Identifizierung und Charakterisierung des Effektorproteins CPn1020 von <i>Chlamydophila pneumoniae</i> / Identification und characterisation of the effector protein CPn1020 of <i>Chlamydophila pneumoniae</i>

Polch, Tobias

20 December 2006

No description available.

610 Medizin, Gesundheit

Medicine

Chlamydophila pneumoniae

Typ-III-Sekretion

Effektorprotein

Chlamydophila pneumoniae

Typ-III-Secretion

Effector protein

44.43

MED 331: Medizinische Mikrobiologie

CD8 T cell differentiation during immune responses

De Campos Pereira Lemos, Sara Sofia

23 May 2014

CD8 T cells are essential for the elimination of intracellular pathogens and tumor cells. Understanding how naïve CD8 T cells differentiate into effector cells capable of eliminating pathogens and to generate adequate memory cells during immune responses is fundamental for optimal T cell vaccine design. In this PhD thesis work we addressed two central questions: 1) What are the mechanisms by which early effector T cells could act as pro-inflammatory effectors? And what is their role in the immune response? 2) How heterogeneous are CD8 responses? Could different pathogens modulate CD8 T cell differentiation programs and be responsible for CD8 cell-to-cell heterogeneity? Could they also generate memory cells with different protection capacities? To address these questions related to the diversity of CD8 T cell differentiation during immune responses, we used the single cell RT-PCR technique to detect ex vivo expression of mRNA in each individual cell, and Brefeldin A injected mice to detect ex vivo intracellular proteins. As experimental system to evaluate in vivo cell activation we used T cell receptor transgenic (TCR-Tg) CD8 T cells. Since the use of TCR-Tg cells to study immune responses has been subjected to criticism (due to high frequency of naïve-precursor transfers), in a first Ms. we compared the behavior of TCR-Tg and endogenous (non-transgenic and present at low frequency) cells in the same mouse. We found fully overlapping behavior between these two cell populations, which reinforced the advantage of using TCR-Tg cells to study CD8 immune responses. In addition, we concluded that the frequency of naïve-precursors do not induce diversity on CD8 T cell differentiation patterns. In a second Ms. we evaluated the impact of different pathogens in the diversity of CD8 T cell properties during two different immune responses: OT1 TCR-Tg cells (specific for OVA antigen) in the response to LM-OVA (Listeria Monocytogenes expressing OVA) infection; and P14 TCR-Tg cells (specific for GP33 epitope) in the response to Lymphocytic choriomeningitis vírus (LCMV) infection. We found that OT1 and P14 cells had different properties. As this difference could also be attributed to the different TCR avidity between OT1 and P14 cells, we then compared the behavior of P14 and OT-1 cells in the same mouse, co-injected with LM-OVA and LM-GP33. Since no differences were then detected, these results demonstrated that priming with different pathogens generates CD8 T cells with different characteristics that are not determined by TCR usage, but rather by the infection context. In addition, when looking for the protection capacity of endogenous CD8 memory cells generated in bacterial or viral context, we found that memory cells generated after LCMV priming were more efficient in responding to a second challenge, than memory cells generated after LM-GP33 priming. We also found that this better protection is associated with a T cell effector memory (TEM) phenotype associated with the LCMV infection, in contrast with a T cell central memory (TCM) phenotype generated after LM-OVA infection. These results demonstrate that different pathogens are responsible for diversity of CD8 T cell differentiation patterns and that even when distinct pathogens are efficiently eliminated during the primary immune response the quality of the memory generated may differ. In a third Ms. we studied the mechanisms by which effector CD8 T cells attracted other cell types in the early days of an immune response. We used two experimental systems: the response of OT1 TCR-Tg cells to LM-OVA infection; and the response of anti-HY TCR-Tg cells to male cells ("sterile"-non infectious context). In both cases we found that immediately after activation, CD8 T cells expressed high levels of pro-inflammatory cytokines and chemokines (such as TNFα, XCL1, CCL3 and CCL4). (...)

[SDV:IMM] Life Sciences/Immunology

[SDV:IMM] Sciences du Vivant/Immunologie

CD8 T cell

Differentiation

Effector

Inflammatory

Memory

In vivo

Listeria Monocytogenes

LCMV

TCR-Transgenic cells

Impact of lymphopenia-inducing regimens and energetic resources on the fate of adoptively transferred T cells / Impact des conditionnements lymphopéniques et de l’environnement métabolique sur le devenir des cellules T greffées

