Global ETD Search

71	Caractérisation d'un effecteur chez Toxoplasma gondii : découverte d'une voie alternative d'inflammation régulée par β-caténine / Parasite and host-cell interactions : Characterization of new effector proteins used by Toxoplasma gondii to interfere with host signaling pathways He, Huan 27 September 2017 (has links) Toxoplasma gondii est un parasite intracellulaire et obligatoire. Ce protozoa est un des parasites les plus successifs qui infectent tous les animaux à sang chaud, y compris l’humain. Ce succès est probablement à cause de la sécrétion d’une des séries de protéines effectrices, qui sont impliquées dans la modulation des voies de signalisation de la cellule hôte. Cette modulation permet aux parasites d’établir une infection chronique qui dure un long terme, et qui favorise leur transmission à un nouvel hôte. Dans cette étude, nous avons identifié un nouvel effecteur dérivé par la granule dense, appelé GRA18, qui est sécrété dans le cytoplasme de cellule hôte par les tachyzoites intracellulaires. La mutation de gra18 résulte une diminution de virulence chez les parasites de type II, qui suggère l’importance de GRA18 dans la pathogénicité de ce parasite. Afin d’étudier le mécanisme d’action de GRA18, nous avons effectué un criblage à haut-débit d’une librairie humaine chez la levure. Ce criblage nous permet d’identifier β-catenin, GSK3α/β, and PP2A-B56, ce qui sont tous les régulateurs bien connus dans la voie de signalisation canonicale de Wnt. Nous avons confirmé l’intéractome de GRA18 par l’approche biochimique. La surexpression de GRA18 induit l’accumulation de β-catenin dans le noyau de la cellule hôte, aussi que l’induition de gènes régulés par la signalisation de Wnt. Ces effets indiquent GRA18 joue un rôle de régulateur positif de β-catenin. A part de son rôle dans la prolifération, polarisation et la différentiation de cellule, β-catenin est également un facteur de transcription connu pour contrôler la réponse immunitaire et l’inflammation. L’analyse transcriptomique en comparant les macrophages dérivés par la moelle osseuse (BMDM) infectés par le sauvage (WT) et le gra18 mutant parasites confirme un rôle possible de GRA18, la modulation d’expression génique de cellule hôte, surtout ceux qui codent pour les chemokines. Cette régulation est ensuite confirmée par l’ELISA. L’hypothèse possible est que Toxoplasma sécrète GRA18 dans la cellule hôte afin de réguler positivement la production de chemokine reliée à la réponse de Th2, qui par contre atténue la réponse inflammatoire de l’hôte. Cette modulation augmente la chance de dissémination et la persistance de ce parasite par la formation de kyste. / Toxoplasma gondii, the obligate intracellular protozoan parasite, is one of the most successful pathogen that infects virtually all warm-blooded animals including humans. This success of the infection is likely due to its perfect ability to modulate numbers of host signaling pathways through the effector proteins, including those involved in immune responses. This modulation allows the parasite to establish a long-term chronic infection without causing severe symptom in the hosts, which facilitates its transmission to the new hosts. In this study, we identified GRA18, as a novel dense granule derived effector protein that is secreted into the cytoplasm of the host cell by the intracellular tachyzoite. GRA18 deficiency in type II strains attenuated the parasite virulence in mice model, suggesting the importance of GRA18 in the parasite pathogenesis. In order to investigate the mechanism of action of GRA18, we first performed a high-throughput two-hybrid screen of a human library in yeast that led to the identification of β-catenin, GSK3α/β, and PP2A-B56, all which are well known regulators of the canonical Wnt signaling pathway. We then validate the GRA18 interactome by biochemistry approach. The overexpression of GRA18 triggers the accumulation of β-catenin in the host cell nuclei as well as the induction of known canonical β-catenin target genes indicating that GRA18 is acting as a positive regulator of β-catenin. Besides its role in cell proliferation, polarization and differentiation, β-catenin is also a well-known co-transcription factor with important function in the control of inflammation and other immune responses. Transcriptomic analysis comparing mouse bone marrow–derived macrophages infected by wild type and GRA18-dificient parasite confirmed a possible role of GRA18 towards host gene expression and likely those encoding chemokines, which is further confirmed by ELISA experiments. An attractive hypothesis is that Toxoplasma delivers GRA18 to the host cell in order to regulate Th2-related chemoattractant chemokines, which in turn, dampens host inflammatory response leaving more chance for the parasites to disseminate and to cause the long-term persistence by forming the cyst. Toxoplasma gondii Protéine effectrice Interactions hôte-parasite Toxoplasma gondii Effector protein Host-parasite interaction 570
