Global ETD Search

91	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 (has links) 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
92	Analyse fonctionnelle de TaGW2, une E3 ligase de type RING, dans le développement du grain de blé tendre (Triticum aestivum) / Functional analysis of TaGW2, an E3 ligase of the RING type, in the development of soft wheat grain (Triticum aestivum) Bednarek, Julie 07 December 2012 (has links) Le blé tendre, Triticum aestivum, est une des céréales les plus cultivées au monde et est d’une importance considérable pour l’alimentation humaine, fournissant environ un cinquième des calories consommées par l’Homme. Le rendement en grain chez les céréales dépend majoritairement du nombre et de la taille des grains. Chez le riz (Oryza sativa), le gène GW2 a été isolé dans un locus à effet quantitatif majeur pour la taille et le poids du grain. Ce gène code pour une enzyme E3 ligase de type RING, qui régule négativement la taille et le poids du grain de riz. L’homologue de GW2 chez le blé tendre, le gène TaGW2, est exprimé par trois copies TaGW2-A,TaGW2-B et TaGW2-D, portées par chacun des génomes homéologues A, B et D. Les trois copies présentent des profils d’expression distincts au cours du développement du grain. TaGW2-A a été cartographié dans une région de QTLs pour le rendement, sur le chromosome 6AS ; et du polymorphisme dans sa séquence promotrice et intronique a été retrouvé associé au poids de 1000-grains dans une core collection mondiale de blé tendre. Afin de rechercher la fonction de TaGW2, l’extinction stable des trois copies TaGW2 a été entreprise par ARN interférence. De manière surprenante, les plantes transgéniques montrent des réductions significatives des dimensions et du poids du grain de blé (- 22,5 et - 30% du volume et de la masse du grain, respectivement), ainsi que du nombre de cellules de l’albumen (- 25%), comparé aux plantes témoins dans nos conditions ; suggérant que TaGW2 est un régulateur positif de la taille finale du grain chez le blé tendre. La protéine TaGW2-A a été caractérisée aux niveaux moléculaire et biochimique : elle est une E3 ubiquitine ligase fonctionnelle in vitro, et s’accumule dans la cellule au niveau du nucléole, du nucléoplasme et du cytoplasme. Sa fonction E3 ligase semble notamment influencer sa localisation subcellulaire. Afin de déterminer la ou les voie(s) de signalisation dans la(es)quelle(s) intervient TaGW2, une banque ADNc de grains de blé a été construite et criblée par double-hybride avec 320 acides aminés de la protéine TaGW2-A. Les premiers interacteurs potentiels identifiés suggèrent d’une part un rôle de TaGW2 dans la régulation de la division cellulaire, et d’autre part une fonction E3 Nedd8 ligase, en plus de son activité E3 ligase. / Wheat, Triticum aestivum, is one of the world’s major cereal crops and is of considerable importance to human nutrition, supplying one-fifth of the calories consumed by humans. For important food crops such as wheat, rice and maize, grain yield mainly depends on grain number and size. In rice (Oryza sativa), GW2 was isolated from a major quantitative trait locus for grain size and weight, and encodes an E3 RING ligase that negatively regulates these yield components. Wheat has TaGW2 homologs in A, B and D genomes; and copies show distinct expression pattern during whole grain development in wheat. TaGW2-A was mapped in a genomic region on 6AS, encompassing previous reported QTLs for yield; and polymorphisms in TaGW2-A (promoter and intron 7) were associated with thousand-grain weight, in a worldwide wheat core collection. To investigate TaGW2 function, RNA interference was used to down-regulate TaGW2 transcripts levels. Surprisingly, transgenic wheat lines significantly showed decreased grain weight and size-related dimensions, and endosperm cell number compared to controls. The present study thus suggests that TaGW2 is a positive regulator of the final grain size in wheat, conversely to GW2 in rice. Biochemical and molecular analyses of the protein TaGW2-A revealed that 1) TaGW2-A is a functional E3 ubiquitine ligase in vitro, 2) TaGW2-A accumulates in the nucleolus, the nucleoplasm, and the cytosol, 3) E3 ubiquitine ligase activity seems to impact TaGW2-A subcellular localization. To investigate the TaGW2 signalling pathway(s), cDNA library from whole wheat grains was built and screened with the bait protein TaGW2(1-320). Preliminary results from the interactomic study suggest that TaGW2 may regulate cell division. Moreover, TaGW2 may also function as an E3 Nedd8 ligase, besides its E3 ubiquitin ligase function. Blé tendre Triticum aestivum TaGW2 Développement du grain ARN interférence E3 ligase RING Wheat Triticum aestivum TaGW2 Grain development RNA interference E3 RING ligase
