Global ETD Search

1031	Interação de células dendríticas com conídios de Trichophyton rubrum / Interaction of dendritic cells with conidia of Trichophyton rubrum Karla Letícia Santiago 22 June 2009 (has links) Os dermatófitos são um grupo de fungos que têm a capacidade de invadir o tecido queratinizado (pele, pêlos e unhas) de seres humanos e animais para produzir uma infecção denominada de dermatofitose. O Trichophyton rubrum é o principal patógeno causador de dermatofitose. As lesões causadas por estas espécies são crônicas e de carater pouco inflamatória. A doença apresenta evolução lenta e pacientes cronicamente infectados não respondem bem a terapia antifúngica. Assim como na maioria dos patógenos, o sistema imune inato é determinante na resposta antifúngica. Neutrófilos, macrófagos e células dendríticas constituem as células efetoras do sistema imune. A resposta imune aos dermatófitos ainda não está bem elucidada. Atualmente é aceito que a resposta imune mediada por células é responsável pelo controle da infecção. Poucos estudos têm focado a resposta imune inata a esses fungos. Assim, fomos estudar a interação de células dendríticas de pacientes com dermatofitose com conídios de T. rubrum. Nossos resultados mostraram que células dendríticas derivadas de monócitos (CDDM) foram capazes de fagocitar conídios de T. rubrum e ainda verificamos que estas células permaneceram viáveis após fagocitose. Quando analisamos a viabilidade dos conídios de T. rubrum, após 24 e 48 horas de interação com CDDM, verificamos que após 48horas houve um aumento no número de conídios viáveis quando estes foram fagocitados por células de pacientes, mostrando que CDDM de paciente não conseguem matar os conídios após fagocitose. Avaliamos a liberação de óxido nítrico por CDDM e a análise dos resultados mostrou que não houve diferença significativa na liberação de NO pela CDDM na presença de conídio de T. rubrum. Analisamos a expressão de moléculas co-estimulatórias como CD80, CD86, CD83, CD40 e HLA-DR em pacientes com dermatofitose e em indivíduos controle, observamos que não houve diferença na expressão dessas moléculas na presença de conídios de T. rubrum quando comparadas com culturas de CDDM sem conídios. Entretanto, houve uma diminuição do número de células de pacientes que expressam estas moléculas na presença de conídio de T. rubrum. Foi detectado um aumento significativo na secreção de TNF-α e de IL-12 pelas CDDM de pacientes quando em contato com conídio de T. rubrum. Avaliamos a capacidade das CDDM de indivíduos controle e pacientes pulsadas com concentrações crescentes de tricofitina em ativar linfócitos T CD4 e também verificamos o perfil de citocinas secretadas pelos linfócitos T CD4 após proliferação. Os resultados demonstraram que as CDDM foram capazes de estimular a proliferação de linfócitos somente em pacientes com dermatofitose. Foi detectado um aumento significativo na secreção de IL-4 pelos LT CD4 de indivíduos controle. Nossos resultados sugerem uma diferença no perfil de secreção de citocinas em indivíduos controle e pacientes. Indivíduos controle não produzem IL-12 e estimulam preferencialmente linfócitos T CD4 secretores de IL-4. Por outro lado, células dendríticas de pacientes produzem IL-12 e induzem a ativação de linfócitos T produtores de IL-4 e IL-10 / The dermatophytes are a group of fungi that have the capacity to invade the keratinized tissue (skin, hair and nails) of humans and animals to produce an infection called dermatophytosis. The Trichophyton rubrum is the main causative pathogen of dermatophytosis. Injuries caused by these species are chronic inflammatory and little character. The disease shows slow evolution and chronically infected patients do not respond well to antifungal therapy. Like most pathogens, the innate immune system is crucial in the antifungal response. Neutrophils, macrophages and dendritic cells are the effector cells of the immune system. The immune response to dermatophytes is not yet well elucidated. Currently it is accepted that the immune response mediated by cells is responsible for controlling the infection. Few studies have focused on the innate immune response to these fungi. Thus, we study the interaction of dendritic cells from patients with dermatophytosis with conidia of