Klysz, Dorota

08 July 2014

Les thérapies anti-tumorales se sont considérablement améliorées au cours de la dernière décennie. Toutefois, les traitements utilisés actuellement rencontrent d'importantes limitations, notamment dans le cas de cancers métastatiques, révélant l'urgence de développer de nouvelles approches. Ainsi, l'immunothérapie par transfert adoptif de cellules T représente une approche innovante particulièrement prometteuse. Son principe s'appuie sur l'injection de cellules T autologues spécifiques d'antigènes tumoraux, préalablement manipulées et amplifiées ex vivo, chez des patients rendus lymphopéniques par chimiothérapie et/ou radiothérapie. Toutefois, même si l'état lymphopénique est induit par ces 2 protocoles de conditionnements, leurs effets sur l'environnement de l'hôte ainsi que sur le devenir des cellules T greffées étaient, jusqu'à nos travaux, mal connus. Par le biais de modèles murins, nous avons pu démontrer que le devenir des cellules T diffère après transfert dans des souris irradiées ou traitées par chimiothérapie (Bu/Cy). Ainsi, après transfert dans des animaux irradiés, on observe une prolifération préférentielle des cellules T CD8, dépendante de l'IL-7, est observée alors qu'un transfert chez des souris traitées Bu/Cy se traduit par une prolifération rapide, indépendante de l'IL-7, des cellules T CD4. De plus, ces comportements sont associés à d'importantes modifications de l'environnement généré chez l'hôte. Plus spécifiquement, nous avons démontré, dans les organes lymphoïdes secondaires, que la localisation et la représentation des différentes sous-populations de cellules dendritiques présentes étaient différentiellement modulées par le type de conditionnement utilisé. Par ailleurs, l'élimination spécifique des cellules CD11c+ chez des souris traitées Bu/Cy était accompagnée d'une inhibition importante de la prolifération rapide des cellules T CD4 greffées. L'ensemble de nos travaux montrent que les traitements lymphopéniques génèrent des environnements distincts capables de moduler le devenir des cellules T greffées.Durant ma thèse, nous avons également abordé de façon originale un aspect novateur de l'environnement en étudiant le rôle potentiel des nutriments comme régulateurs métaboliques des fonctions effectrices des cellules T. La glutamine est l'acide aminé le plus abondant du plasma, pouvant contribuer aux besoins bionénergétiques et biosynthétiques des cellules T en prolifération. Nous avons démontré dans nos travaux qu'une carence en glutamine lors de l'activation de cellules T CD4 par leur TCR entrainait un délai dans l'activation de la voie mTOR, une réduction de la production intracellulaire d'ATP aux temps précoces et se traduisait par une diminution de la prolifération. De plus, ces conditions étaient associées à une augmentation de la conversion de cellules CD4 T naïves, via TGFβ, en cellules régulatrices Foxp3+ , y compris en condition de polarization Th1. Par contre, la carence en glutamine n'a pas inhibé la différenciation Th2. Les cellules T Foxp3+ ainsi générées en condition limitante de glutamine présentaient in vivo des fonctions suppressives aussi efficaces que celles des cellules régulatrices nTregs. En effet, elles ont la capacité de bloquer l'induction de la colite provoquée par la greffe de cellules T effectrices dans des souris Rag2-/- . Nos travaux démontrent ainsi que l'environnement métabolique peut être un régulateur clé de la différenciation des cellules T CD4. L'ensemble de mes travaux de thèse ont mis en évidence de nouveaux paramètres capables de potentiellement modifier la survie et la réactivité des cellules T greffées. / Anti-tumor therapies have improved significantly over the decade. However, the currently used treatments have important limitations, notably for metastatic cancers, and the development of new approaches is therefore a high priority. Adoptive T cell therapy (ACT) represents an innovative strategy that has shown much promise. This therapy is based on the infusion of tumor-specific T cells, which have been manipulated and expanded ex vivo, into patients who have been rendered lymphopenic by chemotherapy and/or irradiation. It is interesting to note that while lymphodepletion is attained by the vast majority of conditioning regimens, the effects of these protocols on the host environment and potentially, on the destiny of adoptively-transferred T cells had not been elucidated prior to the studies which we initiated. Using a murine model, we found that the fate of adoptively-transferred T cells differs markedly in mice rendered lymphopenic by sub-lethal irradiation as compared to a busulfan/cyclophosphamide (Bu/Cy) chemotherapy regimen. Irradiation-mediated lymphopenia resulted in a skewed IL-7-dependent proliferation of donor CD8+ T cells, whereas Bu/Cy treatment led to an increased IL-7-independent, rapid CD4+ T cell proliferation. These alterations in T cell proliferation were associated with striking changes in the host microenvironment. More specifically, we demonstrated that the proportion and localization of different dendritic cell (DC) subsets in lymphoid organs were differentially affected by the type of conditioning. Furthermore, we found that these DC controlled the rapid donor CD4+ T cell division detected in Bu/Cy-treated mice as depletion of CD11c+ DC inhibited this proliferation. Altogether, our studies demonstrate that lymphopenic regimens generate distinct host environments which modulate the fate of adoptively-transferred T cells. Durind my PhD, we also investigated an original and novel aspect of the microenvironement by studying the potential role of nutrients as metabolic regulators of T cell effector function. Glutamine is the most abundant amino acid in the plasma and contributes to the bioenergetic and biosynthetic requirements of proliferating T cells. Here, we demonstrated that activation of CD4+ T cells under glutamine-deprived conditions results in a delayed mTOR activation with reduced early ATP production and decreased proliferation. Moreover, these conditions resulted in the conversion of naïve CD4+ T cells into Foxp3+ regulatory T cells (Tregs). This de novo Treg differentiation occurred even under Th1-polarizing conditions and was TGFβ-dependent. Interestingly, glutamine deprivation did not inhibit Th2 differentiation. Importantly, these converted Foxp3+ T cells showed enhanced in vivo persistence and were highly suppressive, completely protecting Rag-deficient mice from the development of autoimmune inflammatory bowel disease as efficiently as natural-occuring Tregs. Thus, our data reveal the external metabolic environment to be a key regulator of a CD4 T lymphocyte's differentiation. Altogether, the data generated during my PhD provide new insights into the identification of parameters that can potentially alter the survival and reactivity of adoptively-transferred T cells.