93	Clonagem gênica e caracterização de uma enzima tipoluciferase de coleópteros não bioluminescentes e sua relação com a origem da atividade luminescente Prado, Rogilene Aparecida 06 March 2012 (has links) Made available in DSpace on 2016-06-02T20:20:33Z (GMT). No. of bitstreams: 1 4406.pdf: 2884968 bytes, checksum: a40d69433ee7cef0093f66b8c32c1bb8 (MD5) Previous issue date: 2012-03-06 / Universidade Federal de Minas Gerais / Bioluminescence in beetles is dependent on luciferase which evolved from AMP/CoA ligases. The cDNA of a luciferase-like enzime was cloned from the Malpighian tubules of Zophobas morio mealworm (Coleoptera: Tenebrionidae). The gene product of this cDNA displays weak luminescence and it is composed of 528 aminoacids residues with N-terminal and C-terminal sequences signal addressed to smooth endoplasmic reticulum membrane. Although having a low identity (26-32%) with beetle luciferases, this enzyme is a reasonable protoluciferase model to investigate the origin and evolution of beetle luciferases. The luciferin binding site is higly conserved among the beetle luciferases. However, in this protoluciferase of Z. morio, most of these residues of this motif are substituted by others. Using a site-directed mutagenesis survey some of aminoacids residues of this protoluciferase, which are located at correspondent luciferin binding site of luciferases, were replaced by the conserved residues of beetle luciferases. Most of the substitutions had negative effect on the luminescent activity, however, the substitution I327T, which is located in a β-hairpin motif close to the luciferin binding site, improved the luminescence activity. Such substitution indicates the importance of this motif for luciferase activity and indicates a possible route for the evolution of bioluminescence function of beetle luciferase. Since this enzyme is located in the Malpighian tubules, which are involved in excretion and metabolization of carboxylic substrates, this enzyme could be involved to excretion the some type of chemical compound. Regardless of the function the results show that the potential for bioluminescent activity is older and probably arose before the divergences of the Coleoptera bioluminescent families. / A bioluminescência em coleópteros é dependente das luciferases, enzimas que evoluíram das AMP-CoA ligases. O cDNA de uma enzima tipo-luciferase foi clonado dos túbulos de Malphighi de larvas de Zophobas morio (Coleoptera: Tenebrionidae). O produto gênico deste cDNA mostra naturalmente uma fraca luminescência na presença de MgATP e luciferina e possui 528 aminoácidos com sequências sinal na região N-terminal e C-terminal endereçadas a membrana do retículo endoplasmático liso. Apesar de ter uma baixa identidade (26-32%) com as luciferases de vaga-lumes, esta enzima é um modelo apropriado de protoluciferase para investigar a origem e evolução das luciferases de besouros. O sítio de ligação da luciferina é altamente conservado entre todas as luciferases de besouros; na protoluciferase de Z. morio porém, a maioria dos resíduos desta região é substituído por outros. Utilizando-se a técnica de mutagênese sitio-dirigida, alguns resíduos de aminoácidos desta protoluciferase, que são localizados na correspondente região do sítio ativo das luciferases, foram substituídos pelos resíduos conservados das luciferases. A maioria das substituições teve um efeito negativo sobre a atividade luminescente. Porém, a substituição I327T, cujo resíduo é localizado em um motivo grampo β, perto do sítio de ligação da luciferina, aumentou sua atividade luminescente. Tal substituição mostra a importância deste motivo para a atividade luciferásica e indica uma possível rota de evolução das luciferases de coleópteros. Uma vez que esta enzima foi extraída dos túbulos de Malpighi, é possível que esteja envolvida com a excreção de algum composto químico. Independente de sua função, os resultados do presente trabalho sugerem que o potencial para atividade bioluminescente é bem antigo nas ligases e provavelmente evoluíram antes da divergência das famílias de coleópteros bioluminescentes. Bioquímica Protoluciferase Zophobas morio Túbulos de Malpighi Desintoxicação metabólica AMP-CoA ligase Protoluciferase Malpighian tubules AMP-CoA ligase Detoxification CIENCIAS BIOLOGICAS::GENETICA