72	Contribution of TAL effectors in Xanthomonas to diseases of rice and wheat Peng, Zhao January 1900 (has links) Doctor of Philosophy / Plant Pathology / Frank F. White / Rice and wheat are two major crops that suffer losses from the diseases of bacterial blight and bacterial leaf streak, which are caused by Xanthomonas oryzae pv. oryzae (Xoo) and Xanthomonas translucens pv. undulosa (Xtu), respectively. Transcriptional-Activator Like (TAL) effectors, a special family of type III effector proteins from Xanthomonas, have been demonstrated as critical virulence factors that act by inducing corresponding susceptibility (S) genes in several disease complexes of plants. In this study, I analyzed the contributions of TAL effectors from Xoo and Xtu to virulence and in modulating host gene expression to enhance susceptibility. Specifically, the TalC effector from the African Xoo strain AXO1947 was identified as a critical virulence factor, which functions by promoting expression of the gene OsSWEET14 in rice. TalC is interchangeable with other major TAL effectors from Asian strains of Xoo on the basis of functional complementation. The TAL effector PthXo2 from the Asian Xoo strain JXO1 is a major virulence factor and contains 21.5 repeats in the central repetitive region that targets OsSWEET13 in indica rice varieties but not in japonica rice varieties. A one repeat deletion in the PthXo2 effector enabled effector specificity to switch from indica rice to japonica rice. TAL effector genes from a genomic analysis of the Xtu strain XT4699 and related strains were characterized with regards to their involvement in virulence and the modulation of host gene expression in the Chinese Spring wheat cultivar. The identification of TAL effectors with virulence contributions and their target S genes is important for understanding the virulence mechanisms of Xanthomonas bacteria and promises to provide new strategies for disease control. Xanthomonas Transcriptional activator-like effector Bacterial blight of rice Bacterial leaf streak of wheat Plant Pathology (0480)
73	Estudos funcionais e bioquímicos sobre o reconhecimento e inibição de efetores de um sistema de secreção tipo IV de Xanthomonas citri subsp. citri. / Functional and biochemical son the recognition and Inhibition of effectors of a Type IV secretion System of Xanthomonas citri subsp. citri Gabriel Umaji Oka 03 October 2017 (has links) Sistemas de Secreção Tipo IV (T4SSs), normalmente compostos por 12 proteínas (VirB1-VirB11 e VirD4) são tipicamente associados às funções de conjugação bacteriana e transferência de fatores de patogenicidade para células hospedeiras. Mas também, muitas espécies da ordem Xanthomonadales possuem um T4SS associado a matar bactérias. O modelo atual de morte de uma célula-alvo mediada pelo T4SS é baseado na secreção de toxinas denominadas XVIPs (\"Xanthomonas VirD4 interacting proteins\") ou X-Tfe (Xanthomonadaceae-T4SS effector) no qual cada XVIP/X-Tfe apresenta uma proteína de imunidade cognata denominada X-Tfi (Xanthomonadaceae-T4SS immunity protein). Demonstramos que um XVIP, XAC2609, é secretado através do T4SS de modo que depende de contato célula-célula e do seu domínio XVIPCD (\"XVIP conserved domains\"). A porção N-terminal de XAC2609 codifica um domínio GH19 que cliva a peptideoglicana de E. coli, mas perde a sua atividade na presença do seu inibidor cognato, o X-Tfi XAC2610. Portanto, XAC2609/XAC2610 formam um par de proteínas efetora/imunidade associado ao T4SS de X. citri. Através de diferentes técnicas de microscopias utilizando a cepa Δxac2610, foi observado que XAC2610 protege o envelope celular de X. citri contra efeitos de autólise celular promovidos pela atividade de XAC2609. Ensaios funcionais baseados nas observações de fenótipos de colônias e de formação de biofilme mostraram que XAC2610 confere imunidade para X. citri contra uma atividade 7 intrínseca de XAC2609. A proteína com o papel de reconhecer os substratos através da interação com os sinais de secreção do T4SS é VirD4. No T4SS de X. citri, existe a hipótese de que o domínio XVIPCD seja o sinal de secreção presente nas XVIPs. Logo, os aspectos bioquímicos e biofísicos da interação VirD4-XVIPCD foram investigados através de experimentos de co-purificação por cromatografia de afinidade e exclusão molecular, RMN e SAXS. Demonstramos que o domínio AAD de VirD4 (VirD4AAD) está associado a interagir especificamente com o domínio XVIPCD de XAC2609 (XAC2609XVIPCD), formando um heterodímero em solução. VirD4AAD é um domínio globular e monomérico e XAC2609XVIPCD é desenovelado mas se enovela concomitante à interação com VirD4AAD. Construções de XAC2609 contendo mutações pontuais no domínio XVIPCD foram utilizadas em ensaios in vivo de secreção pela X. citri e ensaios in vitro de interação com VirD4AAD por titulação monitorada por calorimetria isotérmica (ITC). Através desses experimentos, observamos que uma forte interação entre VirD4AAD-XAC2609XVIPCD é