveau des mammifères et joue d'importants rôles dans la mémoire, l’apprentissage et la navigation spatiale. Il comprend deux régions distinctes: les champs ammoniens et le gyrus denté (DG). Pendant ma thèse, je me suis intéressée au facteur de transcription COUP- TFI, jouant des rôles clefs dans la spécification et migration neocorticale. Peu de choses sont connues sur son rôle dans l’hippocampe. COUP-TFI y est exprimé en gradient dans les progéniteurs et dans les neurones différentiés, et est fortement localisé dans le neuroépithelium du DG. Le but de ma thèse était de déchiffrer le rôle de COUP-TFI dans le développement de l’hippocampe, au cours de la différentiation et migration des granules, population principale du DG. À l’aide de lignées de souris dans lesquelles COUP-TFI est soit inactivé dans les progéniteurs soit seulement dans les cellules différentiées, j’ai montré que l’absence de COUP-TFI induit différents degrés d’altérations. En l’absence de COUPTFI dans les progéniteurs, les précurseurs du DG se différentient précocement, ont une prolifération réduite et leur migration est altérée. De plus, les afférences du cortex n’innervent pas le DG septal et l’apoptose y est accrue. Le DG en résulte fortement réduit chez adulte, particulièrement dans la région septal. La perte de COUP-TFI dans les cellules différentiées n’entraine que des anomalies mineures et transitoires. Ainsi, mes résultats indiquent que COUP-TFI régule la différentiation et migration des granules, particulièrement au niveau des progéniteurs, et propose COUP-TFI comme un nouveau facteur requis dans le développement et le fonctionnement de l’hippocampe. / The hippocampus is a major component of the mammalian brain and plays important roles in memory, learning, and spatial navigation. It comprises two distinct regions: the hippocampus proper and the dentate gyrus (DG). During my thesis, I have challenged the role of the strong transcriptional regulator COUP-TFI, playing key roles during neocortical specification and migration. Yet, little is known about its involvement in the hippocampus. COUP-TFI is expressed in a gradient fashion in both proliferating progenitors and differentiated neurons in the hippocampus, and is highly localized in the DG neuroepithelium. The aim of my thesis was thus to decipher the role of COUP-TFI in the developing hippocampus, and specifically in cell differentiation and migration of granule cells, the major DG cell population. Using two mutant mouse lines, in which COUP-TFI is either ablated in progenitors, or solely in post-mitotic cells, I have shown that absence of COUP-TFI induces different degrees of growth impairments. In the absence of COUP-TFI in progenitors, DG precursors tend to differentiate precociously, exhibit reduced proliferation and granule cells migration is impaired. Postnatally, inputs from the cortex fail to innervate the septal DG and apoptosis is abnormally increased. The DG results strongly reduced in adult, particularly in the septal region. Loss of COUP-TFI in differentiated cells leads only to minor and transient defects. Together, my results indicate that COUP-TFI is involved in regulating granule cell differentiation and migration predominantly in progenitors, and propose COUPTFI as a novel transcriptional regulator required in hippocampal development and functions.
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THE ROLE OF COUP-TFI DURING RETINOIC ACID INDUCED ENDODERMAL DIFFERENTIATION OF P19 CELLSPickens, Brandy S January 2012 (has links)
ABSTRACT Retinoic acid (RA) is a positive regulator of P19 EC cell differentiation. Pre-B cell leukemia transcription factors (PBXs) act in conjunction with homeobox genes during cell differentiation. PBX mRNA and protein levels are increased rapidly in P19 cells during RA-induced differentiation. However, silencing of PBX expression in P19 cells (AS cells) results in a failure of these cells to differentiate upon RA treatment. Chicken Ovalbumin Upstream Promoter Transcription Factor I (COUP-TFI) and Chicken Ovalbumin Upstream Promoter Transcription Factor II (COUP-TFII) are orphan members of the steroid-thyroid hormone superfamily. The mRNA and protein levels of both COUP-TFI and COUP-TFII are low in proliferating wild type P19 EC cells. However, when wild type P19 cells are induced to differentiate upon RA treatment, COUP-TFI and COUP-TFII mRNA and protein levels are dramatically increased while the levels of pluripotency associated gene products are strikingly reduced. Conversely, COUP-TFI and COUP-TFII mRNA levels fail to be elevated upon RA treatment in PBX AS P19 EC cells. Therefore it was hypothesized that COUP-TFs may be downstream targets of PBX and required factors mediating the RA-dependent differentiation cascade in P19 cells. To determine the role of COUP-TFI during differentiation of P19 cells, PBX AS cells that inducibly express V5 tagged COUP-TFI using the Tet-Off® Advanced Inducible Gene Expression system were prepared. Using this system, we demonstrate that exogenous COUP-TFI expression, in a dose-dependent fashion, leads to growth inhibition, modest cell cycle disruption and early apoptosis. Furthermore, using this cell model which inherently is incapable of undergoing RA-mediated differentiation due to blockage of PBX induction, we demonstrate that a supraphysiological level of COUP-TFI expression can overcome the blockage of RA-dependent differentiation in PBX AS cells. However, AS cells expressing a physiological level of COUP-TFI differentiate to endodermal cells only upon treatment with RA. Additionally, gene expression studies indicate that the reductions of pluripotency maintenance genes observed in the COUP-TFI expressing cells are similar