Cellules T

Fonctions effectrices

Fonctions régulatrices

Métabolisme

Glutamine

Transfert adoptif de cellules T

Lymphocyte T

T effector functions

Regulatory functions

T cell metabolism

Glutamine

Adoptive T cell therapy

Identificação de genes de Citrus sinensis com expressão dependente da proteína PthA de Xanthomonas citri e isolamento de elementos cis regulatórios ligantes de PthA / Identification of PthA-dependent gene expression Citrus sinensis and isolation of cis-acting elements bound by PthA

Pereira, André Luiz Araújo, 1981-

19 August 2018

Orientador: Celso Eduardo Benedetti / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-19T05:56:46Z (GMT). No. of bitstreams: 1 Pereira_AndreLuizAraujo_D.pdf: 43759919 bytes, checksum: 379266575f1db46c7d620232efb9ba13 (MD5) Previous issue date: 2011 / Resumo: O cancro cítrico resulta da interação compatível entre a bactéria Xanthomonas axonopodis pv. citri e Citrus spp. A doença não tem cura, é de fácil disseminação e difícil controle. O cenário é preocupante, pois a doença diminui drasticamente o rendimento e a qualidade dos frutos de plantas infectadas, ocasionando um forte impacto econômico na citricultura mundial. Os principais sintomas do cancro cítrico, resultantes dos processos de hipertrofia (aumento do volume celular) e hiperplasia (aumento da divisão celular), são dependentes da proteína efetora PthA de X. citri. PthA integra a família de fatores de transcrição conhecida como efetores ativadores de transcrição (transcription activator-like ou TAL). O principal homólogo de PthA é o efetor AvrBs3 de X. campestris pv. vesicatoria que atua regulando a transcrição de genes do hospedeiro em benefício do patógeno. A similaridade entre estas proteínas gira em torno de 97%, sugerindo, portanto, função semelhante para PthA. Através de uma série de microarranjos, investigou-se o perfil de expressão gênica de laranja doce (Citrus sinensis) dependente de PthA (X. citri) e de PthCs de X. aurantifolii, uma bactéria que causa cancro cítrico apenas no limão galego e que, em laranja doce, induz uma reação de hipersensibilidade. Desta forma, verificou-se a regulação positiva ou negativa de uma série de genes. Os PthCs regularam negativamente genes associados à sinalização por auxina e induziram a expressão de genes de defesa e silenciamento gênico. Em contrapartida, PthAs induziram uma série de genes intimamente relacionados aos sintomas de cancrose, incluindo: genes associados aos processos de aumento e divisão celular, síntese e remodelamento de parede celular, bem como genes envolvidos na sinalização por auxina e giberelina. Neste sentido, efetuou-se o isolamento de regiões promotoras de cinco genes, os quais são potencialmente regulados por PthA. A análise destas regiões revelou a presença de um possível TATA-box notavelmente semelhante àquele encontrado no gene upa20, denominado UPA-box (up-regulated por AvrBs3), sugerindo que estes genes poderiam ser transativados por PthA em citros. De fato, ensaios de retardamento de mobilidade eletroforética (electrophoretic mobility shift assay ou EMSA), demonstraram a ligação específica de PthA2 e 4 ao TATA-box encontrado na região promotora do gene que codifica uma proteínas relacionada à patogênese (pathogenesis-related proteins ou PR). Este resultado corrobora com a hipótese de que os efetores TAL atuam como proteínas ligadoras de elementos TATA. Finalmente, experimentos de co-imunoprecipitação de cromatina (ChIP) e cotransformação demonstraram, ainda que em resultados preliminares, que particularmente PthA4 é capaz de transativar pr5 in planta. Embora o cancro cítrico ainda não seja completamente entendido a nível molecular, os dados aqui apresentados sugerem fortemente a ação de PthAs como fatores de transcrição, bem como aponta candidatos à regulação positiva intimamente associados aos processos de hipertrofia e hiperplasia. Além disso, as regiões promotoras aqui isoladas podem ajudar no desenvolvimento de novas estratégias para a geração de plantas resistentes à cancrose / Abstract: Citrus canker is a result of a compatible interaction between Xanthomonas axonopodis pv. citri and Citrus spp. There is no cure for citrus canker, and the disease is easily spread and difficult to be managed. The scenario is threatening since the disease dramatically diminishes the quality of fruits in infected plants leading to great economic losses for the world citrus producers. The main citrus canker symptoms known as hypertrophy (cell enlargement) and hyperplasia (cell division) are PthA-dependent. PthA is an effector protein from X. citri which belongs to the TAL effectors (transcription activatorlike) family. The closest homologue of PthA is AvrBs3 from Xanthomonas campestris pv. vesicatoria, a TAL effector that acts as a transcriptional factor to modulate host transcription to the pathogen's benefit. Similarity shared by these two proteins is around 97%, suggesting that PthA plays a similar role in the citrus host. Through a number of microarray experiments, we investigate the gene transcription in sweet orange (Citrus sinensis) in response to the transient expression of PthA from X. citri or PthC from X. aurantifolii, pathotype C, a bacteria that causes citrus canker in Mexican lime but in orange trigger a hypersensitive response in sweet orange. We observed that PthCs down-regulated various auxin signaling genes and induced the expression of genes involved in defense and gene silencing. On the other hand, PthAs induces several genes implicated in canker development such as cell division and elongation, cell-wall synthesis and remodeling, synthesis, mobilization and signaling of auxin and gibberellin. Promoter regions of PthA-induced genes were isolated and shown to have predicted PthA and PthC binding sites at or near their putative TATA boxes. Moreover, competition gel shift assays confirmed that PthA4 shows preferential binding to the TATA box of the pathogenesis-related (pr5) gene promoter, supporting the idea that TAL effectors may act as general TATA-binding proteins. Finally, both chromatin immunoprecipitation (ChIP) and co-transformation assays demonstrated however as preliminary results, that PthA4 is able to transactivate pr5 in planta. Albeit the molecular mechanism by which citrus canker develop remains elusive at the molecular level, we provided data supporting the notion that PthA acts as a transcriptional factor, as well as identified PthA-induced genes associated with hypertrophy and hyperplasia. Furthermore, the promoter regions isolated here might be useful to obtain citrus plants resistant to the canker bacteria / Doutorado / Bioquimica / Doutor em Biologia Funcional e Molecular

