Identification of TEF cofactor(s) in skeletal muscles utilizing yeast two hybrid system

Zhang, Aijing.

January 2004

Thesis (M.S.)--University of Missouri--Columbia, 2004. / Typescript. Vita. Includes bibliographical references (leaves 70-75). Also issued on the Internet.

Caractérisation biochimique et moléculaire du complexe SCF (SKP1-CULLIN-FBOX) chez le blé tendre / Biochemical and molecular characterization of the SCF complex (SKP1-CULLIN-FBOX) in soft wheat

El Beji, Imen

18 July 2011

Les modifications post-traductionnelles des protéines constituent un niveau crucial de régulation de l’expression des gènes. Parmi elles, la conjugaison peptidique impliquant l’ubiquitine intervient entre autre dans la régulation de la stabilité protéique. La fixation de ce peptide de 76 acides aminés, extrêmement conservé, sous forme de chaîne de polyubiquitine, nécessite l’intervention de trois enzymes (E1, E2 et E3) et constitue un signal de dégradation de la protéine ainsi modifiée. Cette voie de régulation intervient dans de très nombreux processus biologiques. Les complexes SCF sont impliqués dans la voie de protéolyse ciblée. Ils représentent l' une des classes les plus fréquentes d'ubiquitine ligase E3 et ils sont composés de quatre sous-unités (Rbx, Cullin, SKP1, et F-box). La structure et la fonction des complexes SCF, ont été étudiées chez la levure, l’Homme et la plante modèle A. thaliana. Cependant, peu de travaux ont été réalisés chez des plantes cultivées, en particulier les céréales, telles que le blé. Cinq gènes codant pour la sous-unité Skp1 (TSK1, TSK3, TSK6, TSK11 et TSK16), cinq gènes codant pour la sous-unité F-box (ZTL, ATFBL5, EBF, TIR1 et ABA-T), un gène codant pour la sous-unité Cullin1 et un gène codant pour la protéine RBX du complexe SCF du blé, ont été isolés et clonés. Les différents tests d’interaction entre les quatre sous-unités du complexe SCF ont été réalisés par la méthode du double-hybride dans la levure en utilisant la technologie Gateway. Ces études ont montré que les deux protéines, TSK1 et TSK3, fixent spécifiquement différentes sous-unités F-box. Parallèlement, nous avons montré que la protéine TSK11 représente une structure particulière. Des études d’insertion/délétion sur la protéine TSK11 ont permis d’identifier un nouveau domaine indispensable à l’interaction. Les analyses par PCR semi-quantitative des différents gènes codant pour la sous-unité Skp1, dans trois tissus différents (feuille tige et racine), ont mis en évidence une expression constitutive des gènes TSK3, TSK6 et TSK11. Tandis que les gènes TSK1 et TSK16 sont exprimés préférentiellement dans les racines. Les analyses par PCR semi-quantitative sur des plantules de blé à différents stades de développement, ont mis en évidence une surexpression du gène TSK11 au moment de la floraison. Ce qui suggère que TSK11 est probablement un équivalent fonctionnel d’ASK1 chez Arabidopsis thaliana. / The selective degradation of proteins is an important means of regulating gene expression and plays crucial roles in the control of various cellular processes. The Ubiquitin (Ub)–Proteasome System (UPS) is the principal non-lysosomal proteolytic pathway in eukaryotic cells and is required for the degradation of key regulatory proteins. Ubiquitin is a 76-residue protein that can be attached covalently to target proteins through an enzymatic conjugation cascade involving three enzymes denoted, E1, E2 and E3.The SCF complex is a type of ubiquitin-protein ligase (E3) that acts as the specific factor responsible for substrate recognition and ubiquitination. Some polyubiquitinated proteins are then targeted to the 26S proteasome for degradation. The SCF complex consists of four components including SKP1, Cullin1, Rbx1 and a large gene family of F-box proteins. Twenty one SKP1-related genes have been described in the Arabidopsis genome and some of these genes have been analyzed genetically. By contrast, little is known about the function and structure of SKP1 homologues in wheat. Some of the Triticum SKP1-related protein (TSKs) have been characterized in this study. Five complete sequences of SKP1 (TSK1, TSK3, TSK6, TSK11 and TSK16), five F-box (ZTL, ATFBL5, EBF, TIR1 and ABA-T), one Cullin1 and one Rbx, were successfully cloned and biochemically characterized. Yeast two-hybrid analysis showed that TSK1 and TSK3 are capable of interacting with different F-box proteins. Furthermore, TSK11 contains an additional domain that changed its interaction capabilities. In vitro analysis using a chimeric protein showed that this additional domain could modify the interaction between a SKP-like protein and two F-box proteins. Expression analyses revealed that TSK1 and TSK16 were expressed predominantly in roots. While, TSK3, TSK6 and TSK11 were expressed in several wheat organs. In addition, the TSK11 was up-regulated in the leaves at the flowering stage.