to that of wild type P19 cells (upon RA treatment) suggesting that COUP-TFI expression is a driving force towards loss of pluripotency. Moreover, gene expression studies indicate COUP-TFI is involved in the regulatory modulation of at least two RA response genes, CYP26A1 and HoxA1, indicating that COUP-TFI may have some effect on either maintaining or reducing these genes expression levels when COUP-TFI becomes expressed. COUP-TFII is expressed as two distinct variants, Variant 1(V1) and Variant 2 (V2). V1 is the variant that functions as a classical nuclear receptor by binding target DNA sequences and affecting gene transcription whereas V2 is a truncated form of V1 lacking the ability to bind DNA. We therefore hypothesized that V2 could serve as a dominant negative receptor by limiting the amount of functional V1 in the cell. Unexpectedly, we found using P19 cells that overexpress V2 that RA-mediated differentiation proceeded normally suggesting V2 does not function as a dominant negative repressor. Taken together, these studies demonstrate for the first time (i) that COUP-TFI functions as a physiologically relevant regulator during RA-mediated endodermal differentiation of P19 cells and (ii) COUP-TFII V2 is endogenously expressed in P19 cells; however its role during RA-mediated differentiation remains unclear. / Biochemistry
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Identificação e seleção de novos genes humanos associados a tumores a partir de dados obtidos no projeto Transcript Finishing Initiative (TFI) / Identification and selection of new human genes associated with tumors from the Transcript Finishing Initiative (TFI) Project data.Cruz, Luciana Oliveira 05 October 2007 (has links)
Após o seqüenciamento completo do genoma humano, a busca e caracterização do conjunto completo de genes humanos constitui-se no principal desafio nesta área de investigação, sendo o passo limitante para o progresso na exploração dos dados contidos no seqüenciamento deste genoma. O projeto de transcriptoma denominado \"Transcript Finishing Initiative\" (TFI) surgiu neste contexto, com o objetivo principal de gerar fragmentos parciais de transcritos humanos, que não haviam sido descritos previamente e determinar sua seqüência, para iniciar a caracterização de novos genes humanos. A estratégia utilizada foi q alinhamento de todas as seqüências ORESTES e ESTs disponíveis com a seqüência pública do genoma humano e o agrupamento j c1usterização destas com base nas coordenadas deste genoma. Algumas das regiões que não eram cobertas por estas seqüências foram, então, completadas, por RT-PCR, utilizando-se primers ancorados nos clusters vizinhos. Cada par de clusters de ESTs selecionado para validação experimental foi designado como uma Unidade do \"Transcript Finishing\" (TFU), tendo sido validadas experimentalmente, pelo grupo TFI, Um total de 211 TFUs foram validadas, sendo que 197 seqüências consenso foram submetidas ao Genbank (CF272536-CF272733). Atualmente, apenas um pequeno número destas seqüências ainda são considerados genes novos, sem que haja um cDNA depositado em banco de dados; contudo para um número considerável destas TFUs não existe qualquer caracterização sobre sua função. Na tentativa de contribuir para melhor caracterização dos genes identificados no projeto TFI, e tendo, como base, a linha de pesquisa do laboratório, que busca genes diferencialmente expressos envolvidos em transformação maligna/tumorigênese, o presente trabalho propôs a utilização das seqüências TFUs para estudar sua possível associação com tumores de glia humanos e outros tipos de tumores (de próstata e de mama). Para tanto, as TFUs foram analisadas \"in silico\" para estabelecer seu grau de ineditismo como um novo gene ou um gene sem função conhecida, e, para análise de sua expressão diferencial entre tecidos normais e tumorais de cérebro, próstata e mama. Para validar estas análises computacionais na bancada, foram gerados macro- e microarranjos de DNA utilizando-se as TFUs disponíveis como clones físicos ou amplicons, para o rastreamento com sondas das linhagens celulares A172 e T98G de glioblastomas. Os resultados das análises destes dados foram confirmados por PCR quantitativo tanto nas linhagens como em amostras clínicas de astrocitomas que apresentam diversos graus de malignidade. Como resultado, foi possível organizar um Banco de Clones Físicos de TFUs, além de identificar e selecionar uma TFU (168), cuja expressão correlaciona diretamente com o grau de malignidade dos tumores de glia. Esta seqüência corresponde a um novo gene, já que não existe a seqüência de cDNA completo nos bancos de dados. Em vista disto, a TFU168 foi selecionada para estudos funcionais posteriores, que já estão em andamento, através da obtenção de suaseqüência completa de cDNA para ensaios de superexpressão e do silenciamento gênico através de RNAi. / Upon complete sequencing of the human genome, identification and characterization of the complete set of human genes constitutes the major challenge in this research field, constituting the limiting step for progress in exploration of the informations contained in the genome sequencing data. The Transcript Finishing Initiative (TFI) transcriptome project arose in this context, aiming at the generation, sequencing and characterization of partial new human transcripts and genes. The strategy adopted was the alignment of the alI the available ORESTES and EST sequences data with the public human genome sequence and their clusterization based on the coordinates of this genome. Thus, some of the regions which were not cover by ESTs and ORESTES (gaps) were then completed by RT-PCR using primers anchored in the neighboring clusters. Each