T. rubrum. Our results showed that dendritic cells derived from monocytes (CDDM) were capable of phagocytosed conidia of T. rubrum and found that these cells remained viable after phagocytosis. When we analyze the viability of conidia of T. rubrum after 24 and 48 hours of interaction with CDDM shows that after 48hours an increase in the number of viable conidia when they were phagocytized by cells of patients, showing that CDDM not kill the patient after the conidia phagocytosis. Evaluated the release of nitric oxide by CDDM and analysis of results showed that there was no significant difference in the release of NO by CDDM in the presence of conidia of T. rubrum. We analyzed the expression of co-stimulatory molecules such as CD80, CD86, CD83, CD40 and HLA-DR in patients with dermatophytosis and in control subjects, we observed that there was no difference in expression of these molecules in the presence of conidia of T. rubrum compared with cultures of CDDM without conidia . However, there was a decrease in the number of cells of patients who express these molecules in the presence of conidia of T. rubrum. It was observed a significant increase in the secretion of TNF-α and IL-12 by CDDM of patients when in contact with conidia of T. rubrum. Evaluate the capacity of individuals to control and CDDM patients pulsed with increasing concentrations of trichophytin to activate CD4 T lymphocytes and also see the profile of cytokines secreted by CD4 + T lymphocytes after proliferation. The results showed that the CDDM were able to stimulate the proliferation of lymphocytes only in patients with dermatophytosis. We observed a significant increase in the secretion of IL-4 by CD4 L T to control individuals. Our results suggest a difference in the profile of secretion of cytokines in control subjects and patients. Control subjects did not produce IL-12 and preferentially stimulate CD4 T lymphocytes secreting IL-4. Furthermore, dendritic cells of patients produce IL-12 and induce the activation of T lymphocytes producing IL-4 and IL-10 Arthrodermataceae (Estudo Clínico) Dermatofitose Microbiologia Médica Trichophyton rubrum Tricofitina Arthrodermataceae (Clinical study) Dendritic cells Dermatophytosis Medical microbiology Trichophytin Trichophyton rubrum
1032	Rôle de la voie COX-2 au cours de l'infection par Brucella / Investigating the involvement of the COX-2 pathway during Brucella infection Gagnaire, Aurelie 30 September 2016 (has links) Brucella est une bactérie intracellulaire facultative à Gram négatif responsable d’une zoonose, la brucellose. Pour persister dans l’organisme, Brucella agit comme un pathogène furtif en modulant la réponse immunitaire de l’hôte. La cyclooxygénase 2 (COX-2) est l’enzyme responsable de la synthèse des prostanoïdes, des médiateurs lipidiques dérivés de l’acide arachidonique (AA) présentant des propriétés immunorégulatrices. Cette thèse est centrée sur l’étude de cette voie métabolique au cours de l’infection par Brucella in vitro dans des cellules dendritiques (DC) humaines et murines ainsi qu’in vivo chez la souris en comparant différentes routes d’infection. Nous avons mis en évidence la capacité de l’infection à stimuler in vitro la production d’AA ainsi que l’expression de Ptgs2. In vivo, la comparaison des différentes routes d’inoculation a montré que l’infection intradermale induit une signature génique inflammatoire caractérisée par l’expression de Ptgs2 et d’Ifng. L’utilisation de NS-398, un inhibiteur spécifique de COX-2 stimule la clairance bactérienne dans les ganglions cervicaux (CLN) drainant le site d’infection. Ces résultats ouvrent ainsi la voie à de nouvelles stratégies thérapeutiques dans le traitement de la brucellose. La seconde partie de la thèse traite de l’implication des infections bactériennes dans l’initiation des processus oncogéniques. Nous y présentons une revue répertoriant l’ensemble des mécanismes pouvant contribuer à l’initiation oncogénique ainsi qu’un projet que nous développons au laboratoire portant sur l’initiation d’un lymphome folliculaire à la suite d’une stimulation antigénique chronique suite à l’infection par B. abortus. / Brucella is a facultative intracellular Gram-negative bacterium, responsible for a zoonosis called brucellosis. To persist into the