essencial para secreção de XAC2609 via o T4SS. Esses resultados permitem concluir que o domínio XVIPCD é o sinal de secreção dos substratos do T4SS de X. citri e que o AAD confere especificidade à VirD4 por interagir com o XVIPCD. Finalmente, através de ensaios de competições bacterianas entre E. coli e X. citri, foram observados diferentes fenótipos associados à função do T4SS: i) nocautes gênicos das subunidades estruturais VirB5, VirB11 abolem a função do T4SS em X. citri.; ii) nocautes de xac2611, apresentaram uma maior vantagem adaptativa do que a cepa selvagem de X. citri em competições e a expressão epissomal de XAC2611 inibe fortemente a função do T4SS e iii) a atividade ATPásica de VirD4 é essencial para a função do sistema e a expressão de mutantes 8 de VirD4 exerce um fenótipo de dominância negativa sobre a função do T4SS em X. citri. / The Type IV secretion System (T4SS) is typically associated with the function of bacterial conjugation and as a pathogenicity factor. T4SSs are normally composed of 12 proteins, VirB1-VirB11 and VirD4. Many species of the order Xanthomonadales possess a T4SS associated with killing bacteria. The current model of the T4SS killing is based on the secretion of toxins denominated XVIPs/X-Tfes (Xanthomonas VirD4 interacting proteins) /(Xanthomonadaceae-T4SS effector) in which each XVIP/X-Tfe has a cognate immunity protein denominated X-Tfi (Xanthomonadaceae-T4SS immunity protein). We demonstrate that an XVIP, XAC2609, is secreted through the T4SS so that it depends on cell-cell contact and its XVIPCD domain (\"XVIP conserved domains\"). The N-terminal portion of XAC2609 encodes a GH19 domain which cleaves the E. coli peptidoglycan but loses its activity in the presence of its cognate inhibitor, X-Tfi XAC2610. Therefore, XAC2609 /XAC2610 form a pair of effector/immunity proteins associated with X. citri T4SS. By using the X. citri Δxac2610 strain, has been shown through different microscopic techniques that XAC2610 protects the cell envelope of X. citri against the effects of cellular autolysis promoted by XAC2609 activity. Functional assays based on observations of colony phenotypes and biofilm formation has shown that XAC2610 confers immunity to X. citri against an intrinsic activity of XAC2609. VirD4 is the protein that recognizes the substrates through the interaction with the T4SS secretion signals. In the T4SS of X. citri, is hypothesized that the XVIPCD domain is the secretion signal present in the XVIPs. Here, the biochemical and biophysical aspects of the VirD4-XVIPCD interaction were investigated through Pull- Down, Molecular Exclusion Chromatography, NMR and SAXS assays. It has been shown the AAD domain of VirD4 (VirD4AAD) is associated with specifically interacting with the XAC2609XVIPCD domain (XAC2609XVIPCD), forming a heterodimer in solution. VirD4AAD is a globular and monomeric domain while XAC2609XVIPCD is elongated, but upon interaction with VirD4AAD goes through structural compaction process. Constructs of XAC2609 containing point mutations in the XVIPCD domain were used to perform secretion experiments in X. citri and Isothermal titration calorimetry against VirD4AAD. Through these assays, it has been characterized that a strong interaction between VirD4AAD-XAC2609XVIPCD is essential for secretion of XAC2609 via T4SS. Consequently, these results allow concluding that the XVIPCD domain is the secretion signal of X. citri T4SS substrate and the AAD confer specificity to VirD4 by interact with the XVIPCD domains. Finally, bacterial competitions between E. coli and X. citri showed different phenotypes associated with T4SS function: i) virB5, virB11 knockouts abolish the function of T4SS in X. citri.; ii) knockouts of xac2611 exhibited a higher adaptive efficiency than the wild-type X. citri strain in competitions, but the expression of XAC2611 abolishes the function of T4SS in the wild strain of X. citri; iii) The ATPase activity of VirD4 is essential and exerts a negative dominance over the T4SS function in X.citri. Efetor-Imunidade Secreção T4SS VirD4 Xanthomonas XVIPCD Effector-Immunity Secretion T4SS VirD4 Xanthomonas XVIPCD
74	下側接近を特徴とする定置型イチゴ収穫ロボットの開発 / Development of a Stationary Robotic Strawberry Harvester with Picking Mechanism that Approaches Target Fruit from Below 山本, 聡史 24 January 2011 (has links) This study explored the development of a stationary robotic strawberry harvester that was combined with a movable bench system as part of the development of an industrially production system for a strawberry in a plant factory. At first the difficulty of approaching target fruit was investigated using table-top plants cultured in a greenhouse. Then the maximum force needed to separate fruit from the peduncle was measured. Based on these results, an end-effector was designed with three unique functions; (1) suction cup was vibrated to minimize the influence of the adjoining fruits at the time of approach; (2) compressed air was blown toward the adjoining fruits to