pair of EST clusters selected for experimental validation was named Transcript Finishing Unit (TFU). A large number (211) of TFU s were validated and 197 -consensus sequences were submitted to the Genbank (CF272536-CF272733). At present, only a few of these sequences are considered as new genes without a full-Iength cDNA sequence deposited in the data bank, however, no functional characterization is yet available for a large number of these sequences. In an attempt to contribute to further characterization of these genes identified in the TFI project and keeping in mind the main interest of our laboratory, which is the identification of differentially expressed genes in tumor versus normal tissue, the present work aims at utilizing these TFUs to find differentially expressed genes associated with human glial tumors and with other kinds of tumors. To this end, these sequences were first subjected to in silico analysis in order to establish their degree of ineditism (new sequences and/or sequences with unknown function) and their expression profile between normal and tumoral tissues of brain, mammary gland and prostate. To validate this computational analysis, DNA macro- and microarrays were generated with the TFU sequences and screened with cDNA probes obtained from the A172 and T98G glioblastomas cell lines. The results of these screenings were confirmed by quantitative PCR both in cell lines and in tumor samples of different degrees of malignancy. The results obtained in this work allowed the organization of a TFUs Physical Clones Bank and the identification and selection of one sequence (TFU 168), whose expression is directly re1ated to the degree of tumor malignancy. This sequence constitutes a new gene, since no complete cDNA sequence is available in the data banks. Therefore, TFU168 was selected for further functional studies by obtaining its full-Iength cDNA sequence to be used for over expression by silencing this gene using RNAi.
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Le récepteur nucléaire orphelin COUP-TFI contrôle l’identité sensorielle et l'activité neuronale dans les cellules post-mitotiques du néocortex chez la souris / The orphan nuclear receptor COUP-TFI controls sensory identity and neuronal activity in post-mitotic cells of the mouse neocortexMagrinelli, Elia 13 July 2016 (has links)
Le néocortex est une région du cerveau qui traite toutes les entrées sensorielles et créé des réponses comportementales. Il est subdivisé en zones fonctionnelles, chacune ayant une cytoarchitecture, un motif d’expression génique et un profil de connectivité spécifiques. L'organisation en zones est pré-modelée par des gènes organisateurs, et ensuite affinée par l’activité sensorielle. Dans cette étude, j'ai étudié d'abord si ce pré-modelage est établi dans les progéniteurs et/ou les cellules post-mitotiques, et si l'activité neuronale spontanée est nécessaire pour l’établissement de la connectivité correcte entre néocortex et thalamus, station relais principale des données sensorielles. Avec l'aide d'une série de souris transgéniques, j’ai montré que la fonction du gène organisateur COUP-TFI est suffisante et nécessaire pour organiser l'identité sensorielle dans les cellules post-mitotiques, et que COUP-TFI régule l'activité intrinsèque des neurones corticaux, influençant la bonne intégration des entrées thalamiques dans le cortex somatosensoriel. J’ai montré que COUP-TFI contrôle directement l'expression du gène Egr1, qui dépend fortement de l'activité neuronale. COUP-TFI et Egr1 agissent sur l'acquisition de la morphologie des cellules étoilées dans les neurones de la couche 4, cibles principales des axones thalamiques et trait typique des zones somatosensoriels primaires. En conclusion, ce travail montre que le pré-modelage cortical dépend primordialement d’un programme génétique établi dans les cellules post-mitotiques et que l'activité intrinsèque et les propriétés génétiques agissent ensemble pour façonner l'organisation des premiers circuits dans le néocortex. / The neocortex is a region of the brain that processes all sensory inputs creating appropriate behavioral responses. It is subdivided into functional areas, each with a specific cytoarchitecture, gene expression pattern and connectivity profile. The organization into areas is pre-patterned by the action of areal patterning genes, and subsequently refined by sensory evoked activity. In this study, I have first investigated whether early areal patterning is committed in progenitor and/or post-mitotic cells, and then assessed whether spontaneous neuronal activity is required in establishing correct connectivity between the neocortex and the thalamus, the principal relay station of peripheral sensory inputs. With the help of a series of transgenic mice, my work showed that the function of the areal patterning gene COUP-TFI is sufficient and necessary to organize sensory identity in post-mitotic cells, and that COUP-TFI regulates intrinsic activity properties of cortical neurons, and thus proper integration of thalamic inputs into the somatosensory cortex. In particular, I found that COUP-TFI directly controls the expression of the immediate early gene Egr1, which expression levels strongly depend on neuronal activity. Both COUP-TFI and Egr1 act on the acquisition of the stellate cell morphology of layer 4 neurons, the main targets of thalamic axons and a typical trait of primary somatosensory areas. In conclusion, this work demonstrates that cortical area patterning primordially depends on a genetic program established in post-mitotic cells and that intrinsic genetic and activity properties act together to shape the organization of early circuits in the neocortex.