Proteínas efetoras TAL

Proteína PthA, Xanthomonas campestris

Xanthomonas axopodis pv. citri

Cancro citrico

TAL effector proteins

PthA protein, Xanthomonas campestris

Xanthomonas axopodis pv. citri

Citrus canker

Multi-targeting of the innate immune system by Toll/interleukin-1 receptor domain-containing bacterial effectors and the consequences in bacterial immune-evasion / Ciblage multiple du système immunitaire inné par les effecteurs bactériens contenant un domaine Toll/interleukin-1 receptor (TIR) et les conséquences dans l’évasion immunitaire bactérienne

Imbert, Paul

25 November 2016

Le domaine TIR (Toll/interleukin (IL)-1 receptor) est une composante essentielle du système immunitaire inné, celui-ci est présent dans les récepteurs TLR (Toll-like receptor) et les protéines adaptatrices associées comme MyD88 et TIRAP. La détection de pathogènes déclenche l'interaction entre les domaines TIR permettant ainsi l'initiation et la propagation de la signalisation par les TLRs. Aussi, de nombreux pathogènes produisent des effecteurs contenant un domaine TIR tels que BtpA et BtpB chez Brucella abortus, TirS chez Staphylococcus aureus ou TcpC chez l'uropathogènique Escherichia coli. Tous ces effecteurs bloquent la signalisation des TLRs et sont capables de perturber les voies de signalisation de l'immunité innée pendant l'infection. Cependant les mécanismes moléculaires impliqués restent la plupart du temps non caractérisés et dans certains cas controversés. Dans le but de mieux comprendre le fonctionnement de ce type d'effecteurs bactériens, j'ai caractérisé chez Pseudomonas aeruginosa PA7 un nouvel effecteur contenant un domaine TIR que nous avons renommé PumA pour Pseudomonas UBAP1 Modulator A. En parallele, j'ai aussi participé à des projets de caractérisation de deux autres effecteurs avec un TIR domain : BtpB et TirS. Ainsi, PumA est un facteur essentiel pour la virulence de P. aeruginosa PA7 et son domaine TIR est essentiel pour interaction avec deux protéines adaptatrice, TIRAP et MyD88. Durant l'infection de cellules épithéliales pulmonaires par P. aeruginosa PA7, PumA est responsable du contrôle de la translocation du facteur de transcription NF-κB dans le noyau. De plus, la production de PumA dans une souche de P. aeruginosa non-TIR confère à cette bactérie de nouvelles propriétés d'immuno-modulation. PumA cible aussi UBAP1, une protéine du complexe de tri endosomal requis pour le transport, ESCRT-I (endosomal sorting complex require for transport I) qui a été récemment montré pour moduler l'activation de récepteur de cytokine. Nos résultats montrent que UBAP1 peut s'associer avec TIRAP et MyD88, provoquant le mouvement de MyD88 à la membrane cytoplasmique, suggérant une nouvelle voie cellulaire commune entre UBAP1 et les TLRs, et révélant UBAP1 comme nouvelle cible pour des effecteurs bactériens dans le cadre du contrôle des réponses immunitaires de l'hôte / In higher eukaryotes, the innate immune system provides the first line of defense against invading pathogens. The Toll/interleukin-1 receptor (TIR) domain is an essential component of the innate immune system. This domain is present in Toll-like receptors (TLRs) and associated adaptor proteins such as MyD88 and TIRAP. Pathogen detection requires interaction between the TIR domains, which initiates and triggers propagation of TLR signaling. However, many pathogens produce a TIR domain-containing protein such as BtpA and BtpB in Brucella abortus, TirS in Staphylococcus aureus or TcpC in the uropathogenic strain Escherichia coli. These effectors block TLR signaling and are able to disrupt innate immune response during infection. However, the molecular mechanisms involved remain mostly uncharacterized and in some cases controversial. The objective of this thesis was to study bacterial effectors containing a TIR domain particularly at the molecular level. For this, we focused on Pseudomonas aeruginosa PA7, an atypical multi-drug resistant strain that contains an effector with a TIR domain that we named PumA, for Pseudomonas UBAP1 Modulator A. In addition, during these four years of thesis work I also participated in the characterization of two other effectors with a TIR domain: BtpB in B. abortus and TirS in S. aureus.We found that PumA is essential for virulence of P. aeruginosa PA7 and its TIR domain is the key element for interaction with two adaptor proteins MyD88 and TIRAP. During infection of lung epithelial cells by P. aeruginosa PA7, PumA is responsible for controlling the translocation of NF-?B into the nucleus indicative of activation of this transcription factor. In addition, production of PumA by a TIR-deficient strain of P. aeruginosa confers to this bacterium a new immuno-modulation property. Furthermore, PumA targets ubiquitin-associated protein 1 (UBAP1), a protein of the endosomal sorting complex required for transport I (ESCRT-I) which has recently been shown to modulate cytokine receptor activation. Our results also show that UBAP1 can associated with TIRAP and MyD88, causing movement of MyD88 to the cytoplasmic membrane and suggesting a new cellular pathway between UBAP1 and TLRs. In summary, our data reveal UBAP1 as a novel target for bacterial effectors implicated in control of host immune responses