force them away from the target fruit; (3) peduncle was removed with the motion of tilting and pulling the target fruit. Next, an optical system to equip the machine with the ability to detect and determine the position and coloration of strawberry fruit was constructed. The position of the fruit was detected from below with a stereo-camera. The coloration measurement unit was set against the bed of the movable bench system at fruit level to capture images of target fruit. Considering the spectral reflectance characteristics of strawberry fruit, the coloration measurement unit was equipped with red, green, and white LEDs. Finally the stationary robot was tested in an experimental harvesting system in which the robot was combined with a movable bench unit. In the experiment system, the stationary robot enabled highly stable harvesting operation. / Kyoto University (京都大学) / 0048 / 新制・論文博士 / 博士(農学) / 乙第12528号 / 論農博第2747号 / 新制\|\|農\|\|988(附属図書館) / 学位論文\|\|H23\|\|N4584(農学部図書室) / 28350 / (主査)教授近藤直, 教授清水浩, 准教授飯田訓久 / 学位規則第4条第2項該当 strawberry movable bench harvest stationary robot machine vision end-effector 610
75	Création de résistance à large spectre contre la bactériose foliaire du riz au Mali / Engineering broad resistance tailored against Rice Bacterial Leaf Blight in Mali Doucoure, Hinda 28 November 2017 (has links) Xanthomonas oryzae pv. oryzae (Xoo), l'agent causal de bactériose vasculaire du riz (BLB), injecte des protéines de liaison à l'ADN, appelées Transcription Activator-Like Effectors (TALEs) dans les cellules hôtes afin de moduler l'expression de gènes cibles. Certains TALEs agissent comme des facteurs de virulence majeurs, indispensables à la mise en place du BLB et ciblent des gènes de sensibilité du riz. Les TALEs majeurs de Xoo ciblent universellement les gènes de sensibilité de la famille SWEET. Il existe dans la nature un polymorphisme des séquences ADN des gènes SWEET reconnues par les TALEs qui confère une résistance à la maladie. L’utilisation de la technologie TALEN a permis d'introduire artificiellement ce type de mutation dans le promoteur du gène de sensibilité SWEET14 le rendant insensible aux TALEs et conférant une résistance à certaines souches de Xoo asiatiques. La caractérisation des populations de Xoo africaines montrent qu'elles sont distinctes de celles d’Asie. L’objectif du projet de thèse était de créer à l'aide des technologies d'édition des génomes des sources de résistances efficaces contre un large panel de Xoo maliennes.Dans une première partie, l'édition des boites ADN de SWEET14 ciblées par des TALEs majeurs de souches africaines a effectivement permis d'obtenir des résistances contre les souches utilisant le TALE TalF (initialement appelé Tal5) mais pas contre celles utilisant TalC. La caractérisation du répertoire de TALEs des souches maliennes par des approches fonctionnelles (sensibilité des lignées éditées, expression de SWEET14 et autres gènes cibles de TALEs) et in silico (séquençage du génome de 8 souches) à révélé une diversité fonctionnelle de ces répertoires et la présence simultanée quasi systématique de versions actives et redondantes de TalF et TalC. La caractérisation de la sensibilité de variétés de riz locales aux souches de Xoo maliennes a montré que ces dernières possèdent un large spectre de virulence et qu'à une exception près, toutes les variétés testées sont sensibles au BLB. L'édition en multiplex par la technique CRISPR/Cas9 des boites TalF et TalC a aboli l'induction de SWEET14 en réponse à une souche malienne. Cependant, les lignées correspondantes sont restées sensibles à cette souche. Dans la dernière partie, pour expliquer ce résultat, nous avons postulé l'existence d'au moins un gène de sensibilité, cible de TalC et redondant avec SWEET14. Une approche bioinformatique a permis d'identifier un locus dont plusieurs caractéristiques en faisaient un candidat intéressant. Ce locus, nommé ATAC (pour Alternative TalC Target) est composé de deux gènes, ATAC1 et ATAC2 induits de façon bidirectionnelle par TalC. Nous avons montré qu'ATAC2, qui code pour un facteur de transcription bHLH atypique potentiellement impliqué dans l’élongation cellulaire et l'immunité chez le riz, se comporte comme un locus de sensibilité lorsqu'il est induit par des TALE artificiels dans un système gain de fonction. Nous avons édité simultanément le promoteur SWEET14 et le locus ATAC. Ces éditions devraient empêcher la reconnaissance du promoteur SWEET14 et du locus ATAC par TalC et TalF afin de conférer une résistance large au BLB au Mali. / Xanthomonas oryzae pv. oryzae (Xoo), the causal agent of bacterial leaf blight of rice (BLB), injects DNA binding proteins called Transcription Activator-Like Effectors (TALEs) into host cells to manipulate plant genes expression. Some TALEs behave as major virulence factors essential for BLB to occur by binding directly to target DNA boxes of rice susceptibility genes and inducing their expression. Xoo major TALEs universally target susceptibility