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Etude, applications et améliorations de la technique LVI sur les défauts rencontrés dans les technologies CMOS avancées 45nm et inférieur. / Study, applications and improvements of the LVI technique on the advanced CMOS technologies 45nm and below.Celi, Guillaume 26 March 2013 (has links)
L'analyse de défaillances joue un rôle important dans l'amélioration des performances et de la fabrication des circuits intégrés. Des défaillances peuvent intervenir à tout moment dans la chaîne d'un produit, que ce soit au niveau conception, durant la qualification du produit, lors de la production, ou encore lors de son utilisation. Il est donc important d'étudier ces défauts dans le but d'améliorer la fiabilité des produits. De plus, avec l'augmentation de la densité et de la complexité des puces, il est de plus en plus difficile de localiser les défauts, et ce malgré l'amélioration des techniques d'analyses. Ce travail de thèse s'inscrit dans ce contexte et vise à étudier et développer une nouvelle technique d'analyse de défaillance basée sur l'étude de l'onde laser réfléchie le "Laser Voltage Imaging" (LVI) pour l'analyse de défaillance des technologies ultimes (inférieur à 45nm). / The Failure analysis plays an important role in the improvement of the performances and themanufacturing of integrated circuits. Defects can be present at any time in the product chain,during the conception (design), during the qualification, during the production, or still duringits use. It is important to study these defects in order to improve the reliability of the products.Furthermore, with the density increasing and the complexity of the chips, it is harder andharder to localize the defects. This thesis work consists to develop a new failure analysis technique based on the study of thereflected laser beam the "Laser Voltage Imaging" LVI, for the ultimate technologies (below45nm).
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Identificação e seleção de novos genes humanos associados a tumores a partir de dados obtidos no projeto Transcript Finishing Initiative (TFI) / Identification and selection of new human genes associated with tumors from the Transcript Finishing Initiative (TFI) Project data.Luciana Oliveira Cruz 05 October 2007 (has links)
Após o seqüenciamento completo do genoma humano, a busca e caracterização do conjunto completo de genes humanos constitui-se no principal desafio nesta área de investigação, sendo o passo limitante para o progresso na exploração dos dados contidos no seqüenciamento deste genoma. O projeto de transcriptoma denominado \"Transcript Finishing Initiative\" (TFI) surgiu neste contexto, com o objetivo principal de gerar fragmentos parciais de transcritos humanos, que não haviam sido descritos previamente e determinar sua seqüência, para iniciar a caracterização de novos genes humanos. A estratégia utilizada foi q alinhamento de todas as seqüências ORESTES e ESTs disponíveis com a seqüência pública do genoma humano e o agrupamento j c1usterização destas com base nas coordenadas deste genoma. Algumas das regiões que não eram cobertas por estas seqüências foram, então, completadas, por RT-PCR, utilizando-se primers ancorados nos clusters vizinhos. Cada par de clusters de ESTs selecionado para validação experimental foi designado como uma Unidade do \"Transcript Finishing\" (TFU), tendo sido validadas experimentalmente, pelo grupo TFI, Um total de 211 TFUs foram validadas, sendo que 197 seqüências consenso foram submetidas ao Genbank (CF272536-CF272733). Atualmente, apenas um pequeno número destas seqüências ainda são considerados genes novos, sem que haja um cDNA depositado em banco de dados; contudo para um número considerável destas TFUs não existe qualquer caracterização sobre sua função. Na tentativa de contribuir para melhor caracterização dos genes identificados no projeto TFI, e tendo, como base, a linha de pesquisa do laboratório, que busca genes diferencialmente expressos envolvidos em transformação maligna/tumorigênese, o presente trabalho propôs a utilização das seqüências TFUs para estudar sua possível associação com tumores de glia humanos e outros tipos de tumores (de próstata e de mama). Para tanto, as TFUs foram analisadas \"in silico\" para estabelecer seu grau de ineditismo como um novo gene ou um gene sem função conhecida, e, para análise de sua expressão diferencial entre tecidos normais e tumorais de cérebro, próstata e mama. Para validar estas análises computacionais na bancada, foram gerados macro- e microarranjos de DNA utilizando-se as TFUs disponíveis como clones físicos ou amplicons, para o rastreamento com sondas das linhagens celulares A172 e T98G de glioblastomas. Os resultados das análises destes dados foram confirmados por PCR quantitativo tanto nas linhagens como em amostras clínicas de astrocitomas que apresentam diversos graus de malignidade. Como resultado, foi possível organizar um Banco