Ubiquitine Ligase E3

Complexe SCF

Triticum aestivum

TSKs

F-box

Double-hybride dans la levure

E3 Ligase

SCF complexes

Triticum aestivum

TSK

F-box protein

Yeast two-hybrid system

Analise das proteinas Ki-1/57 e PRMT1 : identificação, mapeamento e caracterização funcional da interação com outras proteinas / Analysis of the proteins Ki-1/57 and PRMT1: identification, mapping and characterization of the interaction with other proteins

Passos, Dario Oliveira dos

31 August 2006

Orientador: Jorg Kobarg / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-07T08:03:42Z (GMT). No. of bitstreams: 1 Passos_DarioOliveirados_D.pdf: 4831709 bytes, checksum: 0aa3e031d4e82dc447636416b68401e8 (MD5) Previous issue date: 2006 / Resumo: A proteína Ki-1/57 que é encontrada tanto no núcleo quanto no citoplasma está associada com atividade de proteína quinase serina/treonina e é fosforilada nestes resíduos após ativação celular. Neste trabalho verificamos que Ki-1/57 interage com a proteína Chromatin-Helicase-DNA-binding domain 3 (CHD3) e com a proteína adaptadora/sinalizadora RACK1 no núcleo. Pelo sistema do duplo híbrido de levedura (SDHL) a proteína arginina metiltransferase 1 (PRMT1) foi selecionada como outra proteína de interação. A PRMT1 integra uma família representada por nove enzimas humanas que catalisam reações de metilação em resíduos de arginina. Em seguida, usando agora a PRMT1 como isca - no SDHL - identificamos as proteínas Ki-1/57 e hnRNPQ, juntamente com outras 13. A maioria delas contêm motivos ¿RGG-box¿ em suas seqüências de aminoácidos, que são conhecidos alvos para metilação. Posteriormente verificamos que Ki-1/57 e seu provável parálogo CGI-55 conservam dois motivos ¿RGG/RXR-box¿ e que são substratos in vitro para a metilação de argininas pela PRMT1. Estudos de mapeamento mostraram que todos os fragmentos contendo o motivo ¿RGG/RXR-box¿ interagem com a PRMT1 e são alvos à metilação in vitro. Ki-1/57 endógena, imunoprecipitada de células L540, mostrou ser metilada in vivo, além de ser um alvo a metilação pela PRMT1 in vitro, somente quando as células são previamente tratadas com o inibidor da metilação Adox. Tratamento das células Hela com o inibidor da metilação (Adox) causa desaparecimento da imuno-marcação citoplasmática de Ki-1/57 e relativa redistribuição do parálogo CGI-55 para o citosol. Assim, pode ser especulado que a metilação destas proteínas deve ser um evento importante para suas localizações subcelulares e conseqüentemente para suas funções. Em resumo, nossos dados sugerem que o SDHL é um método efetivo na identificação de novos substratos celulares para a PRMT1 e poderia ser estendido para a identificação e caracterização de novos substratos para os outros integrantes da família das PRMTs humanas / Abstract: The protein Ki-1/57 that is found both in the cytoplasm and nucleus is associated with serine/threonine protein kinase activity and gets phosphorylated on serine and threonine residues upon cellular activation. We demonstrated that Ki-1/57 interacts with the Chromatin-Helicase-DNA-binding domain protein 3 (CHD3) and with the adaptor/signaling protein RACK1 in the nucleus. By utilizing the yeast two-hybrid system (YTHS), we were further able to find the protein arginine-methylatranseferase-1 (PRMT1) as another interacting protein. PRMT1 is a member of the family constituted by 9 human enzymes that catalyze methylation reactions on arginine residues. Afterwards, by using PRMT1 as bait in the YTHS we identified both Ki-1/57 and NSAP1 as interacting proteins, along with 13 other proteins. The majority of them present RGG-box clusters in their amino acid sequences, which are known to be targets for arginine methylation. We further found that Ki-1/57 and its putative paralogue CGI-55 have two RGG/RXR-box clusters conserved between them and that they are substrates for arginine-methylation by PRMT1 in vitro. In mapping studies, we observed that all Ki-1/57 protein fragments containing the RGG/RXRbox clusters interact with PRMT1 and are targets for methylation in vitro. Endogenous cellular Ki-1/57 seems to be methylated in vivo and is a target for methylation by PRMT1 in vitro, only when cells have been previously treated with the methylation inhibitor Adox. Treatment of Hela cells with the inhibitor of methylation (Adox) causes the disappearance of the immuno-staining of Ki-1/57 in the cytoplasm and a relative redistribution of the paralogue CGI-55 to the cytosol. It can therefore be speculated that the methylation of these proteins is important for their sub-cellular localization and in consequence for their function. In summary our data suggest that the YTHS is an effective method for the identification of novel cellular PRMT substrates and could be extended for the identification and characterization of novel substrates to the other components of the human PRMT1 family / Doutorado / Bioquimica / Doutor em Biologia Funcional e Molecular

Metilação de arginina

Localização celular

Técnicas do sistema de duplo-híbrido

Interações proteina-proteina

Modificação pós-traducional

Arginine methylation

Cellular localization

Protein-protein interactions

Yeasts two-hybrid system

Post-translational modification

Caracterização das proteinas TIPRL e alfa4, reguladores de fosfatases 2A / Characterization of the type 2A phosphatase regulatory protein, TIPRL and alpha4