94	Régulation du suppresseur de tumeur : la protéine F-box Fbw7 / Regulation of the tumor suppressor : the F-box Fbw7 Zitouni, Sihem 02 December 2011 (has links) Le système ubiquitine-protéasome joue un rôle central dans le contrôle de la progression du cycle cellulaire par la dégradation régulée de nombreuses protéines. Dans ce système, Fbw7 (aussi appelée Fbxw7, hCdc4, hAgo, Sel-10), est l'une des protéines F-box qui sert d'adaptateur de substrats pour l'une des plus importantes familles d'ubiquitine ligases : les complexes SCF (Skp1/Cullin/ F-box). Fbw7 assure la dégradation de plusieurs régulateurs positifs du cycle cellulaire : la cycline E, cMyc, c-Jun, Notch, Aurora A, mTOR, MCL1. En conséquence, l'altération des fonctions de Fbw7 conduit à des défauts de prolifération cellulaire, de différenciation et à de l'instabilité génomique. La mutation de Fbw7 dans les cancers entraîne une dérégulation de l'expression périodique cycline E qui n'est alors plus restreinte à la transition G1/S du cycle cellulaire. Nos résultats montrent qu'une isoforme, Fbw7, est exprimée dans les œufs de xénope matures arrêtés en métaphase II mais n'est pas fonctionnelle, expliquant la présence de grande quantité de cycline E dans les œufs à cette phase mitotique. Nous montrons que Fbw7 est maintenue inactive sous forme poly-ubiquitylée suite à sa phosphorylation par une PKC jusqu'à la fin des cycles embryonnaires rapides, au moment où la cycline E est brutalement dégradée. Nous montrons que la régulation négative de Fbw7 par PKC est conservée au cours des cycles cellulaires somatiques des cellules humaines, et contribue à l'expression périodique de la cycline E. Ces résultats mettent en évidence un nouveau mécanisme critique pour la régulation de Fbw7 au cours du cycle cellulaire et suggèrent que les fonctions de Fbw7 peuvent être altérées par une dérégulation de PKC, un phénomène observé dans de nombreux types de tumeurs humaines. / The ubiquitin-proteasome system plays a central role in the control of cell cycle progression through the regulated degradation of numerous critical proteins. In this process, one key family of ubiquitin ligases are the SCF (Skp1/Cul-1/F-box) complexes, in which F-box-bearing proteins act as substrate-recruiting factors. Fbw7 (also known as Fbxw7, hCdc4, hAgo, Sel-10) is one such F-box protein. It controls the stability and thus the levels of several positive regulators of the cell cycle, including cyclin E, cMyc, c-Jun, Notch, Aurora A, mTOR, Mcl1. As a consequence of its biological roles, alterations of the functions of Fbw7 lead to defects in cellular proliferation, differentiation and genetic instability. As seen in cancers, mutation of Fbw7 leads to deregulation of cyclin E expression, which is no more restricted to the G1-S phase boundary of the cell cycle. Here we report that Fbw7, although expressed in mature Xenopus eggs arrested in metaphase II, is not functional, explaining why cyclin E can be stockpiled in this mitotic-like phase. We found that, in these eggs as well as in early Xenopus embryos, Fbw7 is maintained under a PKC-dependent poly-ubiquitylated state until the end of the early rapid cleavage cycles where cyclin E is abruptly degraded. Importantly, we show that this PKC-dependent negative regulation of Fbw7 is conserved during human somatic cell cycles, resulting into the periodic expression of cyclin E. These findings reveal a novel mechanism critical for the temporal regulation of Fbw7 and suggest that the key functions of Fbw7 can be altered by PKC dysregulation, a mechanism known to occur in many types of human tumours. Protéine adaptatrice F-box Fbw7 Ubiquitine ligase Cycle cellulaire Cycline E Pkc F-box proteins Fbw7 Ubiquitin ligase Cell cycle Cyclin E Pkc