genes of the SWEET family. In nature, polymorphism in the DNA sequence of SWEET genes recognized by TALEs confers resistance to BLB. Using the TALEN technology, this type of mutations has been artificially introduced in the promoter of the SWEET14 susceptibility gene to make it TALE-unresponsive and confer resistance to some Asian Xoo. The characterizations of Malian Xoo populations show that they are distinct from the Asian ones. The PhD project aimed to create broad tailored BLB resistance against Malian Xoo using genome editing technologies.First, editing SWEET14 DNA boxes targeted by major TALEs of African strains indeed yielded resistance against strains relying on TalF (initially named Tal5) but not against those relying on TalC. The characterization of Malian strains TALE repertoires using functional (edited lines susceptibility assays, SWEET14 and other TALE target expression studies) and in silico (genome sequencing of 8 strains) approaches uncovered functional diversity in these repertoires and, the almost systematic, simultaneous presence of active and redundant versions of TalF and TalC. In susceptibility assays of local rice varieties, Malian Xoo strains exhibited a broad virulence spectrum and, with one exception, all tested varieties were susceptible to BLB. Multiplex editing of TalF and TalC target boxes with the CRISPR/Cas9 technology abolished SWEET14 induction in response to a Malian strain. However the corresponding rice lines remained susceptible to this strain. Finally, to explain these results, we postulated the existence of, at least, a TalC target susceptibility gene redundant with SWEET14. Bioinformatics analysis identified a rice locus with several features electing it as a high priority candidate. This locus named ATAC (Alternative TalC Target) is composed of two genes, ATAC1 and ATAC2, bidirectionally upregulated by TalC. We further showed that ATAC2 which is predicted to code for an atypical bHLH transcription factor potentially involved in rice cell elongation and immunity, behaves as a susceptibility gene upon artificial TALEs-mediated induction in a gain of function assay. We used the CRISPR/Cas9 system to simultaneously edit the SWEET14 promoter and the ATAC locus. These mutations should prevent the recognition of the SWEET14 promoter and the ATAC locus by TalC and TalF, compromise their transcriptional induction and ultimately provide broad BLB resistance in Mali. Riz Xanthomonas Maladie Resistance Effecteur TAL Edition des génomes Rice Xanthomonas Disease Resistance TAL Effector Genome editing
76	Targeted delivery of embelin to cancer cells Emjedi, Zaakiyah Z. January 2013 (has links) >Magister Scientiae - MSc / Apoptosis or programmed cell death is vital to the development of organisms as they maintain the balance between cell death and cell growth. Failure to activate apoptosis has been implicated in carcinogenesis and often results from the over expression of anti–cancer proteins such as the X–linked inhibitor of apoptosis protein (XIAP). XIAP is over expresses in certain cancers and is a potent inhibitor of the initiator caspase 9 and effector caspases 3 and 7. The increased expression of XIAP in cancer cells result in the resistance to apoptosis. The control of XIAP is therefore considered as a target for anti–cancer drug development. Embelin or 2,5–dihydroxy–3–undecyl–1,4–benzoquinoine is a dihydroxyquinone compound that was previously shown to inhibit XIAP. This drug was discovered by structure based computational screening. The binding of embelin to XIAP displaces XIAP from caspases, consequently eliminating the inhibitory effect of XIAP on apoptosis. The objective of this study was to develop a gold nanoparticle that can be used for the targeted delivery of embelin to cancer cells thereby enhancing pro–apoptotic effects of the pro–apoptotic drug, ceramide. XIAP expression levels were investigated by Western blot analysis in a panel of human cancer cell lines available in the laboratory to identify two cell lines that can be used as low and high XIAP expression controls. Gold nanoparticles were synthesized and conjugated with embelin and a cancer targeting peptide with the amino acid sequence LTVSPWY. The biconjugated nanoparticles were used to co–treat MCF7 and HepG2 cells with ceramide. Apoptosis was quantified using flow cytometry. The uptake of gold nanoparticles was investigated using HR–TEM and ICP–OES. This study showed that gold nanoparticles conjugated with the LTVSPWY peptide is specifically targeted to and taken up by cancer cells. Gold nanoparticles conjugated with embelin promoted ceramide induced apoptotic cell death of cancer cells. However, it was observed that gold nanoparticles biconjugated with the LTVSPWY peptide and embelin failed to enhance the pro–apoptotic effects of ceramide. iii This study successfully demonstrated that gold nanoparticles conjugated with embelin could be used to enhance the effects of anti–cancer drugs using ceramide as an example.