Smetana, Juliana Helena Costa

13 August 2018

Orientador: Nilson Ivo Tonin Zanchin / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-13T09:08:00Z (GMT). No. of bitstreams: 1 Smetana_JulianaHelenaCosta_D.pdf: 8660811 bytes, checksum: cb33e97d4c49fdce1e29094a2f6089cc (MD5) Previous issue date: 2009 / Resumo: As células respondem constantemente a uma enorme variedade de estímulos, que são interpretados e integrados por meio de redes de sinalização, dando origem a uma resposta biológica. Defeitos nesses circuitos são a causa de diversas doenças, incluindo muitos, se não todos os tipos de câncer. As fosfatases, enzimas que removem grupamentos fosfato dos substratos de quinases, dependem principalmente de subunidades regulatórias para definir sua especificidade. As fosfatases do tipo 2A constituem a subfamília PPP, que é formada por PP2A, PP4 e PP6. PP2A é a principal fosfatase solúvel de fosfosserina e fosfotreonina em células animais e é encontrada predominantemente como uma holoenzima formada por uma subunidade catalítica (C), uma subunidade regulatória (B, B', B'' ou B''') e uma de ancoragem (PR65/A). Em levedura, as fosfatases 2A desempenham um importante papel na via da quinase TOR, o que ocorre por meio da proteína essencial Tap42. A proteína Tip41 foi identificada como um parceiro de interação de Tap42 e regulador da via da quinase TOR em levedura. A homóloga de Tap42 em mamíferos, chamada de a4, está envolvida na regulação de diversos processos celulares, como diferenciação, desenvolvimento, migração celular e apoptose, por meio de seu papel conservado de regulador de fosfatases 2A. A homóloga em mamíferos de Tip41, chamada TIPRL, é uma proteína ainda pouco caracterizada. Este trabalho teve como objetivo analisar a função das proteínas a4 e TIPRL humanas e esclarecer seu papel na regulação de fosfatases 2A. A caracterização estrutural de a4 e Tap42, usando dados de SAXS, dicroísmo circular e proteólise limitada, mostrou que essas proteínas apresentam um domínio N-terminal compacto formado por a-hélices e um domínio C-terminal desestruturado. Em uma triagem de interações com a proteína TIPRL humana, identificamos as fosfatases PP2Ac, PP4c e PP6c como seus parceiros de interação, assim como os fatores de transcrição MafB e TAF10. Ao contrário do esperado a partir do modelo de levedura, a4 e TIPRL não interagem diretamente, mas formam um complexo ternário com PP2Ac. Uma triagem de substratos de fosfatases 2A regulador por TIPRL identificou os fatores de splicing SF2/ASF e SF2p32. Nossos resultados sugerem um modelo estrutural para a regulação das fosfatases 2A por a4 e mostram que TIPRL é um novo regulador comum dessas fosfatases com funções na regulação da expressão gênica. / Abstract: Cells respond constantly to a variety of stimuli, which are interpreted and integrated through signaling networks, giving rise to biological responses. Defects in this circuitry are a cause of many diseases, including cancer. Protein phosphatases are enzymes which remove phosphate groups from kinase substrates, relying mainly on regulatory subunits for their substrate specificity. Type 2A phosphatases belong to the PPP subfamily, which is formed by PP2A, PP4 and PP6. PP2A is the major soluble serine/threonine phosphatase in animal cells and is found predominantly as a heterotrimer composed of a catalytic (C), a regulatory (B, B', B'' or B''') and a scaffold (PR65/A) subunit. Type 2A phosphatases play a major role in the yeast TOR signaling pathway through their interaction with the essential protein Tap42. Tip41 was identified as a Tap42 interacting protein and regulator of the TOR pathway. a4, the mammalian orthologue of Tap42, regulates many cellular processes such as differentiation, development, cell migration and apoptosis as a conserved type 2A phosphatase regulator. TIPRL, the mammalian orthologue of Tip41, is still poorly characterized. The objective of the present work was to analyse the function of a4 and TIPRL and improve the understanding of their role as type 2A phosphatase regulators. The structural characterization of a4 using SAXS analyses, circular dichroism and limited proteolysis, showed that these proteins are formed by an a-helical N-terminal domain and an unfolded C-terminal domain. A screen for TIPRL interacting proteins identified PP2Ac, PP4c and PP6c and also the transcription factors MafB and TAF10. Unlike their yeast conterparts, a4 and TIPRL do not interact directly, but rather form a ternary complex with PP2A. A search for type 2A phosphatase substrates regulated by TIPRL identified the splicing factor SF2/ASF and its regulatory protein SF2p32. Our results suggest a structural model for the regulation of type 2A phosphatases by a4 and show that TIPRL is a novel common regulator of these phosphatases which functions in regulation of gene expression. / Doutorado / Genetica Animal e Evolução / Doutor em Genetica e Biologia Molecular

Proteínas - Análise

Técnicas do sistema de duplo-híbrido

Proteina TIP41

Proteina TAP42

Proteina fosfatase 2A

Proteins - Analysis

Yeast two-hybrid

TIP41 protein

TAP42 protein

Protein phosphatase 2A

Estudo funcional e estrutural de Nip7p, uma proteina conservada envolvida na sintese de ribossomos / Functional and structural analysis of Nip7p, a conserved protein involved in ribosome biogenesis