95	Estudo da expressão de Arkadia, proteína E3 de ubiquitinação, em tumores de tiróide e sua relação com a via de sinalização de TGF-Beta. / Study of Arkadia expression, ubiquitination E-3 protein, in thyroid tumors and its relation to the TGF-beta signaling pathway. Eloiza de Rezende 12 May 2009 (has links) Arkadia participa do processo de amplificação da sinalização de TGF-b mediada por Smads, via degradação do I-Smad. O objetivo desse estudo foi caracterizar e investigar a influência de Arkadia em linhagens celulares de cânceres de tiróide. A expressão gênica de Arkadia em linhagens celulares de carcinomas papílifero (NPA), folicular (WRO) e anaplásico (ARO), foi avaliada por PCR quantitativo. Em ARO, que apresenta a maior expressão de Arkadia, foram identificados subclones (ARO_1 e ARO_2) com expressão diferencial de Arkadia, ARO_2>ARO_1. A expressão gênica de SMAD2, 3, 4, 7 e de genes do ciclo celular modulados por TGF-b, foi maior em ARO_2. Os subclones respondem ao tratamento com peptídeo de TGF-b1 e activina A. O crescimento in vivo (xenotransplante) mostra que ARO_2 desenvolve um tumor de menor volume. Recentemente a origem de ARO foi questionada e comprovamos sua origem por análises de expressão gênica e morfologias. Desta maneira, observamos que a expressão diferencial de Arkadia indica que ela está envolvida na modulação inibitória da via de TGF-b. / Arkadia is involved in the process of amplification of the TGF-b signaling mediated by Smads, by degradation of I-Smad. The aim of this study was to characterize and investigate the influence of Arkadia in thyroid cancers cell lines. Arkadia gene expression in the papillary (NPA), follicular (WRO) and anaplastic carcinoma cell lines (ARO) was evaluated by quantitative PCR. In ARO, which presents the highest Arkadia expression, we identified subclones (ARO_1 and ARO_2) with differential Arkadia expression ARO_2> ARO_1. The expression of SMAD2, 3, 4, 7 and the cell cycle genes modulated by TGF-b, was also higher in ARO_2. However both the subclones responded to treatment with peptide of TGF-b1 and activin A. The in vivo growth (evaluated by xenotransplant), showed that ARO_2 developed tumors of lower volume. Recently the ARO origin was questioned and we proved its origin by gene expression and morphological analysis. This way, the differential Arkadia expression indicates that it is involved in modulation of the inhibitory TGF-b pathway. Arkadia ARO Carcinoma anaplásico de tiróide E3 ubiquitina ligase TGF-beta Ubiquitinação Arkadia ARO E-3 Ubiquitin ligase TGF-beta Thyroid anaplastic carcinoma Ubiquitination
96	c-Cbl Regulates Murine Subventricular Zone-Derived Neural Progenitor Cells in Dependence of the Epidermal Growth Factor Receptor Vogt, Maximilian, Unnikrishnan, Madhukrishna Kolothara, Heinig, Nora, Schumann, Ulrike, Schmidt, Mirko H. H., Barth, Kathrin 18 September 2024 (has links) The localization, expression, and physiological role of regulatory proteins in the neurogenic niches of the brain is fundamental to our understanding of adult neurogenesis. This study explores the expression and role of the E3-ubiquitin ligase, c-Cbl, in neurogenesis within the subventricular zone (SVZ) of mice. In vitro neurosphere assays and in vivo analyses were performed in specific c-Cbl knock-out lines to unravel c-Cbl’s role in receptor tyrosine kinase signaling, including the epidermal growth factor receptor (EGFR) pathway. Our findings suggest that c-Cbl is significantly expressed within EGFR-expressing cells, playing a pivotal role in neural stem cell proliferation and differentiation. However, c-Cbl’s function extends beyond EGFR signaling, as its loss upon knock-out stimulated progenitor cell proliferation in neurosphere cultures. Yet, this effect was not detected in hippocampal progenitor cells, reflecting the lack of the EGFR in the hippocampus. In vivo, c-Cbl exerted only a minor proneurogenic influence with no measurable impact on the formation of adult-born neurons. In conclusion, c-Cbl regulates neural stem cells in the subventricular zone via the EGFR pathway but, likely, its loss is compensated by other signaling modules in vivo. info:eu-repo/classification/ddc/570 ddc:570