Domaine Toll/interleukin-1 receptor

Évasion immunitaire bactérienne

Effecteur bactérien

Toll/interleukin-1 receptor domain

Bacterial immune-evasion

Bacterial effector

616.9

Dynamique évolutive de Ralstonia solanacearum en réponse aux pressions de sélection de l'aubergine résistante : approche populationnelle, de génétique évolutive et fonctionnelle de la durabilité de la résistance / Evolutionnary dynamics of Ralstonia solanacearum in response to selective pressure : population, functional and evolutionnary genetic aproches of plant resistance durability

Guinard, Jérémy

14 December 2015

Ralstonia solanacearum, une béta-proteobactérie d'origine tellurique, est l'une des phytobactérioses les plus nuisibles au niveau mondial. Cette bactérie est capable d'infecter plus de 250 espèces différentes dont certaines présentent un intérêt économique majeur (tomate, pomme de terre, tabac). R. solanacearum est divisée en 4 phylotypes distincts présentant des origines géographiques différentes : I (asiatique), IIA et IIB (américain), III (africain), IV (indonésien). Parmi ces phylotypes, le phylotype I est en expansion démographique, hautement recombinogène, réparti mondialement et possède une large gamme d'hôtes. Il possède donc un fort potentiel évolutif (sensu McDonald et Linde, 2002). Afin de contrôler cette bactérie, la lutte génétique reste la méthode la plus prometteuse : elle consiste à déployer des cultivars possédant différents sources de résistance (i.e., des gènes de résistance). La variété d'aubergine AG91-25 (E6) possède un gène majeur de résistance (ERs1) lui permettant de contrôler certaines souches de R. solanacearum de phylotype I. Cependant, la gestion de cette résistance requiert d'étudier au préalable sa durabilité afin d'en éviter le contournement. Cette durabilité peut être estimée en étudiant le potentiel évolutif d'un agent pathogène face à cette source de résistance, ainsi qu'en décryptant les mécanismes moléculaires de l'interaction entre l'hôte (gène R) et le pathogène (effecteur de types trois). Afin d'étudier la dynamique évolutive de R. solanacearum sous une pression de sélection exercée par la variété résistante E6, nous avons mis en place un essai d'évolution expérimentale au champ. Cet essai est composé de trois couples de microparcelles d'aubergines résistantes E6 et d'aubergines sensibles E8, implantées deux fois par an, pendant trois ans (soit 5 cycles). Un schéma MLVA (« Multi-Locus VNTR Analysis ») composé de 8 loci minisatellites a été développé afin de caractériser les souches extraites de ces cycles de cultures. Ces VNTR sont spécifiques aux souches de R. solanacearum de phylotype I, hautement polymorphes et discriminants à toutes les échelles : mondiale, régionale et locale. Nos résultats démontrent une absence de contournement de la résistance d'E6 par les populations parcellaires de R. solanacearum, confirmant le caractère durable de cette résistance. Cette variété aurait fortement réduit les populations bactériennes du sol, ne leur permettant plus d'infecter l'hôte résistant. Parallèlement, 100% des plants d'E8 sont morts à partir du cycle 2. La maladie au sein des microparcelles semble progresser selon une dynamique de « plante-à-plante ». Une baisse de la diversité génétique a aussi été observée au cours des cycles de culture répétés d'E8, associée à l'augmentation en fréquence de deux haplotypes. Cependant, aucune structuration génétique claire n'a été observée à l'échelle de la parcelle entière ou de la microparcelle. En revanche, les données d'isolement par la distance semblent indiquer qu'une structure spatiale semble être en cours d'établissement. L'ensemble de nos résultats suggère une structure épidémique clonale de nos populations parcellaires. Nous nous sommes aussi intéressés à l'implication de 10 ET3 dans l'interaction R. solanacearum vs aubergine résistante (E6). La distribution des 10 ET3 candidats est variable au sein d'une collection de souches phylogénétiquement diverses (91 souches) : ripAJ et ripE1 sont les ET3 les plus partagés alors que ripP1 et ripP2 sont les moins fréquemment. Certains ET3 présentent peu (ripAJ) voire pas (ripE1 et ripP2) de polymorphisme de taille, alors que d'autres (ripAU) sont extrêmement polymorphes. Cependant la composition en effecteurs d'une souche ne semble pas être corrélée à un phénotype sur aubergine E6. Nous avons identifié le gène d'effecteur ripAX2 comme ayant une fonction d'avirulence sur aubergine résistante E6. Sa reconnaissance par E6 semble s'opérer au niveau de la zone hypocotylaire. / Ralstonia Solanacearum is a soilborn beta-proteobacterium responsible of bacterial wilt on Solanaceaous crops. This bacterium is considered as one of the most harmful plant disease worldwide. This bacterium possesses the ability to infect more than 250 different species, including crops with major economic importance (tomato, potato, tobacco, eucalyptus…). R. solanacearum is divided into four phylotypes originated from different areas: I (Asian), IIA and IIB (American), III (African), IV (Indonesian). Among these phylotype, phylotype I is currently in demographic expansion, is highly recombinogenic and has a wide hosts range. Thus, altogether, these characteristics demonstrated that this phylotype has a high evolutionary potential (sensu McDonald and Linde, 2002). In order to control this bacterium, genetic plant resistance seems to be the most promising method. This method consists in using cultivars with different source of resistance such as resistance genes and/or resistant QTLs. The AG91-25 (E6), an eggplant cultivar possessing a major resistance gene (ERs1), is capable to control some of phylotype I strains of R. solanacearum. However, in order to optimize the management of this resistance and to avoid its fast breakdown, we need to deeply investigate the durability of this resistant gene. Durability can be estimated by studying the evolutionary potential of our pathogen faced to E6 source of resistance and by understanding the molecular mechanisms underlying the interaction between the host (R gene) and its pathogene (Type III Effector – T3E). In order to study R. solanacearum evolutionary dynamics under selective pressure from E6 resistant cultivar, we set up an experimental evolution trial in the field. This trial consisted of three couples of resistant (E6) and susceptible eggplants (E8) microplots, implanted twice a year during three years, hence consisting of 5 cycles. A Multi-Locus VNTR Analysis (MLVA) scheme, consisting of 8 minisatellite loci, was developed in order to characterize the strains extracted from these crop cycles. These VNTRs were specific to R. solanacearum phylotype I strains, they were highly polymorphic and discriminatory at different scale: globally, regionally and locally.Our results showed no breakdown of E6 resistance by R. solanacearum populations, which confirms that this resistance is durable. It seemed that this cultivar reduced the soil bacterial population, preventing bacterial population to infest the resistant host. At the same time, 100% of the E8 plants have died, starting at cycle 2. Bacterial wilt seemed to spread with a “plant-to-plant” dynamics within each microplot. Genetic diversity reduction was also observed during the successive cycle of susceptible eggplant, associated with the increase of frequency of two main haplotypes. However, we failed to identify a clear genetic structuration, neither at the plot scale nor at the microplot scale. Nevertheless, isolation-by-distance data seemed to show that a spatial structure is currently establishing. Altogether, our results suggested that our plot populations appeared to have a clonal epidemic structure.We also looked into 10 T3Es' involvement in the interaction between R. solanacearum and the resistant eggplant (E6). Their distribution was completely different within a collection of phylogenetically diverse strains (91 strains): ripAJ and ripE1 are the most shared T3Es whereas ripP1 and ripP2 were the less common T3E whithin our collection of strains. Some T3Es showed few (ripAJ) or no length polymorphism at all (ripE1 and ripP2) whereas some other (ripAU) are extremely polymorphic. Nevertheless, the T3E effector repertoire did not seemed to be correlated to a specific phenotype on E6 eggplant. Its recognition by E6 seemed to occur in the hypocotyle region rather than in the mesophyll, highlighting a possible organ-specificity of the interaction between ERs1 and ripAX2.