Coltri, Patricia Pereira

12 October 2007

Orientador: Nilson Ivo Tonin Zanchin / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-09T15:29:14Z (GMT). No. of bitstreams: 1 Coltri_PatriciaPereira_D.pdf: 4564852 bytes, checksum: f11b831da981a8969c20f8f03ae8c617 (MD5) Previous issue date: 2007 / Resumo: A síntese de ribossomos é um processo conservado em eucariotos e se inicia com a transcrição dos rRNAs no nucléolo. Mais de 170 fatores atuam de forma transitória no processamento dos precursores para gerar os rRNAs maduros que formarão as subunidades ribossomais no citoplasma. Entre as proteínas envolvidas na síntese de ribossomos está a Nip7p, uma proteína nucleolar de 21 kDa associada ao complexo pré-60S em Saccharomyces cerevisiae. Nip7p é conservada e possui ortólogas em eucariotos e em Archaea. A análise da seqüência primária revela a presença de um domínio conservado na região C-terminal, denominado PUA, encontrado em diversas proteínas associadas a modificações no RNA. Neste trabalho, foram realizadas análises estruturais e funcionais com o objetivo de investigar a função molecular da proteína Nip7 no processamento e modificação do rRNA. A estrutura tri-dimensional de PaNip7, ortóloga de Nip7p em Pyrococcus abyssi foi resolvida por difração de raios-X até 1,8Å de resolução, utilizando o método SIRAS. Comparação estrutural seguida por ensaios in vitro confirmaram o envolvimento do domínio PUA na interação com RNA. Além disso, tanto Nip7p como suas ortólogas PaNip7 e HsNip7 interagem com seqüências ricas em uridina, indicando que atuam de forma semelhante no processamento do rRNA. Essa preferência por uridina pode ainda explicar a afinidade da proteína Nip7p de S. cerevisiae pelo RNA da região ITS2, conforme observado em ensaios de interação utilizando UV-crosslinking. De fato, uma análise funcional realizada por primer extension comprovou que ocorre um bloqueio no processamento da região espaçadora ITS2 na ausência de Nip7p. Nip7p interage com várias proteínas do complexo pré-60S, entre as quais Nop8p e Nop53p, ambas associadas ao processamento do pré-27S. Embora os ensaios de co-purificação tenham confirmado a interação com as proteínas do complexo H/ACA box, deficiência em Nip7p não afeta a pseudo-uridinilação do rRNA. O duplo-híbrido realizado com a ortóloga humana de Nip7p, HsNip7, revelou interações com FTSJ3 e com a proteína SUMO-2. A interação direta de HsNip7 com estas proteínas foi confirmada por ensaios in vitro. HsNip7 e FTSJ3 colocalizaram na região nucleolar de células HEK293. FTSJ3 é uma proteína não caracterizada que possui o domínio FtsJ, descrito inicialmente para rRNA metiltransferases de procariotos. Além disso, FTSJ3 apresenta similaridade de sequência à proteína Spb1p de levedura, cuja função na metilação do rRNA 25S na posição Gm2922 já foi estabelecida. Embora a Nip7p não interaja com a Spb1p, estes dados indicam que FTSJ3 deve ser a ortóloga humana da Spb1p. As proteínas SUMO estão envolvidas na modificação pós-traducional (sumoylation) que regula a localização subcelular de proteínas. Em levedura, a provável ortóloga de SUMO, Smt3p, foi descrita na partícula pré-60S, portanto a interação HsNip7-SUMO-2 pode ser específica. Estes dados sugerem que as proteínas atuem no mesmo complexo da formação da subunidade 60S também em células humanas / Abstract: Ribosome biogenesis is conserved throughout eukaryotes and takes place in the nucleolus, a specialized nuclear compartment where the rRNA precursors are transcribed. More than 170 trans-acting factors coordinately interact to generate the mature rRNAs. Among the proteins identified in the pre-60S particle in Saccharomyces cerevisiae is Nip7p. Highly conserved Nip7p orthologues are found in all eukaryotes and Archaea. The analysis of Nip7p sequence reveals a conserved C-terminal domain named PUA, also found in a number of RNA-interacting proteins. In this work, we performed structural and functional analysis to investigate Nip7p molecular role on rRNA processing and modification. The structure of Pyrococcus abyssi Nip7p ortholog, PaNip7, was solved using X-ray diffraction data to 1,8Å resolution. Structural analysis followed by in vitro assays confirmed the involvement of PUA domain in RNA interaction. S. cerevisiae Nip7p and its archaeal and human counterparts show preference for binding uridine-rich sequences, indicating conserved functional features among the orthologues. The preference for uridine can explain the higher affinity of S. cerevisiae Nip7p for ITS2 sequence, as observed by UV-crosslinking assays. Consistently, functional analysis revealed pre-rRNA processing in the ITS2 region is seriously impaired. Yeast two-hybrid analysis confirmed by pull down assays revealed Nip7p interacts with Nop8p and Nop53p, two nucleolar proteins involved in pre-27S processing and components of pre-60S particle. Although yeast two-hybrid and pull down assays indicated that Nip7p interacts with H/ACA box core proteins, pseudouridylation is not affected under conditions of Nip7p depletion. In addition, yeast two-hybrid analysis confirmed by GST-pull down revealed HsNip7 interaction with FTSJ3 and SUMO-2. Both HsNip7 and FTSJ3 showed nucleolar subcellular localization in HEK293 cells. FTSJ3 is an uncharacterized protein containing the FtsJ domain, initially described in prokaryotic rRNA methyl-transferases. FTSJ3 shows sequence similarity to yeast Spb1p, an rRNA methyl-transferase involved in methylation of Gm2922, indicating that FTSJ3 may be the human orthologue of Spb1p. Sumoylation is a post-transcriptional covalent modification involved in regulation of protein subcellular localization. Putative yeast orthologues of SUMO, such as Smt3p, have been described in the pre-60S ribosomal particle, suggesting that SUMO-2 might play a specific role in 60S subunit biogenesis / Doutorado / Genetica Animal e Evolução / Doutor em Genetica e Biologia Molecular

Ribossomos

RNA ribossomico

Proteínas - Síntese

Proteinas - Estrutura

Técnicas do sistema de duplo-híbrido

Ribosomes

RNA, Ribosomal

Proteins - Synthesis

Proteins - Structure

Yeast two-hybrid system

O interactoma de Stanniocalcina-1 humana sugere novas funções e vias de atuação celulares / The interactome of human Stanniocalcin-1 suggests new cellular functions and pathways