97	Temperature sensitive Mycobacterium tuberculosis as a potential vaccine candidate Pinto, Crystal Tina 29 June 2015 (has links) Mycobacterium tuberculosis remains one of the most common worldwide causes of illness and death due to an infectious disease. The emergence of multiple and extreme-drug resistant strains has increased the need to find an effective vaccine for tuberculosis. The goal of our research group is to engineer a temperature-sensitive (TS) M. tuberculosis strain that can be used as a tool in vaccine development. One approach to create TS M. tuberculosis involves the integration of the essential gene ligA encoding a TS NAD+ dependent DNA ligase, which was taken from the psychrophilic organism Pseudoalteromonas haloplanktis. The integration and functioning of ligA was demonstrated in the fast-growing organism Mycobacterium smegmatis. This strain had a TS phenotype with growth limited to below 37°C. The strain was found to have a stable TS phenotype and did not mutate to a temperature-resistant form at a detectable level. Following experiments with the fast growing M. smegmatis, the integration of the ligA gene was attempted in slow-growing M. tuberculosis. Merodiploids of M. tuberculosis containing both the psychrophilic and the WT ligA gene in its chromosome were obtained. The second approach used for the development of TS M. tuberculosis was the directed evolution of native M. tuberculosis essential genes. An advantage of this approach is that the gene encoding the essential protein will resemble the native M. tuberculosis gene and thus will closely match the native transcriptional and translational rates. A system to screen and select for TS essential genes engineered by directed evolution was designed, where the essential gene on the chromosome of E. coli was knocked out and this gene was supplied on a conditionally replicating plasmid. As a first step in developing this directed evolution approach, a family of conditionally replicating plasmids were created and tested in an essential gene knock-out strain of E. coli. / Graduate Mycobacterium tuberculosis vaccine temperature-sensitive directed evolution psychrophiles Tuberculosis NAD+ dependent DNA ligase
98	Action of Tyrosyl DNA Phosphodiesterase on 3'-Phosphoglycolate Terminated DNA Strand Breaks Tatavarthi, Haritha 01 January 2006 (has links) Free radical-mediated DNA double strand breaks (DSBs) are induced either directly by ionizing radiation or by certain chemicals like bleomycin. These breaks are terminated by 3'-PG (PO4CH2COOˉ) or 3'-phosphate groups formed as a result of fragmentation of deoxyribose. To study the nature of repair of these 3'-blocked breaks, we constructed substrates mimicking free-radical induced DSBs. Human and yeast tyrosyl DNA-phosphodiesterase (Tdpl) efficiently processed substrates with 3'-PGs, in either the presence or absence of magnesium, to give a 3'-phosphate. Gel filtration chromatography and western blotting codmed that the putative enzyme in human extracts that efficiently processed PG was indeed tyrosyl DNA-phosphodiesterase. When recombinant hTdpl was purified using HiTrap nickel chelating columns and its PG processing activity compared to that of partially purified native enzyme (from lymphoblastoid whole-cell extracts using Sephacryl S-300 gel filtration columns), we found that the recombinant enzyme had lesser 3'-PG removal activity than the partially purified native enzyme. On cloning recombinant FLAG-tagged hTdpl into human expression vectors, we observed that the FLAG epitope tag did not show any evidence of affecting the specificity of the enzyme. Due to the many differences between bacterial and human cells, we cloned recombinant FLAG-tagged hTdpl into U-87 cells (adenovirus infected glioma cell) and this recombinant enzyme showed the same specificity toward PG substrates as when prepared from bacteria. End-processing assays using the NHEJ proteins- Ku, DNA-PK and XRCC4/Ligase IV-alone or in combination showed an inhibition of hTdpl activity on 3'- overhangs. In nuclear extracts, hTdp1 association with XRCC1, a single-strand repair protein, showed to increase the PG-processing activity of Tdpl up to 4 times. Whole-cell extracts containing mutant Tdpl derived from patients suffering from spinocerebellar axonal neuropathy (SCAN1) were found to be deficient in PG-processing. Addition of JRLl whole-cell extract (SCAN1 extract containing mutant Tdpl) to purified FLAG-tagged hTdpl showed to decrease the phosphotyrosyl processing and increase the PG-processing of FLAG-tagged hTdpl suggesting that there must be other factors in the extract that affect the enzyme activity. Experiments carried out to check for the presence of Tdpl in mitochondrial extracts obtained from GM1310 normal human fibroblasts as well as in SCANl (JRL) mitochondrial extracts, showed that mitochondrial extracts contained Tdpl at a concentration comparable to whole-cell extracts. Our results also showed that mitochondrial extracts from the SCANl cell-line, JRL3 (containing mutant Tdpl), lacked detectable Tdpl activity suggesting that all PG-processing activity in mitochondria may be attributable to Tdpl. Sephacryl XRCC4/Ligase IV FLAG-tagged hTdpl mitochondria Medical Pharmacology Medical Sciences Medicine and Health Sciences