host, Brucella acts as a stealthy pathogen by modulating the host immune response. The cyclooxygenase 2 (COX-2) is the enzyme responsible for the synthesis of prostanoids, a family of lipid mediators derived from the arachidonic acid (AA) and presenting immunomodulatory properties. Here, we have studied the impact of this pathway during Brucella infection in vitro in human and murine dendritic cells (DCs) as well as in vivo by comparing different infection routes. We have highlighted the ability of the infection to stimulate the AA synthesis and Ptgs2 expression. In vivo, by comparing different inoculation routes we showed that intradermal infection induces a specific inflammatory gene signature characterized by an important expression of Ptgs2 and Ifng. The use of NS-398, a specific inhibitor of COX-2 stimulates the bacterial clearance in the cervical lymph nodes (CLN) draining the site of infection. These results might open the way to new therapeutic strategies in the treatment of brucellosis. In a second part of the thesis, we discuss the involvement of bacterial infections in initiating oncogenic processes. Here, we present a review listing all the mechanisms that contribute to the oncogenic initiation and a project that we are developing in the laboratory dealing with the initiation of follicular lymphoma following chronic antigenic stimulation during B. abortus infection. Brucella Cyclooxygenase-2 Ptgs2 Cellules dendritiques Infection intradermale Maladies infectieuses Brucella Cyclooxygenase-2 Ptgs2 Dendritic cells Intradermal infection Infectious diseases 570
1033	The role of interferon Beta (IFN-β) in the pathogenesis of infection caused by streptococcus suis serotype 2 Santinón, Agustina X. 04 1900 (has links) No description available. Streptococcus suis serotype 2 type I interferon dendritic cells inflammation virulence IFN-β Interféron de type I Cellules dendritiques
1034	Modulation pharmacologique des voies de signalisation des TLRs par le Guanabenz, un inhibiteur de la réponse au stress / Pharmacological inhibition of the TLRs signalling pathways by Guanabenz, an inhibitor of the stress response Perego, Jessica 04 November 2016 (has links) On a récemment mis en évidence l'existence d'une étroite interconnexion entre la perception d'éléments d'origine microbienne (qui se fait à travers les récepteurs de l’immunité innée tels que les TLRs) et l'homéostasie du réticulum endoplasmique. En situation de stress, une grande quantité de protéines mal repliées s'accumule dans le réticulum, déclenchant une série de réponses cellulaires connues sous le nom de "Unfolded Protein Response" (UPR). On a découvert que l'activation de l'UPR contribue à la réponse inflammatoire, en particulier chez les cellules dendritiques. GADD34/PP1 est un complexe protéique qui dé-phosphoryle eIF2α et participe à la restauration de la synthèse protéique. On a démontré que GADD34 a aussi un rôle dans le contrôle de l’expression des cytokines pro-inflammatoires, en particulier l'interféron de type I. Le but de cette thèse est de clarifier comment la voie de signalisation des TLRs et le UPR s'intercroisent et comment est-ce qu'on peut exploiter cette interaction dans des cas pathologiques J’ai pu démontrer, à l'aide de cellules dendritiques d’origine humaine et murine, que le guanabenz (GBZ), un inhibiteur du complexe GADD34/PP1, est capable de bloquer l'activation des récepteurs TLRs endosomaux. Cet inhibiteur est également capable de bloquer le choc septique dépendent de TLR9 et de baisser le niveau d’autoanticorps dans un modèle lupique. En conclusion, j'ai pu démontrer, aussi bien in vitro que in vivo, que le guanabenz est capable d'inhiber les TLRs endosomaux à travers un nouveau mécanisme d’inhibition sur CH25H, une enzyme du métabolisme du cholestérol, qui a été récemment découvert comme faisant partie de l'immunité innée. / Sustained immune reaction is strictly interconnected to pathogenic situations. For this reason, the activation of immune cells is controlled by multiple pathways. A cross-talk between microbial sensing and Endoplasmic Reticulum (ER) homeostasis has been discovered. Abnormal accumulation of proteins in the ER is a sign of cellular malfunction and triggers emergency rescue pathways, collectively known as the Unfolded