Santos, Marcos Tadeu dos, 1984-

19 August 2018

Orientador: Jörg Kobarg / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-19T01:34:02Z (GMT). No. of bitstreams: 1 Santos_MarcosTadeudos_D.pdf: 15943486 bytes, checksum: 39810fdf0ace76e5e8963354bdc460ca (MD5) Previous issue date: 2011 / Resumo: O objetivo deste projeto foi estudar genes ativados em células do estroma da medula óssea, induzidos pela co-cultura com blastos leucêmicos, na tentativa de uma melhor compreensão sobre o crostalk entre estas células no microambiente tumoral. Nós identificamos Stanniocalcina-1 (STC1) como um potencial marcador molecular do microambiente tumoral, uma vez que sua expressão foi aumentada cerca de 7 vezes em células do estroma co-cultivadas com blastos leucêmicos primários. STC1 humana é uma glicoproteína secretada e tem sido descrita participando em diferentes processos fisiológicos, incluindo a angiogênese, hipóxia e principalmente, a carcinogênese. Nós produzimos a proteína recombinante STC1 no sistema baculovírus e também anticorpos monoclonais, usados em um ensaio ELISA, que agora será testado como um novo kit de diagnóstico de leucemia por uma empresa brasileira. Além disso, identificamos novos parceiros de interação para STC1 através do sistema de duplo hibrido em levedura sendo que algumas destas interações foram confirmadas por GST-pull down. A região Nterminal foi identificada como sendo a região responsável pela interação de STC1 com seus parceiros. Estudos de localização sub-celular por microscopia, revelaram uma deposição ubíqua citoplasmática e puntiforme nuclear, lembrando corpúsculos nucleares relacionados a SUMOilação. Embora STC1 interaja com a proteína SUMO1 e tenha uma predição de alta probabilidade para ser SUMOilada, ensaios in vitro e in vivo não conseguiram detectar STC1 SUMOilada. No entanto, observamos que STC1 regula a SUMOilação de forma significativa em três outras proteínas. Essas descobertas sugerem um novo papel para STC1 no ciclo de SUMOilação, agindo como uma SUMO E3 ligase. Observamos também que STC1 possui um receptor na membrana plasmática em linhagem de células leucêmicas K562 e que a incubação de STC1 com outras células leucêmicas parece favorecer a proliferação destas células ao passo que estimula uma maior produção da própria STC1 intracelular em células do estroma. Juntos, todos estes resultados abrem novas pistas promissoras a serem exploradas no futuro, uma vez que todos os resultados mostram ligações interessantes com estudos funcionais anteriores em STC1 / Abstract: The aims of this project is to study upregulated genes on bone marrow stromal cells, induced by the co-culture with leukemic blasts, trying to have a better understand about the crosstalk between these cells in the tumor microenvironment. We identified Stanniocalcin-1 (STC1) as a putative molecular marker for the leukemic microenvironment, once its expression was increased around 7 times in stromal cells co-cultivated with primary leukemic blasts. Human STC1 is a secreted glycoprotein that has been implicated in different physiological process, including angiogenesis, hypoxia and mainly in carcinogenesis. We produced the recombinant protein STC1 in baculovirus system and monoclonal antibodies for an ELISA assay that now will be tested as a new leukemia diagnostic kit by a Brazilian company. Moreover, we identified new interacting protein partners for STC1 by yeast two hybrid system and some of these interactions were confirmed by GST-pull down assays. The N-terminal region was mapped to be the region that mediates the interaction between STC1 and its partners. Microscopic subcellular localization, revealed an ubiquitous cytoplasmic and dot-like nuclear deposition, resembling SUMOylation related nuclear bodies. Although STC1 interacts with SUMO-1 and has a high theoretical prediction score for a SUMOylation site, in vitro and in vivo assays could not detect STC1 SUMOylation. However, we found that STC1 significantly regulates the SUMOylation of three other proteins. These ??ndings suggest a new role for STC1 in SUMOylation cycle, acting as a SUMO E3 ligase. We either observe that STC1 has a plasmatic membrane receptor in K562 leukemic cell lines and the incubation of STC1 with other leukemic cells suggest a increase of proliferation of these cells and stimulates the production of more intracellular STC1 at stromal cells. Together, all of these findings open promising new avenues to be explored in future detailed studies, since they all show interesting connections with previous functional studies on STC1 / Doutorado / Genetica Animal e Evolução / Doutor em Genetica e Biologia Molecular

Proteína stanniocalcina humana 1

Proteína Sumo-1

Interatoma

Técnicas do sistema de duplo-híbrido

Leucemia

Stanniocalcin 1 protein, human

Sumo-1 protein

Interactome

Two-hybrid system techniques

Leukemia

Contribution à la caractérisation de protéines impliquées dans la transduction des signaux: C3VS, le récepteur de la TSH et SHIP2