de Clones Físicos de TFUs, além de identificar e selecionar uma TFU (168), cuja expressão correlaciona diretamente com o grau de malignidade dos tumores de glia. Esta seqüência corresponde a um novo gene, já que não existe a seqüência de cDNA completo nos bancos de dados. Em vista disto, a TFU168 foi selecionada para estudos funcionais posteriores, que já estão em andamento, através da obtenção de suaseqüência completa de cDNA para ensaios de superexpressão e do silenciamento gênico através de RNAi. / Upon complete sequencing of the human genome, identification and characterization of the complete set of human genes constitutes the major challenge in this research field, constituting the limiting step for progress in exploration of the informations contained in the genome sequencing data. The Transcript Finishing Initiative (TFI) transcriptome project arose in this context, aiming at the generation, sequencing and characterization of partial new human transcripts and genes. The strategy adopted was the alignment of the alI the available ORESTES and EST sequences data with the public human genome sequence and their clusterization based on the coordinates of this genome. Thus, some of the regions which were not cover by ESTs and ORESTES (gaps) were then completed by RT-PCR using primers anchored in the neighboring clusters. Each pair of EST clusters selected for experimental validation was named Transcript Finishing Unit (TFU). A large number (211) of TFU s were validated and 197 -consensus sequences were submitted to the Genbank (CF272536-CF272733). At present, only a few of these sequences are considered as new genes without a full-Iength cDNA sequence deposited in the data bank, however, no functional characterization is yet available for a large number of these sequences. In an attempt to contribute to further characterization of these genes identified in the TFI project and keeping in mind the main interest of our laboratory, which is the identification of differentially expressed genes in tumor versus normal tissue, the present work aims at utilizing these TFUs to find differentially expressed genes associated with human glial tumors and with other kinds of tumors. To this end, these sequences were first subjected to in silico analysis in order to establish their degree of ineditism (new sequences and/or sequences with unknown function) and their expression profile between normal and tumoral tissues of brain, mammary gland and prostate. To validate this computational analysis, DNA macro- and microarrays were generated with the TFU sequences and screened with cDNA probes obtained from the A172 and T98G glioblastomas cell lines. The results of these screenings were confirmed by quantitative PCR both in cell lines and in tumor samples of different degrees of malignancy. The results obtained in this work allowed the organization of a TFUs Physical Clones Bank and the identification and selection of one sequence (TFU 168), whose expression is directly re1ated to the degree of tumor malignancy. This sequence constitutes a new gene, since no complete cDNA sequence is available in the data banks. Therefore, TFU168 was selected for further functional studies by obtaining its full-Iength cDNA sequence to be used for over expression by silencing this gene using RNAi.
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ATRA inhibits ceramide kinase transcription through an ATRA-related transcription factor, COUP-TFI, in a human neuroblastoma cell line, SH-SY5YMURAKAMI, Masashi, 村上, 真史 25 March 2010 (has links)
名古屋大学博士学位論文 学位の種類:博士(医療技術学) (課程) 学位授与年月日 平成22年3月25日
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The States System under GlobalizationsLee, Puw 18 February 2003 (has links)
What does the global situation look like after the end of Cold War? To the scholars on the international politics, what they put focus on is the establishment of global order and the configuration of the international society. Compared with the situation during the Cold War era, the changes of political conflicts, development of technology and the nature of human culture have been getting intense and frequent in the past ten years.
The main trend of international relationship is the move toward global integration, and that gradually replaces the notion of putting the nation on the center of issues. The importance of transnational units and un-military forces is getting more impressive and powerful. As a result, besides nations, many non-nation units gradually occupy the global stage. The words like non-governmental organizations, transnational corporations and transnational financial institution all become popular in the post- Cold War era as well. That the occurrence of these non-nations stands for the collapse of the boundary of nations has caused impact on the international system consisting of sovereign nations, and the result the impact might cause is the main issue of global change and globalization.