99	Caractérisation du domaine cytoplasmique du récepteur du facteur autocrine de motilité et formation du complexe AMFR/p97/ubiquitine Dang, Thao January 2006 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. AMFR Enzyme ligase (E3) p97 Ubiquitination Motif RING Domaine CUE ERAD
100	Rôle de l'E3 ubiquitine ligase ASB2α dans le contrôle de la réponse immunitaire anti-tumorale / Role of the E3 ubiquitin ligase ASB2α in the control of anti-tumor immune response Spinner, Camille 23 March 2018 (has links) Afin d'améliorer l'efficacité des immunothérapies anti-tumorales, il est crucial de mieux comprendre les régulations cellulaires et moléculaires contrôlant l'initiation et le maintien d'une réponse immunitaire adaptative anti-tumorale. Dans ce contexte, l'équipe a identifié l'E3 ubiquitine ligase ASB2a (Ankyrin repeat-containing protein with a SOCS Box 2 alpha) comme un régulateur de la motilité des cellules hématopoïétiques via la polyubiquitination et la dégradation par le protéasome de la Filamine A. Mon projet de thèse visait à étudier si ASB2a joue un rôle dans la mise en place et/ou le maintien de la réponse immunitaire anti-tumorale. L'analyse des données de séquençage d'ARN issues des biopsies d'une cohorte de patients atteints de cancer colorectaux révèle que l'expression d'ASB2 est plus élevée dans les sous-types de mauvais pronostic et est inversement corrélée avec la survie des patients. Dans le but de déterminer s'il existe un lien fonctionnel entre l'expression d'ASB2 et la progression du cancer du côlon, nous avons utilisé un modèle de tumeurs coliques chez des souris invalidées de façon conditionnelle et inductible pour le gène ASB2 dans les cellules hématopoïétiques. Dans un premier temps, nous avons validé la pertinence de ce modèle d'invalidation en montrant qu'ASB2a était responsable des différents niveaux de Filamine A observés entre les différentes populations de cellules dendritiques conventionnelles de la rate. J'ai ensuite démontré que l'invalidation d'ASB2 réduit le développement des tumeurs coliques, résultats en accord avec la pathologie humaine. Ce phénotype est causé par l'activation d'une réponse immunitaire anti-tumorale adaptative de type 1 plus forte chez les souris invalidées pour ASB2. L'ensemble de ces travaux mettent en évidence le potentiel d'ASB2a comme cible thérapeutique innovante dans le traitement du cancer colorectal. / In order to enhance the efficiency of anti-tumor immunotherapies, it is crucial to better understand the cellular and molecular regulations sustaining the initiation and maintenance of an adaptive anti-tumor immune response. In this context, the team identified the E3 ubiquitin ligase ASB2a (Ankyrin repeat-containing protein with a SOCS Box 2 alpha) as a regulator of hematopoietic cell mobility through the polybiquitination and proteasomal degradation of the Filamin A. My thesis project aimed to study if ASB2a plays a role in the establishment and/or maintenance of the anti-tumor immune response. The analysis of RNA sequencing derived from the biopsy of colorectal cancer patients revealed that ASB2a expression is higher in the subtypes associated with poor prognosis and is inversely correlated with patient relapse-free survival. In order to determine whether there is a functional link between ASB2 expression and colon cancer progression, we used a colorectal cancer model applied to ASB2 knockout mice in hematopoietic cells. First, we validate the relevance of this knockout model by showing that ASB2a was responsible for the different levels of Filamin A observed between the different populations of spleen conventional dendritic cells. Then, I have shown that ASB2 invalidation reduces the development of colonic tumors, in accordance with human pathology. This phenotype is due to the activation of a stronger type 1 adaptive anti-tumor immune response in ASB2 knockout mice. This study highlight the potential of ASB2a as an innovative therapeutic target in the treatment of colorectal cancer. Réponse immunitaire anti-tumorale Cancer colorectal E3 ubiquitine ligase Cellules Dendritiques Lymphocytes

Search results