Jacobs, Christine

04 June 2004

Dans le thyrocyte normal, la TSH active une voie dépendante de l’adénylyl cyclase/AMPc, qui représente l’une des trois voies mitogéniques de la thyroïde. La cascade de signalisation de la TSH diffère des deux autres voies dans sa capacité à induire à la fois la prolifération et la différenciation, comprenant la synthèse et la sécrétion des hormones thyroïdiennes. Identifier les acteurs de cette cascade de signalisation, ainsi que les interactions entre effecteurs, est donc très important pour la compréhension de la fonction de la cellule thyroïdienne. C’est dans ce cadre que s’insère notre travail au cours duquel nous nous sommes intéressés au récepteur de la TSH ainsi qu’à une protéine récemment identifiée dans le laboratoire et dont l’expression est modulée en réponse à la TSH dans la thyroïde :C3VS. <p>C3VS est une protéine qui présente six motifs ankyrine et une tirette à leucine et dont la fonction était inconnue à l'époque. Dans un premier temps, nous avons contribué à l’obtention de la séquence codante complète du C3VS de chien, puis, l'identification des partenaires d'une protéine pouvant aider à caractériser sa fonction, nous nous sommes proposé de rechercher les partenaires potentiels de la région N-terminale de C3VS par la méthode double-hybride. Nous avons étudié la distribution tissulaire et la régulation par la TSH de différents partenaires isolés. Parmi eux, SUG1, une ATPase du protéasome 26S, a été étudiée plus avant mais l’interaction n’a pas pu être confirmée par "GST-pulldown assay". Simultanément, une remise en question de la position de la méthionine initiale de C3VS, couplée à une impossibilité d’exprimer la protéine en cellules COS par transfection mettait en péril le travail. En l’absence de plus d’arguments fonctionnels permettant d’orienter l’étude des positifs, cette partie du travail a été suspendue au profit de notre étude sur le récepteur de la TSH. L'activation de cascades différentes dans le thyrocyte humain et canin pouvant être due à l'action de protéines intracellulaires, nous avons tenté de rechercher par double-hybride des partenaires protéiques autres que les protéines G pour le récepteur de la TSH. Nous avons ainsi identifié PRA1 mais nous n’avons pas pu confirmer l'interaction entre les deux protéines par "GST-pulldown assay". Pour tenter de comprendre le rôle de cette interaction, nous avons réalisé des essais fonctionnels en transfectant des cellules pour évaluer l'implication de PRA1 sur la synthèse d’AMPc. Ces expériences ne nous ont pas permis de montrer un rôle pour PRA1 au niveau de la cascade, mais en revanche, nous avons mis en évidence le fait que la co-transfection de deux ADNc codant pour des protéines membranaires sature la machinerie de traduction et diminue l'expression du RTSH. <p>Dans une deuxième partie de notre travail, nous avons étudié la 5-phosphatase SHIP2, dont l’implication dans la cascade de réponse à l’insuline était suggérée, entre autres, par le travail d’Isabelle Vandenbroere qui avait montré l’interaction de cette protéine avec CAP et c-Cbl. Nous avons développé au laboratoire la culture de la lignée pré-adipocytaire 3T3-L1 et étudié la localisation de SHIP2 au niveau des rafts de ces cellules. Nous avons montré que SHIP2 n’y est pas recrutée. CAP et c-Cbl ne semblent pas non plus y être recrutées, tandis que nous y avons détecté le récepteur de l'insuline. La localisation de différentes protéines impliquées dans la cascade de l'insuline dans les rafts est une question controversée à l’heure actuelle et notre étude montre que l’implication fonctionnelle de SHIP2 dans la cascade de l'insuline n'est probablement pas dépendante des rafts.<p> / Doctorat en sciences, Spécialisation biologie moléculaire / info:eu-repo/semantics/nonPublished

Sciences exactes et naturelles

Biologie

Cellular signal transduction

Thyroid hormones -- Receptors

Transduction du signal cellulaire

Hormones thyroïdiennes -- Récepteurs

TSHR

C3VS

SHIP2

Two-hybrid/double-hybride

Caractérisation d’inhibiteurs de complexes CDK‐cycline chez Arabidopsis thaliana / Characterisation of Arabidopsis thaliana cyclin dependent kinase inhibitors