Ralstonia solanacearum

Flétrissement bactérien

Épidémiologie moléculaire

Structure génétique

Effecteur de type III

Répertoire de gènes

Mlva

Ralstonia solanacearum

Bacterial wilt

Molecular epidemiology

Genetic structure

Type III effector

Gene repertoire

Mlva

Salmonella virulence factors and their role in intracellular parasitism

Möst, Thomas

17 October 2014

Salmonella est un pathogène intracellulaire dont la virulence dépend de la fonction de deux systèmes de sécrétion du type trois (T3SS). Les T3SSs sont responsables pour la transduction de protéines effectrices dans le cytoplasme de la cellule hôte afin d'initier l'invasion de la cellule et de former la vie intracellulaire de Salmonella. Plusieurs effecteurs forment la SCV et induisent un réseau de tubules qui est impliqué dans la stabilisation de la SCV. Il consiste de trois différents genres de tubules. Nous avons pu montrer que les protéines effectrices SseF et SseG sont responsables pour la formation d'un genre de ces tubules, les LAMP-1 negative tubules (LNTs). Leur fonction est importante puisque des souches de Salmonella qui induisent que des LNTs et ne pas d'autres tubules sont apte de créer une SCV stable. Ceci améliore la réplication et virulence in vivo comparé à des souches qui ne peuvent pas induire des tubules. En utilisant les LNTs comme modèle, nous avons essayé de comprendre la contribution des tubules à la formation de la SCV et aussi leurs interaction avec les endosomes tardives et les lysosomes (LE/lys). Nous avons découvert une contribution essentielle de la petite GTPase Arl8B à la fusion de tubules avec les LE/lys. Ainsi, le knockdown d'Arl8B réduit la capacité de reproduction de Salmonella dans la cellule hôte. Nous avons pu démontrer qu'une interaction entre l'effecteur SifA et Arl8B est responsable pour ces observations. / Salmonella is an intracellular pathogen, whose virulence relies on the function of two type three secretion systems (T3SSs). The T3SSs are responsible for the delivery of effector proteins into the host cell cytoplasm in order to mediate invasion of the cell and to shape Salmonella's intracellular life.Salmonella's intracellular survival and replication depends on its niche, the Salmonella containing vacuole (SCV), a compartment that is derived from host plasma membrane. Several effectors shape the SCV and give rise to a tubular network, which is implicated in the SCV's stabilization and consists of three different kinds of tubules. We were able to show that the effector proteins SseF and SseG play in concert to form one kind of tubules, the recently discovered LAMP-1-negative tubules (LNTs). Their function is important to Salmonella, as strains having only LNTs but none of the other tubules are able to create a stable SCV, which leads to better replication and virulence in vivo compared to a strain that lacks in tubule formation. Starting from these LNTs as working model, we tried to understand the contribution of tubules to the formation of the SCV and their interactions with the late endosomal / lysosomal compartment (LE/lys). We deciphered the small GTPase Arl8B to play an essential role in the fusion of tubules with LE/lys. Thereby, the knockdown of Arl8B reduced Salmonella's capability to replicate within host cells. We were able to show that an interaction between the effector SifA and Arl8B was responsible for our observations.