77	Identificação e análise funcional de interações proteína-proteína do sistema de secreção do tipo III do Xanthomonas axonopodis pv. citri<I/> / Identification and functional analysis of protein-protein interactions of type III secretion system of Xanthomonas axonopodis pv. citri<I/> Paola Alejandra Cappelletti 28 July 2010 (has links) O cancro cítrico é considerado na atualidade uma das doenças mais perigosas e prejudiciais à citricultura brasileira e mundial, devido aos danos causados na produção e qualidade dos frutos, sendo a Xanthomonas axonopodis pv. citri (Xac) a bactéria fitopatogênica responsável por tais prejuízos. Nosso laboratório iniciou estudos de identificação e análise funcional das interações proteína-proteína de Xac envolvendo sistemas importantes para sua patogenicidade (Alegria et. al., 2004). Nosso objetivo principal foi o estudo funcional e fisiológico de interações já identificadas entre proteínas do sistema de secreção do tipo III (T3SS) da Xac. O foco de nossa pesquisa foi tentar desvendar a importância biológica, na patogenicidade de Xac, das interações proteína-proteína: HrpB2-HrcU; HpaA-HpaB-HrcV; HrpD6-HrpB1- HrpW. Com este intuito clonamos, expressamos e purificamos as proteínas recombinantes. Produzimos soros policlonais específicos contra cada uma das proteínas citadas acima. Estudamos a interação entre as proteínas in vitro por meio de técnicas como Far-Western Blot, Pull Down, fluorescência e dicroísmo circular. Outro enfoque do nosso trabalho foi monitorar a contribuição individual destas proteínas no desenvolvimento da doença in planta. Para isso produzimos cepas de Xac mutantes para os genes hrpB2, hrcU, hpaA, hpaB, hrpB1 e hrpG. Os nocautes não polares foram infiltrados em plantas de laranja pêra, assim como também as cepas de complementação correspondentes, e assim foi testada a habilidade de desenvolver o cancro cítrico e/ou reverter os sintomas da doença. Também foi monitorada a capacidade de multiplicação e sobrevida in planta das cepas Xac ΔhrpB2, ΔhrcU e ΔhpaB, assim como a secreção das proteínas HrpB2 e HpaA pelo T3SS de Xac. Estudamos com mais detalhe a possível função de HrpB2 no T3SS de Xac, desenvolvendo experimentos para determinar a região da proteína imprescindível para sua função permanecer inalterada. Realizamos mutações sítio dirigidas, a fim de introduzir códons de terminação em diferentes regiões da proteína e testar a habilidade desses fragmentos de reverter os sintomas da doença na planta. Monitoramos a capacidade de proteínas mutantes de reverter fenótipos de patogenicidade em citrus, ausentes na cepa Xac ΔhrpB2 e revertidos na cepa de complementação Xac ΔhrpB2+pUFR047_hrpB2. Desta maneira, determinamos que os últimos seis aminoácidos de HrpB2 estão envolvidos no desenvolvimento da/s função/ões em Xac. / Citrus canker, caused by the bacterial pathogen Xanthomonas axonopodis pv citri (Xac), is a disease with significant economic consequences for the Brazilian and global citrus industry due to reductions in production and fruit quality. Our laboratory has initiated studies for the identification and functional analysis of protein-protein interactions involving Xac systems involved in pathogenicity (Alegria et. al., 2004). One objective has been to study functional and physiological interactions between proteins that make up the Xac Type III secretion system (T3SS). The focus of the present study is to unravel the biological significance in Xac pathogenicity of the following previously identified protein-protein interactions: HrpB2-HrcU; HpaA-HpaBHrcV; HrpD6-HrpB1-HrpW. With therefore cloned, expressed and purified the above-mentioned recombinant proteins. Specific polyclonal serum were produced and interactions between the proteins were studied in vitro using a variety of methods, including Far-Western Blot, Pull Down, fluorescence and circular dichroism. To monitor the individual contribution of these proteins in disease development in planta, we produced mutant Xac strains in which the hrpB2, hrcU, hpaA, hpaB, hrpB1 and hrpG genes were disrupted. The nonpolar knockouts as well as the corresponding complementation strains were infiltrated into Citrus sensensis plants and the development of citrus canker symtoms and bacterial proliferation in planta was evaluated. We also evaluated the T3SS-dependent secretion of proteins HpaA and HrpB2 by these Xac mutant strains. Structure-function relationships of the HrpB2 protein were studied in more detail. We developed experiments to determine the region of the protein essential for its function. We produced a series of hrpB2 mutants which were used to complement the hrpB2 knockout strain and evaluated their abilities to reverse the symptoms of the disease in the plant. The results demonstrate that the last six amino acids HrpB2 are important for its function in the development of disease symptoms by Xac. Citricultura Patogenicidade Pilus Proteínas efetoras T3SS Xanthomonas Citrus industty Effector Proteins Pathogenicity Pilus T3SS Xanthomonas