What foreseeable is that nations aren¡¦t the sole unit of global politics anymore. The activities of international non-governmental organizations have gradually affected the foreign policy-making of these nations; the expansion of transnational corporations has also directly influenced the change of global economy. Meanwhile, with the move of capitals these transnational corporations need, the role played by the global financial institution deserves more attention. In this dissertation, the words, globalization and globalism, will be properly defined and reviewed. Then, on the basis of understanding the birth of sovereignty and nations, I will discuss the operational rules and the essential parts of nations. Finally, what impact the nations will face in the process of globalization will be analyzed
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Caracterização de dois pares efetor/inibidor associados ao sistema de secreção tipo IV de Xanthomonas citri / Characterization of the two effector/inhibitor pair associated with the type IV secretion system of Xanthomonas citriBueno, Natalia Fernanda 15 June 2018 (has links)
O sistema de secreção tipo IV (T4SS) da família de bactérias Xanthomonadaceae transfere efetores (X-Tfes) com a capacidade de matar outras bactérias, conferindo uma vantagem em comunidades bacterianas mistas para colonizar diferentes nichos como o solo ou as superfícies das plantas. Os X-Tfes possuem diferentes domínios putativos com atividades hidrolíticas contra componentes do envelope celular bacteriano do tipo: glicohidrolases, transglicosilases, amidases e lipases. Os X-Tfes por sua atividade biológica inata podem ocasionar dano intracelular para a bactéria que os produz. Para se proteger contra estas atividades, também são produzidas lipoproteínas com função inibitoria (X-Tfis) localizadas no periplasma. Os genes que codificam os X-Tfes e os X-Tfis estão organizados em operons, o que permite gerar os pares efetor/inibidor simultaneamente. Entre os potenciais X-Tfes do fitopatógeno Xanthomonas citri estão Xac1918 e Xac0574. Xac1918 é uma proteína com um domínio da superfamília da lisozima e um domínio conhecido como RTX (Repeats in Toxin) de ligação ao cálcio, enquanto Xac0574 tem um domínio da superfamília da lipase 3. Os seus possíveis inibidores, Xac1917 e Xac0573 respectivamente, apresentam um peptídeo sinal no N-terminal contendo o lipobox representativo das lipoproteínas. As proteínas Xac0574 e Xac0573 são monômeros em solução que formam um complexo estável 1:1, favorecido termodinamicamente (ΔG°= -12 Kcal/mol) com uma constante de dissociação de 2,45 nM, garantindo que a bactéria fique protegida contra os efeitos nocivos de Xac0574 quando é produzida intracelularmente. Xac0574 é uma fosfolipase A1, sem atividade lisofosfolipase, com a capacidade de hidrolisar os três fosfolipídios majoritários que compõem a membrana celular bacteriana, fosfatidilglicerol (PG), cardiolipina e fosfatidiletanolamina (PE), mostrando uma aparente preferência pelo último. A atividade enzimática de Xac0574 explica a forte inibição do crescimento celular em E. coli após da sua indução heteróloga, já que gera uma diminuição de quase 10 vezes da população celular comparada com a cultura não induzida com a mesma construção. Poroutro lado, Xac0573 inibe efetivamente a atividade enzimática de Xac0574 ao formar o complexo, além de não ter atividade fosfolipase nem lisofosfolipase. Foram produzidos cristais da Xac1918 e Xac0573 que difrataram com uma resolução de 3,0 e 2,5 Å, respectivamente. Porém, só foi gerado um modelo de Xac0573. Xac0573 está composta por duas folhas β antiparalelas com uma topologia característica de β sanduíche Com uma pequena hélice e duas voltas. Um alinhamento de homólogos de Xac0573 identificou nas extremidades da proteína as regiões conservadas, constituindo duas possíveis interfaces de interação que podem ser as responsáveis por bloquear o acesso dos fosfolipídios ao sítio catalítico ou impedir os rearranjos estruturais de Xac0574 que são necessários para a sua atividade enzimática. Adicionalmente, a topologia da Xac0573 é semelhante do domínio C2, conhecido em eucariotos como domínio de ligação ao lipídio e ao cálcio, e está envolvido em processos de sinalização de segundos mensageiros lipídicos, proteínas de trafego de membranas e mecanismos de fusão de membranas. Nossos resultados apontam para uma nova função biológica do domínio C2 como um inibidor enzimático intracelular em bactérias. / The type IV secretion system (T4SS) of the bacteria family Xanthomonadaceae transfers effectors (X-Tfes) with that can kill other bacterial cells, conferring an advantage to the bacterial community during colonization of different niches in the soil or on the plant surface. The X-Tfes possess different putative domains with hydrolytic activity against components of the bacterial cellular envelope, including glycohydrolase, transglycolase, amidase