Millan, Laurine

27 September 2011

Comme pour tous les organismes pluricellulaires, la croissance et le développement des plantes nécessitent une coordination de la production de cellules via la mitose et la différenciation cellulaire. La progression du cycle cellulaire est contrôlée par les complexes CDK-cycline. Les inhibiteurs de ces complexes, les CKIs, représentent d’excellents candidats pour réguler cet équilibre entre les processus de prolifération et différentiation cellulaires qui ont lieu au cours du développement. Afin de mettre en évidence le rôle d’intégrateurs potentiel des CKIs, le développement floral a été utilisé en tant que modèle.Grâce à l’utilisation de la qRT-PCR, nous avons montré que durant le développement floral d’Arabidopsis thaliana, un groupe restreint de CKIs était exprimé. Nous avons choisi de travailler sur les deux CKIs les plus exprimés, KRP6 et KRP7. Une caractérisation fine de leur profil d’expression durant le développement a été réalisée en utilisant des approches complémentaires telles que l’analyse de l’activité de leur promoteur, de la dynamique de leur transcrit, de leur expression protéique et de leur régulation post-traductionnelle.Jusqu’à présent, seules des approches ‘gain de fonction’ ont été utilisées pour étudier le rôle des CKIs chez les plantes. C’est pour cela que nous avons choisi des approches ‘perte de fonction’ pour analyser le rôle de KRP6 et de KRP7 au cours du développement floral. Ainsi, nous avons généré des doubles mutants d’insertion krp6-krp7, krp3-krp6, krp3-krp7, des triples mutants d’insertion krp3-krp6-krp7 et diverses lignées ARN interférence avec des promoteurs spécifiques. Malgré l’étude de ces nombreuses lignées, nous n’avons pas réussi à mettre en évidence des effets phénotypiques associés à l’absence de la fonction CKI au cours du développement floral. Ces résultats mettent en évidence la redondance fonctionnelle qui semble exister entre les KRPs, ainsi un quadruple mutant pourrait être nécessaire pour entrainer des modifications développementales. Afin de mieux comprendre cette fonction d’intégrateurs des KRPs au cours du développement floral, les partenaires de KRP6 et de KRP7 ont été recherchés. Des criblages double-hybride ont été réalisés afin d’identifier des ADNc, spécifiques du développement floral, codant des protéines capables d’interagir avec KRP6 et KRP7. De façon intéressante, mis à part les cyclines de type D, un nouveau type d’interaction a pu être mis en évidence. Un sous-groupe de la famille des rémorines est capable d’interagir avec KRP6 ou KRP7 en système double-hybride. Les rémorines sont des protéines spécifiques du règne végétal, associées à la membrane plasmique mais dont la fonction reste à clarifier. Une approche BiFC en protoplastes BY-2 a permis de confirmer l’existence de ce type d’interaction. De plus, l’influence des rémorines sur la localisation intracellulaire des KRPs a été étudiée. En présence de ces nouveaux partenaires, KRP7 est capable d’adopter une localisation nucléo-cytoplasmique.Enfin, des résultats récents ont montré que l’AMPK était capable de phosphoryler p27KIP1, l’homologue fonctionnel des KRPs chez les mammifères. Ces évènements de phosphorylation entrainent des modifications de sa localisation intracellulaire et de son activité inhibitrice vis-à-vis des complexes CDK-cycline. Après la réalisation d’analyses in silico ayant permis de prédire des sites putatifs de phosphorylation par SnRK1, l’homologue de l’AMPK chez A. thaliana, pour certains KRPs, la protéine KRP6 sous forme recombinante a été utilisée pour réaliser des essais kinase in vitro. Une phosphorylation de KRP6 est détectée en présence de la sous unité catalytique activée de SnRK1. Contrairement aux mammifères, cet évènement de phosphorylation entraine une altération de l’activité inhibitrice de KRP6 sans modification de sa localisation intracellulaire. Cette abolition de l’activité de KRP6 a été confirmée in planta. En effet, les phénotypes associés à la surexpression de KRP6 peuvent être atténués par la surexpression simultanée de la sous-unité catalytique de SnRK1. L’existence de ce lien entre KRP6 et SnRK1 met en évidence une relation directe entre l’homéostasie énergétique et la prolifération cellulaire. / As in all multicellular organisms, growth and development in plants require the coordination of cell production by division and cell differentiation. Progression through cell cycle is controlled by the kinase activity of CDK/cyclin complexes. Inhibitors of these complexes, CKIs, represent excellent candidates to regulate the balance between proliferation and differentiation processes during development. To get insight in the potential integrator role of CKIs, floral development was chosen as a developmental model. Using a real time quantitative PCR approach, we bring to light that during floral development of Arabidopsis thaliana, a restricted subset of CKIs was preferentially expressed. It was decided to focus our work on the two major expressed CKIs, KRP6 and KRP7. A better characterization of their expression patterns of during development was undertaken using complementary approaches such as promoter activity analysis, mRNA dynamics, protein expression and post-translational regulation analysis. Because until now ‘gain of function’ approaches have been largely applied to unravel the role of plant CKIs, our challenge was to detect a floral phenotype for KRP6 and KRP7 loss of function mutants, either using knock-out mutants or RNAi lines. We generated krp6-krp7, krp3-krp6, krp3-krp7 double mutants and krp3-krp6-krp7 triple mutant and also several RNAi lines with specifics promoters. Despite the study of these numerous lines, we were not able to highlight phenotypic effects associated with the absence of CKI function during floral development. All these results emphasis functional redundancy which appears to exist between all KRPs, thus quadruple mutant might be needed to provoke some developmental modification.In order to better understand the integrative function of KRPs during floral development, partners of KRP6 and KRP7 were assessed. Two-hybrid screens were performed to identify cDNAs from a “floral-buds-development” library encoding proteins that are able to interact with KRP6 and KRP7. Interestingly, apart from D-type cyclins, we brought to light a new type of interaction. Indeed, a sub-class of the remorin protein family was able to interact with KRP6 or KRP7 in yeast two-hybrid. Remorins are plant specific plasma membrane associated proteins with unknown function. A BiFC approach in BY-2 protoplasts allowed us to confirm remorins/KRP6-7 interactions. Furthermore, the influence of the presence of remorin proteins on KRP6/7 localisation was assessed. KRP7 is able to adopt a nucleo-cytoplasmic localisation in presence of its new partners.Finally, recent results have shown that AMPK is phosphorylating p27KIP1, KRPs functional counterpart in mammals. These phosphorylation events lead to changes in its cellular localisation and its inhibitory activity toward CDK-cyclin complexes. After in silico analysis aiming to predict potential AMPK Arabidopsis homologue SnRK1 phosphorylation sites within some KRPs protein sequences, recombinant KRP6 was used in order to perform in vitro kinase assays. Phosphorylation occurs efficiently on KRP6 when activated SnRK1 catalytic subunit is present. Furthermore, unlike in mammals, this phosphorylation event leads to an alteration of KRP6 inhibitory activity without modification of its cellular localisation. This abolition of KRP6 activity was confirmed by in planta analysis. Indeed, KRP6 overexpression phenotype can be attenuated by simultaneous SnRK1 catalytic subunit overexpression. The existence of this link between KRP6 and SnRK1 underscores a direct relationship between energy homeostasis and cell proliferation.

Cycle cellulaire

Inhibiteurs de CDK-cycline

Arabidopsis thaliana

Développement floral

Criblage double-hybride

Cell cycle

CDK inhibitor

Arabidopsis thaliana

Floral development

Two-hybrid screen

Molecular mechanism of pseudopilus assembly in the Klebsiella oxytoca type II secretion system / Mécanisme moléculaire de l’assemblage du pseudopilus dans le système de sécrétion de type II de Klebsiella oxytoca