78	L’effecteur Avh195 de Phytophthora parasitica : antagoniste de l’autophagie chez l’hôte et promoteur du processus infectieux / The Phytophthora parasitica effector Avh195 : an antagonist of host autophagy and promoter of the infection cycle Testi, Serena 26 October 2018 (has links) L’agent pathogène Phytophthora parasitica est un oomycète qui a des effets dévastateurs sur l’agriculture et les écosystèmes naturels. En tant qu'organisme hémi-biotrophe, il infecte les racines des plantes en établissant d'abord un contact intime avec les cellules hôtes (biotrophie) avant de les tuer (nécrotrophie) et de terminer son cycle d'infection. Pour contrôler ces processus, les oomycètes sécrètent des protéines effectrices, qui sont internalisées dans les cellules végétales par un motif de translocation (appelé RxLR-EER) pour manipuler la physiologie et les réponses immunitaires de l'hôte. Les études des échanges moléculaires entre Phytophthora parasitica et la plante qui ont été menées par le laboratoire d'accueil ont permis d'identifier un effecteur RxLR, dénommé Avh195. La séquence en acides aminés de l'effecteur est caractérisée par la présence de cinq motifs AIM (« ATG8 Interacting Motive ») qui indiquent une interaction potentielle avec la protéine centrale de l’autophagie, ATG8. Avh195 co-localise avec la fraction membranaire de l'ATG8, et un système double-hybride en levure permettant la détermination d’interactions entre protéines membranaires, a confirmé une interaction non sélective entre Avh195 et plusieurs isoformes d'ATG8. La caractérisation de la perturbation de l'autophagie dépendante de Avh195 a été réalisée dans l'algue unicellulaire Chlamydomonas reinhardtii après génération de lignées transgéniques surexprimant l'effecteur. Les analyses par cytométrie de flux ont révélé que Avh195 ne modifie pas la physiologie et la « fitness » de l'algue dans des conditions de croissance normales et pendant l'autophagie induite par la rapamycine. La microscopie électronique à transmission a révélé que l'effecteur provoque dans les cellules de l’algue un retard dans le flux autophagique, se traduisant par une réduction de la coalescence et de la clairance des vacuoles et une forte accumulation d'amidon dans les chloroplastes. Cependant, ce phénotype est transitoire et seulement légèrement lié aux modifications de la régulation transcriptionnelle de la machinerie autophagique. L'analyse de la fonction effectrice chez les plantes a montré que Avh195 retarde le développement de la mort cellulaire hypersensible, déclenchée par un éliciteur d’oomycète. Cette activité dépend de trois AIM sur cinq, ce qui renforce encore l’importance de l’interaction Avh195-ATG8 pour la fonction de l’effecteur. La surexpression stable d'Avh195 chez A. thaliana a permis de déterminer que l'effecteur n'altère pas les réponses immunitaires des plantes, mais favorise globalement le développement de l'agent pathogène, accélérant le passage de la biotrophie à la nécrotrophie au cours de l'infection. À notre connaissance, le travail présenté dans cette thèse représente la première preuve qu'un effecteur d’oomycète possède une activité transitoire, ciblant de manière non sélective la protéine ATG8 dans différents organismes photosynthétiques pour ralentir le flux autophagique, favorisant ainsi le mode de vie hémi-biotrophe d'un agent pathogène. / The plant pathogen Phytophthora parasitica is an oomycete with devastating impact on both agriculture and natural ecosystems. As a hemi-biotrophic organism it infects the roots of plants first establishing an intimate contact with host cells (biotrophy) before killing them (necrotrophy) and completing its infection cycle. To control these processes, oomycetes secrete effector proteins, which are internalized in plant cells by a translocation motif (called RxLR-EER) to manipulate the physiology and the immune responses of the host. Studies of the molecular exchanges between Phytophthora parasitica and the plant that were conducted by the hosting laboratory led to the identification of an RxLR effector, designed to as Avh195. The amino acid sequence of the effector is characterized by the presence of five AIMs (ATG8 interacting motifs), that indicate a potential interaction with the autophagic core protein, ATG8. Avh195 colocalizes with the membrane-bound fraction of ATG8, and a yeast two-hybrid system, which allows to determine interactions between membrane proteins, confirmed a non-selective interaction between Avh195 and several ATG8 isoforms. The characterization of Avh195-dependent autophagy perturbation was carried out in the unicellular alga Chlamydomonas reinhardtii after generation of transgenic lines overexpressing the effector. Analyses by flow cytometry revealed that Avh195 does not modify the physiology and fitness of the alga, both under normal growth conditions and during rapamycin-induced autophagy. Transmission electron microscopy of cells revealed that the effector provokes a delay in the autophagic flux, manifested as a reduced coalescence and clearance of autophagic vacuoles and a strong accumulation of starch in chloroplasts. However, this phenotype was transient and only slightly related to modifications in the transcriptional regulation of the autophagic machinery. The analysis of effector function in planta showed that Avh195 delays the development of hypersensitive cell death, which is triggered by an oomycete elicitor. This cell death-delaying activity is dependent on three out of five AIMs, further consolidating the importance of the Avh195-ATG8 interaction for the function of the effector. The stable overexpression of Avh195 in A. thaliana allowed to determine that the effector does not impair plant defense responses, but overall promotes the development of the pathogen, accelerating the switch from biotrophy to necrotrophy during infection. To our knowledge, the work presented in this thesis represents the first evidence for an oomycete effector to possess a transitory activity, which targets in a non-selective manner the protein ATG8 in different organisms from the green lineage to slow down autophagic flux, thus promoting the hemibiotrophic life style of a pathogen. Plante Phytophthora parasitica Effecteur Autophagie Chlamydomonas reinhardtii Plant Phytophthora parasitica Effector Autophagy Chlamydomonas reinhardtii