Salmonella

Protéines effectrices

Interaction pathogène - hôte

Mechanismes de virulence

Changements de proteome

Salmonella

Effector proteins

Host - pathogen interaction

Virulence mechanisms

Proteomic changes

571

Analyse fonctionnelle d'effecteurs fongiques impliqués dans le développement de la symbiose ectomycorhizienne Laccaria bicolor-Populus trichocarpa / Identifying targets of fungal effectors in the ectomycorrhizal symbiosis Laccaria bicolor-Populus trichocarpa

Daguerre, Yohann

14 November 2013

Les racines de la plupart des arbres forment des symbioses ectomycorhiziennes avec les champignons mutualistes du sol. Le basidiomycète L. bicolor (Maire) P.D. Orton secrète de petites protéines effectrices (MiSSP) afin d'établir les structures symbiotiques. Toutefois, les protéines de l'hôte ciblées par les MiSSPs ne sont pas connues. Dans notre étude, nous démontrons, à l'aide du système double hybride chez la levure (Y2H), que la protéine MiSSP7 interagit avec les co-récepteurs de l'acide jasmonique (AJ) JAZ5 et JAZ6 de P. trichocarpa. Cette interaction entraine un blocage de la voie de signalisation de l'AJ et favorise le développement symbiotique. Des transformants de L. bicolor, dont l'expression de MiSSP7 est fortement réduite, ne sont plus capables de mycorhizer les racines du peuplier. Une variation transgénique de la transcription de PtJAZ6 ou l'inhibition de la voie de signalisation de l'AJ complémente ce phénotype. Nous avons également montré que la protéine PtJAZ6 interagit avec une protéine de type 14-3-3 et un facteur de transcription de type MYC, formant un complexe de régulation. Deux autres protéines effectrices, MiSSP8 et MiSSP17, sont sécrétées et essentielles au développement symbiotique. Les résultats des analyses Y2H suggèrent que MiSSP8 et MiSSP17 pourraient aider au contournement des réactions de défense de la plante-hôte. Au cours du développement symbiotique, le champignon est le siège d'une reprogrammation génétique importante. Les facteurs de transcription (TFs) sont les principaux acteurs de ces changements génétiques. Nous avons donc étudié les TFs de L. bicolor afin d'obtenir un inventaire complet des TFs régulés par la mycorhization / Roots of most trees form symbiosis with mutualistic soil-borne fungi. The ectomycorrhizal basidiomycete L. bicolor (Maire) P.D. Orton relies on mycorrhizal-induced small secreted proteins (MiSSP) to establish symbiotic tissues in the host-plant. The host proteins targeted by these fungal effectors are yet unknown. In the present study, we used the binary yeast two-hybrid (Y2H) system to determine direct interactions between MiSSP7 and the plant proteins in the L. bicolor-P. trichocarpa ectomycorrhizae. We showed that MiSSP7 interact with the jasmonic acid (JA) co-receptors JAZ5 and JAZ6 of P. trichocarpa, blocking JA signaling and promoting mutualism. L. bicolor transformants with severely reduced expression of MiSSP7 did not enter into symbiosis with poplar roots, a phenotype that could be complemented by transgenically varying the transcription of PtJAZ6 or through inhibiting JA signalling. Additional Y2H assays showed that PtJAZ6 protein form a regulatory complex involving 14-3-3 protein(s) and MYC transcriptional factors. Two others L. bicolor effector-like proteins, MiSSP8 and MiSSP17, are secreted and are essential for the symbiosis development. Y2H assays suggested that these MiSSPs interact with plant proteins involved in plant defence signalling pathways. During symbiosis development, L. bicolor experiences important genetic reprogramming required for root colonization. Transcription factors (TFs) are key players of these genetic changes. Here, we developed high throughput analysis of TFs in L. bicolor to obtain a comprehensive inventory of significantly regulated transcription factors in ECM

Effecteur MiSSP

Développement ectomycorhizien

Défenses de la plante

Échange mutualiste de nutriment

Facteur de transcription

Reprogrammation génétique

Effector MiSSP

Ectomycorrhizal development

Plant defence

Mutualistic nutrient exchange

Transcription factor

Genetic reprogramming

579.617 85

Papel funcional dos leucotrienos na resposta imunológica ao melanoma B16-F0 experimental em camundongos / The role of Leukotrienes in the immune response of melanoma B16-F0 in experimental mice