and lipase domain. The innate biological activity of X-Tfes can cause intracellular damage. Therefore, the bacteria that produce them also produce lipoproteins with inhibitor function (X-Tfis) located in the periplasm for their protection. The genes that code for X-Tfes and X-Tfis are organized in operons that allow for their simultaneous expression. Among the X-Tfes of the phytopathogen Xanthomonas citri are Xac1918 and Xac0574. Xac1918 is carries a lysozyme superfamily domain, as well as a domain known as RTX (Repeats in Toxic) predict to bind calcium, while, Xac0574 has a domain belonging to the lipase 3 superfamily. Their possible inhibitors, Xac1917 e Xac0573 respectively, carry an N-terminal signal peptide containing a lipobox found in bacterial lipoproteins. The Xac0574 and Xac0573 proteins are both monomers in solution, They can form a stable 1:1 complex, that is thermodynamically favored (ΔG°= -12 Kcal/mol) with a dissociation constant of 2,45 nM. This affinity ensure that the bacterium is protected against the harmful effects of Xac0574 when it is produced intracellularly. We show that Xac0574 is a phospholipase A1, without lisophospholipase activity, and is able to hydrolyze the three most common phospholipids found in the membranes of Gram negative bacteria, namely phosphatidylglycerol (PG), cardiolipin and phosphatidylethanolamine (PE), presenting an apparent preference for PE. The enzymatic activity of Xac0574 explains the strong inhibition of growth of E. coli cells after its heterologous induction: a nearly 10-fold decrease in the cell population is observed when compared to the non-induced culture with the same construct. On the other hand, Xac0573 effectively inhibits the enzymatic activity of Xac0574. Furthermore, Xac0573 does not possess when forming the complex, besides not having phospholipase nor lysophospholipase activity.Crystals of Xac1918 and Xac0573 were produced which diffracted with to resolution of 3.0 and 2.5 Å, respectively. However, we were able to resolve the structure of only Xac0573. Xac0573 is composed of two anti-parallel sheet that form a β-sandwich with three small helices. An alignment to Xac0573 homologs identified conserved regions at the ends of the protein that constitute two possible interfaces of interaction that may be responsible for blocking the access of the phospholipids to the catalytic site or impede the structural rearrangements of Xac0574 that are necessary for its enzymatic activity. Additionally, the topology of Xac0573 is similar to that to C2 domains, known in eukaryotes to bind lipids and calcium and to be involved in signaling processes mediated by lipid second messengers, membrane trafficking and membrane fusion mechanisms. Our results point to a new biological function of the C2 domain as an intracellular enzyme inhibitor in bacteria.
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Caracterização de dois pares efetor/inibidor associados ao sistema de secreção tipo IV de Xanthomonas citri / Characterization of the two effector/inhibitor pair associated with the type IV secretion system of Xanthomonas citriNatalia Fernanda Bueno 15 June 2018 (has links)
O sistema de secreção tipo IV (T4SS) da família de bactérias Xanthomonadaceae transfere efetores (X-Tfes) com a capacidade de matar outras bactérias, conferindo uma vantagem em comunidades bacterianas mistas para colonizar diferentes nichos como o solo ou as superfícies das plantas. Os X-Tfes possuem diferentes domínios putativos com atividades hidrolíticas contra componentes do envelope celular bacteriano do tipo: glicohidrolases, transglicosilases, amidases e lipases. Os X-Tfes por sua atividade biológica inata podem ocasionar dano intracelular para a bactéria que os produz. Para se proteger contra estas atividades, também são produzidas lipoproteínas com função inibitoria (X-Tfis) localizadas no periplasma. Os genes que codificam os X-Tfes e os X-Tfis estão organizados em operons, o que permite gerar os pares efetor/inibidor simultaneamente. Entre os potenciais X-Tfes do fitopatógeno Xanthomonas citri estão Xac1918 e Xac0574. Xac1918 é uma proteína com um domínio da superfamília da lisozima e um domínio conhecido como RTX (Repeats in Toxin) de ligação ao cálcio, enquanto Xac0574 tem um domínio da superfamília da lipase 3. Os seus possíveis inibidores, Xac1917 e Xac0573 respectivamente, apresentam um peptídeo sinal no N-terminal contendo o lipobox representativo das lipoproteínas. As proteínas Xac0574 e Xac0573 são monômeros em solução que formam um complexo estável 1:1, favorecido termodinamicamente (ΔG°= -12 Kcal/mol) com uma constante de dissociação de 2,45 nM, garantindo que a bactéria fique protegida contra os efeitos nocivos de Xac0574 quando é produzida intracelularmente. Xac0574 é uma fosfolipase A1, sem atividade lisofosfolipase, com a capacidade de hidrolisar os três fosfolipídios majoritários que compõem a membrana celular