Protein Response (UPR). UPR induction triggers or amplifies inflammatory signals by dendritic cells (DCs). GADD34/PP1 is a holophosphatase complex that dephosphorylates eIF2α and participates in the UPR feedback loop, by restoring protein translation. It has been shown that GADD34 plays an important role in controlling the expression of pro-inflammatory cytokines, especially type I interferon. In dendritic cells (DCs), pathogens are sensed by Pathogen Recognition Receptors (PRRs); the better characterised class of PRRs being the Toll-Like Receptors (TLRs). Thus, the aim of my thesis is to investigate how TLRs and ER-signalling pathways intersect and how this can be used to control pathogenic states, with particular attention for the GADD34/PP1 complex. Using both human and mouse DCs, we show that guanabenz (GBZ), an inhibitor of the GADD34/PP1 complex, blocks endosomal TLRs activation. The same inhibitor rescues mice viability in a TLR-dependent septic shock model and controls the circulating autoantibodies in a lupus model. Our studies show that TLR9 is particularly sensitive to GBZ. We show also that GBZ has a previously unidentified effect on CH25H, an enzyme that hydroxylates the cholesterol in 25-hydroxycholesterol, recently linked to TLRs signaling. Cellules dendritiques Led Gadd34 Interferon de type I Choc septique Gadd34 TLRs Dendritic cells Sle Gadd34 Type I interferon Septic shock Gadd34 TLRs 571
1035	Targeting Gonadotropins to the Dendritic Cells : A Novel Strategy for Animal Immunocontraceptive Vaccine Sinha, Shakun January 2014 (has links) (PDF) Contraception through a vaccine has been a very attractive proposition and several attempts were made in the past. To achieve contraception through immunological means, several points need to be considered. First, the targeted antigen should be an important component of reproduction and interference in its actions should lead to infertility. Second, the antigen must be highly immunogenic and the antibodies elicited should be able to block the functions of the antigen. Third, the antibody titres should be effective and must sustain for longer periods. Gonadotropins fulfill all the above criteria and therefore, have been attractive targets for developing human contraceptive vaccines. The pituitary gonadotropins- Luteinizing hormone (LH) and the Follicle stimulating hormone (FSH) are the principal regulators of the reproduction process in all the mammalian species (McLachlan et al., 1995c; Moudgal et al., 1992b; Murty et al., 1979a; Selvaraj and Moudgal, 1994a; Weinbauer et al., 1991). In males, LH binds to its specific receptor-LHR, expressed on the Leydig cells and regulates the production of testosterone. This testosterone binds to the androgen receptors expressed in the Sertoli cells and along with FSH, which binds to the specific receptors present on the Sertoli cell membranes, regulate the testicular functions and the spermatogenesis (Simoni et al., 1997; Themmen and Huhtaniemi, 2000; Ulloa-Aguirre and Timossi, 1998). The well documented studies have unequivocally established that the specific immunoneutralization of either hormone by active or passive immunization, leads to disruption of the gonadal functions (Fraser et al., 1986a; Marathe et al., 1995; Moudgal et al., 1992b; Murty et al., 1979b; Shetty et al., 1996; Srinath et al., 1983b) and consequent infertility and this observation formed the basis of the human contraceptive vaccines (Moudgal et al., 1997b; Talwar et al., 2011a; Talwar et al., 2009a). Several studies using testosterone as the main male hormonal contraception method (Matsumoto et al., 1986; Matsumoto et al., 1983a) and anti-hCG vaccine as the female hormonal contraceptive vaccine reached Phase I and II clinical trials (Talwar, 1997; Talwar et al., 1994; Talwar et al., 1997) . However, these human contraceptive vaccines faced several limitations. There was a need to inhibit only particular segments of the entire reproduction process whereas others needed to remain completely unaffected. For example, in males, the FSH regulated functions, the sperm production and spermatogenesis needed to be inhibited whereas the LH/testosterone associated functions should be unaffected. Similarly in females, the functions of hCG alone, elaborated by the conceptus