79	Patient and disease precursors and clinical predictors of prolonged cytopenias in patients with aggressive B-cell non-Hodgkin's lymphoma treated with chimeric antigen receptor T-cell therapy Saucier, Anna 29 November 2020 (has links) INTRODUCTION: Chimeric antigen receptor (CAR) T-cell therapy is a new treatment for hematologic malignancies including aggressive B-cell non-Hodgkin’s lymphoma (NHL). Although it has provided an effective treatment option for patients who have few options, CAR T-cell therapy does have many associated toxicities. Prolonged cytopenias are one of the lesser understood toxicities that can affect upwards of 40% of patients. METHODS: In this retrospective study, we reviewed 106 patients who received commercial CAR T-cell therapy between November 2017 and September 2019. Prolonged cytopenias were defined as having absolute neutrophil count (ANC) <1000/mm3, platelets (PLT) <50,000/mm3, and/or hemoglobin (Hgb) <10 g/dL at least once after 30 days post-CAR T-cell infusion. Furthermore, if only one incidence of cytopenia was recorded 30 days post infusion, we required that the patient had to have received either a transfusion or granulocyte-colony stimulating factor (GCSF) after the date of the recorded cytopenic value to be considered a part of the cytopenic cohort. RESULTS: 22 patients met the criteria of having prolonged cytopenias. 64% of the cytopenic cohort had >1 type of prolonged cytopenias. Anemia was the most prevalent affecting 72% of cytopenic patients. The length of time from diagnosis of aggressive B-cell NHL to date of CAR T-cell infusion was found to be positively correlated with an increased risk of developing prolonged cytopenias following CAR T-cell therapy. Additional risk factors associated with an increased risk of delayed cytopenias by univariate analysis included neutropenia on the day of infusion (day 0), a high C-reactive protein (CRP) before lymphodepletion and on day 0, day 0 PLT count, and Hgb before lymphodepletion and on day 0. On multivariate analysis, only high CRP before lymphodepletion was associated with an increased risk of prolonged cytopenias while high ferritin and PLT values on day 0 were associated with not developing prolonged cytopenias. There was no statistical difference between the cytopenic and non-cytopenic cohorts in rates of progression free survival (PFS) and overall survival (OS). Also, no difference was seen in rates or severity of other toxicities between cohorts. 41% of the cytopenic cohort experienced infectious complications post-infusion with one patient dying from their infectious complications. However, there was no association with incidence of infection and prolonged cytopenias when compared to the incidence of infection in the non-cytopenic cohort. CONCLUSIONS: A longer time from diagnosis of aggressive B-cell NHL to time of CAR T-cell infusion was associated with prolonged cytopenias while the number of lines of prior chemotherapy and rate of prior high dose chemotherapy with an autologous stem cell transplant (HD-ASCT) were not associated. It would be valuable to confirm this association and why it is associated since the other two factors were not. We lacked bone marrow biopsies before CAR T-cell infusion and did not have bone marrow biopsies for many patients after CAR T-cell infusion. It would be beneficial to collect data regarding bone marrow biopsies from these time points to highlight any changes that could be related to CAR T-cell therapy. Cytogenetic information of individual patient’s diseases would be worth analyzing to help determine if there are biological factors associated with prolonged cytopenias in response to CAR T-cell therapy. Additional studies should investigate the laboratory values we found to have associations with either cohort to help identify possible predictive values providers could use to identify patients at higher risk of having prolonged cytopenias. There is also a need to see if specific prior chemotherapy regimens increase a patient’s risk of having prolonged cytopenias. Overall, since prolonged cytopenias after CAR T-cell infusions have not been heavily investigated, further investigation is needed to better understand the predictive factors and identify possible mechanisms of prolonged cytopenias seen in CAR T-cell patients. Oncology Aggressive B-cell CAR T-cell therapy Cytopenia Immune effector cell therapy Lymphoma
80	Návrh pracoviště s průmyslovým robotem pro zakládání objektů do soustruhu / Design of a Robotic Cell for Object Placement into a Lathe Baláková, Marie January 2017 (has links) This diploma thesis deals with the design of a workplace concept for the purpose of machining semifinished bolts used in automotive industry. The workplace includes a special purpose machine, input and output slip and robotic handling. Layout of the workplace is also part of the work. Further, the work is focused on the specific design of the special purpose machine and the 6th-axis robot gripping end effector is more detailed.

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