Denise Sayuri Calheiros da Silveira

01 June 2012

No presente trabalho investigamos a relevância dos mediadores lipídicos (Leucotrienos) gerados pela enzima 5-Lipoxigenase (5-LO) na susceptibilidade ou resistência de camundongos ao Melanoma experimental com células tumorais B16-F0, utilizando como modelo camundongos produtores de leucotrienos (129_WT) e camundongos geneticamente deficientes \"knockout\" de 5-LO (129_5-LO KO). Primeiramente, verificamos que leucócitos peritoneais provenientes de animais WT implantados com melanoma B16-F0, apresentam aumento da expressão do gene para 5-LO (Alox5). Nossos resultados mostram que animais 5-LO KO, deficientes de 5-LO são mais eficientes no controle da progressão do tumor e apresentam significativo aumento na sobrevivência, quando comparados a animais WT, produtores de 5-LO. A nossa análise do perfil imunológico em células esplênicas indicam que a maior eficiência dos camundongos 5-LO KO no controle do crescimento de células tumorais B16-F0 estariam associados à presença numérica aumentada de neutrófilos (Gr-1+), células apresentadoras de antígeno (I-Ab+) majoritariamente CD19+CD80+ e esplenócitos capacitados para produção de altos níveis de citocinas pró-inflamatórias/efetoras como a IL-6, TNF?, IFN-? e baixos níveis de citocinas regulatórias como IL-10, 15 dias pós-implantação do tumor; a rápida geração da resposta imune polarizada para produção elevada de citocinas Th1 (IFN-?), mas não, citocinas Th2 (IL-10) e presença de maiores números de linfócitos T CD4+ e CD8+ efetoras, expressando o fenótipo CD44high ou CD44highCD62Llow. Ainda, verificamos que a deficiência genética da 5-LO ou a inibição da 5-LO pelo MK886 em células LAK, aumenta significativamente sua atividade citotóxica em células do melanoma B16-F0. Nossos resultados em conjunto, indicam que leucotrienos gerados pela enzima 5-LO, modulam negativamente a geração de resposta imune protetora em camundongos para o Melanoma B16-F0. / In the present work we examine the contribution of 5-lipoxigenase-derived lipid mediators during experimental melanoma (B16-F0) in 5-LO gene knockout (KO) mice and wild-type (WT) mice. The 5-LO KO mice presented delayed tumor growth, lesser tumor volume and delayed mortality. The greater resistance of 5-LO KO mice correlated with the following: High splenic Gr-1+ leukocytes counts, High and dominant presence of splenic IAb+CD19+CD80+ antigen-presenting cells counts and capacity of spleen cell to produce high levels of IL-6, TNF-?, IFN-? and lower levels of IL-10 early after tumor cells implantation; rapid T-cell polarization to secret high quantities of Th1 type cytokine IFN-? and low quantities of Th2 type cytokine IL-10; rapid generation and greater numbers of CD4+ and CD8+ activated T cells expressing CD45RB or CD44 markers; and also CD4+ and CD8+ CD44high or CD44highCD62Llow effector T cells. Herein, IL-2 induced splenic LAK cells from 5-LO KO mice, compared with splenic LAK cells from WT mice, were more efficient at killing B16-F0 melanoma cells. The increased B16-F0 melanoma cells killing activity were also found by treatment of splenic LAK cells from WT mice with a 5-LO activity inhibitor, MK886. Our findings suggest that 5-LO deficiency altered antigen-presenting cells profile, IFN-? and IL-10 production during skin cancer disease favoring the generation of protective immune responses and also provide evidence that 5-LO-derived LTs negatively affect the host survival during experimental B16-F0 melanoma.

Células T efetoras

Citocinas Th1/Th2

imunorregulação.

Leucotrienos

Melanoma B16-F0

B16-F0 melanoma

effector T cells

Leukotrienes

Th1/Th2 Cytokines

The Role of Interferon Gamma in Melanocyte Clearance During Vitiligo

Strassner, James P.

07 April 2019

Vitiligo is an autoimmune disease in which CD8+ T cells selectively destroy melanocytes, leading to a patchy, disfiguring depigmentation of the skin. Our group and others have highlighted the central role of IFN-γ-dependent chemokines in the progression of disease; however, IFN-γ is also reported to have pleiotropic effects on melanocyte biology. We examined whether IFN-γ has a direct role in melanocyte killing. We tested the T-cell effector functions IFN-γ, Fas ligand and perforin by deleting them from autoreactive T cells used to induce vitiligo in mice. We found that disease incidence, disease severity and T cell accumulation in the skin was reduced in mice receiving adoptive transfer of either IFN-γ deficient or Fas ligand deficient gp100-specific T cells; however, perforin was dispensable and led to increased disease scores and T cell accumulation. To determine how melanocytes are affected by IFN-γ signaling during vitiligo, we performed single-cell RNA-sequencing on suction blister biopsies obtained from vitiligo and healthy subjects. We discovered that integrin expression and TGFb2 signaling was decreased only in lesional melanocyte transcriptomes. Moreover, melanocytes appear to participate in their own demise by increasing HLA expression and recruiting effector cells through the chemotactic ligand CCL18. The loss of melanocyte retention factors may explain their clean disappearance from the skin during keratinocyte turnover. Taken together, we believe IFN-γ production by autoreactive T cells in the skin leads to clean loss of melanocytes by downregulation of melanocyte retention factors and by increasing their potential to be detected by effector cells during vitiligo.

Vitiligo

autoimmunity

biomarker

single-cell RNA-sequencing

T cell

melanocyte

T-cell effector functions

Bioinformatics

Dermatology

Immune System Diseases

Immunity

Skin and Connective Tissue Diseases

Translational Medical Research