should be blocked without affecting either LH or FSH regulated functions, thus, maintaining the normal reproductive cycle. This however is a difficult task especially when the antigens share a large degree of homology and common subunits (Pierce and Parsons, 1981). Moreover, the issues relating to the development and sustenance of high titres of the bioneutralizing antibodies were major limitations of these human contraceptive vaccines. Therefore, despite reaching Phase I and II clinical trials, these studies did not progress further. However, the same concept of an immunocontraceptive vaccine involving the neutralization of the functions of the gonadotropins is an extremely attractive strategy for controlling the animal populations where the reproduction process could be inhibited in its entirety. The overgrowing populations of the stray animals such as dogs and cats pose problems unlike those experienced with the human overpopulation. Thus, there is an immediate need to develop the methods of controlling the populations of these animals both in the developed and the developing countries. Whereas, in countries like the US, the major emphasis is on the domestic animals, in countries like India, the populations of the stray animals need to be controlled. The current methods employed for reducing the numbers of these animals include either castration or culling of the animals. These methods are however, traumatic, unsafe and not widely accepted by the society. The animal contraceptive vaccines currently available are mostly GnRH vaccines which have high cost of production, are not safe for animal use and elicit unwanted side effects. Apart from these, the animals need multiple administrations of these vaccines to elicit high and effective antibody titres, mostly with the use of conventional but non-approved adjuvants (Boedeker et al., 2009; McCoy, 1994). As mentioned above, the gonadotropins, by virtue of their ability to control the mammalian reproduction process, are attractive targets for achieving contraception. Moreover, the ease of administration of this vaccine to neutralize the functions of the endogenous circulating hormones makes them ideal targets for developing animal immunocontraceptive vaccines. This method of neutralizing the functions of the gonadotropins is also humane and safe for the animals as opposed to the current methods which are employed to reduce their numbers. However, in case of animal contraception, particularly for strays such as dogs, where large numbers of animals need to be treated, the challenge is to develop a method to sustain the high levels of the bioneutralizing antibodies for prolonged periods preferably with a single administration of the immunogen and without the use of conventional adjuvants such as the Freund’s adjuvant. In the present study, an attempt has been made develop a strategy to achieve a sustained immune response to small quantities of the hormonal antigens, preferably with a single administration of the immunogen resulting in complete disruption of the gonadal function for prolonged periods. To achieve this goal, recent developments in the field of immunology and vaccinology have been employed. This involves targeting of the hormonal antigens to the dendritic cells. Targeting the antigens to the dendritic cells for vaccination is becoming an extremely fascinating strategy and is being used extensively to target the antigens involved in several diseases (Escudier et al., 2005; Frankel et al., 1998; Garcia et al., 2005; Nouri-Shirazi et al., 2000a; Nouri-Shirazi et al., 2000b; Steinman and Germain, 1998). Most antigens are targeted to the dendritic cells by coupling them to the antibodies specific for the receptors expressed on the dendritic cell surface. One such receptor is the DEC205, which is expressed on most of the dendritic cells (Jiang et al., 1995) and is being widely used to develop vaccines and vaccination strategies. Targeting the antigens to the dendritic cells provides advantages such as ability to induce hundred fold higher immune response to very low doses of antigen without the use of any conventional adjuvant (Bonifaz et al., 2004a). Therefore, in the present study, these features of the dendritic cells have been harnessed to target the hormonal