Santos Moreno, Javier

25 November 2016

Le système de sécrétion de type II (SST2) permet la sécrétion de protéines repliées à travers la membrane externe chez les bactéries à Gram-négatif. Le SST2 est une nano-machine enchâssée dans l’enveloppe bactérienne, proche par sa composition et structure aux systèmes d’assemblage des pili de type IV (PT4) impliqués, entre autres, dans d’adhésion et motilité. Chez Klebsiella oxytoca, la surexpression des gènes pul codant le SST2 permet l’assemblage de pili composées des sous-unités PulG. Ceci suggère qu’en conditions physiologiques l’assemblage d’un pseudopilus périplasmique permet la sécrétion du substrat spécifique du SST2, la pullulanase. Dans ce projet nous avons exploré le mécanisme moléculaire de l’assemblage du pseudopilus en se focalisant sur les interactions de PulG avec les composants du SST2 dans la membrane interne. En utilisant l’approche de double-hybride bactérien, nous avons établi le réseau d’interactions de PulG avec les pseudopilins mineures PulH, I, J et K et avec la plateforme d’assemblage (PA). Pour valider ces interactions, nous avons combiné des techniques de biochimie (co-purification par affinité, pontage cystéine et chimique) avec des analyses fonctionnelles de sécrétion et de formation du pseudopilus. Nous avons mis en évidence des interactions entre PulG et les protéines de la PA, PulF et PulM, et nous avons analysé en détail l’interface PulG-PulM. Les résultats suggèrent la formation d’un complexe PulK-I-J-H-G dans la membrane interne impliqué dans des étapes précoces de la formation du pseudopilus, à travers les interactions de PulG et PulH avec PulM et PulF. Nos données expérimentales suggèrent un rôle majeur de PulM dans la sécrétion, vraisemblablement durant l’assemblage du SST2 et l’élongation du pseudopilus. Nos travaux collaboratifs mettant en jeu l'analyse par spectroscopie de masse et en dynamique moléculaire in silico révèlent le rôle essentiel des résidus conservés Glu5 et Thr2 de PulG, requis pour l’interaction avec PulM. Ces données suggèrent que Glu5 participe à l'extraction de PulG de la membrane, en neutralisant la charge positive de son peptide N-terminal par des interactions intramoleculaires. Ces résultats permettent d'établir un modèle détaillant les étapes initiales de l’assemblage des pseudopili dans la membrane interne, relevant pour de futures études sur le SST2 et nanomachines homologues. sécrétion de protéinespili de type 4 assemblage de fibres complexes protéiques membranairesinteractions protéine-protéinemicroscopie à immuno-fluorescence simulations en dynamique moléculairedouble-hybride bactérien spectrométrie de masse nanomachines bacteriennes / The type II secretion system (T2SS) drives the translocation of folded, periplasmic proteins across the outer membrane in Gram-negative bacteria. Secretion is carried out by an envelope-spanning nanomachine that is similar to the apparatus that builds type IV pili (T4P), bacterial surface filaments involved in adhesion, motility and other functions. In the Pul T2SS of Klebsiella oxytoca, overexpression of pul genes in plate-grown bacteria allows the assembly of T4P-like surface fibres made of PulG subunits, suggesting that a periplasmic pseudopilus fibre plays a role in the secretion of the type II substrate pullulanase under physiological conditions. In this project, we explored the molecular mechanism of pseudopilus assembly by focusing on the interaction between PulG and the T2SS inner membrane and pseudopili components. The network of interactions of PulG with the minor pseudopilins PulH, I, J and K and the assembly platform (AP) components was established using bacterial two-hybrid analysis. To validate these interactions, we combined biochemical approaches (affinity co-purification, chemical or cysteine cross-linking) with functional assays of secretion and pseudopilus formation. We provide evidence of the interaction between PulG and the AP proteins PulF and PulM, and delve into the PulG-PulM interface. Our results point to the formation of a PulK-I-J-H-G complex in the plasma membrane involved in early steps of fibre assembly, with a determinant role for PulG and PulH interaction with PulM and PulF. We obtained experimental evidence supporting a major role for PulM in pseudopilus assembly and protein secretion, probably by intervening in the assembly of the T2SS apparatus and in pseudopilus elongation. The results of experimental and in silico studies in collaboration with experts in mass spectrometry and molecular dynamics support the essential role of the highly conserved PulG residues Glu5 and Thr2, which participate in PulM binding. In addition, Glu5 probably favours PulG membrane extraction by neutralising its N-terminal positive charge through intra-molecular interaction. These findings shed new light on early membrane events during fibre assembly, and open new and exciting avenues in research on T2SSs and related nanomachines.protein secretiontype 4 pilifibre assemblymembrane protein complexprotein-protein interactionsimmunofluorescence microscopymolecular dynamics simulationsbacterial two-hybrid assaymass spectrometrybacterial nanomachines

Pili de type 4

Complexes protéiques membranaires

Double-hybride bactérien

Nanomachines bactériennes

Type 4 pili

Membrane protein complex

Bacterial two-hybrid assay

Bacterial nanomachines

A Genetic Approach to Identify Proteins that Interact with Eukaryotic Microtubule Severing Proteins via a Yeast Two Hybrid System

Alhassan, Hassan H

05 1900

Microtubules (MT) are regulated by multiple categories of proteins, including proteins responsible for severing MTs that are therefore called MT-severing proteins. Studies of katanin, spastin, and fidgetin in animal systems have clarified that these proteins are MT-severing. However, studies in plants have been limited to katanin p60, and little is known about spastin or fidgetin and their function in plants. I looked at plant genomes to identify MT-severing protein homologues to clarify which severing proteins exist in plants. I obtained data from a variety of eukaryotic species to look for MT-severing proteins using homology to human proteins and analyzed these protein sequences to obtain information on the evolution of MT-severing proteins in different species. I focused this analysis on MT-severing proteins in the maize and Arabidopsis thaliana genomes. I created evolutionary phylogenetic trees for katanin-p60, katanin-p80, spastin, and fidgetin using sequences from animal, plant, and fungal genomes. I focused on Arabidopsis spastin and worked to understand its functionality by identifying protein interaction partners. The yeast two-hybrid technique was used to screen an Arabidopsis cDNA library to identify putative spastin interactors. I sought to confirm the putative protein interactions by using molecular tools for protein localization such as the YFP system. Finally, a Biomolecular Fluorescence Complementation (BiFC) assay was initiated as a proof of concept for confirmation of in vivo protein-protein interaction.

Microtubules

Microtubule-severing proteins

MT-severing

Katanin

Spastin

Fidgetin

Cell biology

Yeast Two Hybrid

Protein-protein interaction

Biology, Genetics

Biology, Molecular

Biology, Cell

Plant microtubules.

Proteins.