bacteriana, fosfatidilglicerol (PG), cardiolipina e fosfatidiletanolamina (PE), mostrando uma aparente preferência pelo último. A atividade enzimática de Xac0574 explica a forte inibição do crescimento celular em E. coli após da sua indução heteróloga, já que gera uma diminuição de quase 10 vezes da população celular comparada com a cultura não induzida com a mesma construção. Poroutro lado, Xac0573 inibe efetivamente a atividade enzimática de Xac0574 ao formar o complexo, além de não ter atividade fosfolipase nem lisofosfolipase. Foram produzidos cristais da Xac1918 e Xac0573 que difrataram com uma resolução de 3,0 e 2,5 Å, respectivamente. Porém, só foi gerado um modelo de Xac0573. Xac0573 está composta por duas folhas β antiparalelas com uma topologia característica de β sanduíche Com uma pequena hélice e duas voltas. Um alinhamento de homólogos de Xac0573 identificou nas extremidades da proteína as regiões conservadas, constituindo duas possíveis interfaces de interação que podem ser as responsáveis por bloquear o acesso dos fosfolipídios ao sítio catalítico ou impedir os rearranjos estruturais de Xac0574 que são necessários para a sua atividade enzimática. Adicionalmente, a topologia da Xac0573 é semelhante do domínio C2, conhecido em eucariotos como domínio de ligação ao lipídio e ao cálcio, e está envolvido em processos de sinalização de segundos mensageiros lipídicos, proteínas de trafego de membranas e mecanismos de fusão de membranas. Nossos resultados apontam para uma nova função biológica do domínio C2 como um inibidor enzimático intracelular em bactérias. / The type IV secretion system (T4SS) of the bacteria family Xanthomonadaceae transfers effectors (X-Tfes) with that can kill other bacterial cells, conferring an advantage to the bacterial community during colonization of different niches in the soil or on the plant surface. The X-Tfes possess different putative domains with hydrolytic activity against components of the bacterial cellular envelope, including glycohydrolase, transglycolase, amidase and lipase domain. The innate biological activity of X-Tfes can cause intracellular damage. Therefore, the bacteria that produce them also produce lipoproteins with inhibitor function (X-Tfis) located in the periplasm for their protection. The genes that code for X-Tfes and X-Tfis are organized in operons that allow for their simultaneous expression. Among the X-Tfes of the phytopathogen Xanthomonas citri are Xac1918 and Xac0574. Xac1918 is carries a lysozyme superfamily domain, as well as a domain known as RTX (Repeats in Toxic) predict to bind calcium, while, Xac0574 has a domain belonging to the lipase 3 superfamily. Their possible inhibitors, Xac1917 e Xac0573 respectively, carry an N-terminal signal peptide containing a lipobox found in bacterial lipoproteins. The Xac0574 and Xac0573 proteins are both monomers in solution, They can form a stable 1:1 complex, that is thermodynamically favored (ΔG°= -12 Kcal/mol) with a dissociation constant of 2,45 nM. This affinity ensure that the bacterium is protected against the harmful effects of Xac0574 when it is produced intracellularly. We show that Xac0574 is a phospholipase A1, without lisophospholipase activity, and is able to hydrolyze the three most common phospholipids found in the membranes of Gram negative bacteria, namely phosphatidylglycerol (PG), cardiolipin and phosphatidylethanolamine (PE), presenting an apparent preference for PE. The enzymatic activity of Xac0574 explains the strong inhibition of growth of E. coli cells after its heterologous induction: a nearly 10-fold decrease in the cell population is observed when compared to the non-induced culture with the same construct. On the other hand, Xac0573 effectively inhibits the enzymatic activity of Xac0574. Furthermore, Xac0573 does not possess when forming the complex, besides not having phospholipase nor lysophospholipase activity.Crystals of Xac1918 and Xac0573 were produced which diffracted with to resolution of 3.0 and 2.5 Å, respectively. However, we were able to resolve the structure of only Xac0573. Xac0573 is composed of two anti-parallel sheet that form a β-sandwich with three small helices. An alignment to Xac0573 homologs identified conserved regions at the ends of the protein that constitute two possible interfaces of interaction that may be responsible for blocking the access of the phospholipids to the catalytic site or impede the structural rearrangements of Xac0574 that are necessary for its enzymatic activity. Additionally, the topology of Xac0573 is similar to that to C2 domains, known in eukaryotes to bind lipids and calcium and to be involved in signaling processes mediated by lipid second messengers, membrane trafficking and membrane fusion mechanisms. Our results point to a new biological function of the C2 domain as an intracellular enzyme inhibitor in bacteria.
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