antigens (hCG and hFSH) to the canine DEC205 receptor to induce a long-term immune response capable of disrupting the gonadal functions. Towards this goal of delivering hormonal antigens to the dendritic cells, a fragment of the canine DEC205 corresponding to the Cysteine Rich Fibronectin II domain (CR/FNII) was expressed and used to isolate several canine DEC205 specific recombinant antibodies in the form of single chain fragment variable (ScFvs) from the Tomlinson’s and the yeast human ScFv display libraries. From a pool of eight unique ScFvs screened from the Tomlinson’s libraries, three ScFvs namely B3, G10 and H4 were characterized. All these ScFvs could bind to the human DEC205 receptor but not to the mouse DEC205. Their inability to recognise the mouse DEC205 suggested that mouse could not be used as the model system for these studies and therefore, a surrogate model system was needed. As the canine CR/FNII shared a high degree of homology with the rabbit counterpart, adult rabbits have been used as the surrogate model for immunization studies after confirming the binding of the ScFvs to the rabbit dendritic cells. Since the goal of the study was to deliver the hormonal antigens to the dendritic cells, each ScFv was translationally fused to a core streptavidin fragment, thus creating bi-functional agents (ScFv-CS) capable of binding to the dendritic cells and also to any biotin-tagged antigen, thus delivering the antigen to the dendritic cells. Of the three ScFvs, the ScFv-CS-H4 which could bind to the canine CR/FNII with the KD of 25nM was used for demonstrating the ability of the ScFv-hormone complex to elicit the bioneutralizing antibody response. The ScFv-CS-H4-biotin-hCG or hFSH or both were administered to adult male rabbits along with poly IC: LC, a Toll-like receptor agonist and the antibody titres were monitored. It was possible to maintain high titres of the bioneutralizing antibodies for more than one year with a single administration of the immunogen. Testicular histology of the immunized animals showed extensive disruption of spermatogenesis with most of the germ cells being TUNEL positive undergoing apoptosis. There was complete absence of elongated spermatids and sperms in the testis indicating infertility caused by immunization with the gonadotropins. These data show that targeting the hormonal antigens to the dendritic cells leads to long-term infertility with minimal immunization. Although the ScFvs from the Tomlinson’s libraries were able to deliver the hormonal antigens to the dendritic cells and produce robust and sustained antibody response capable of disrupting the gonadal functions, the affinities of these ScFvs to DEC205 were moderate. It was felt that increasing the affinities of the ScFvs could enhance the effect with respect to the dose of the antigen that needs to be administered and the duration until which the high antibody titres could be maintained. Therefore, the yeast human ScFv display library offering higher diversity of the human ScFvs displayed, was screened for high affinity DEC205 specific binders. From a pool of several ScFvs, six unique ScFvs were characterized. The amino acid sequences of all ScFvs followed the Kabat's rules for identifying the complimentarity determining regions of the heavy and the light chains of the antibodies. All these ScFvs were unique in their amino acid sequences. The dissociation constants of all these antibodies for the canine CR/ FNII ranged from 10-9 to 10-11 M which was 20-300 fold higher than the ScFvs obtained from the Tomlinson’s libraries. The best ScFv obtained from this library was ScFv-92 with a KD value of 8 x10-11 M. All these ScFvs were able to deliver the payload antigen to both, the mouse DEC205 over-expressing cells and the bone marrow derived dendritic cells. Mice immunized with yeast display ScFvs also yielded antibody response to very small quantities of the immunogen with the highest antibody titres obtained with the ScFv-92. It was further demonstrated that all ScFvs also activated the cell-mediated immunity with significant increase in the antigen stimulated T cell proliferation. These ScFvs could also deliver the antigen to the human dendritic cells differentiated from the human monocytes in vitro, thus emphasising their utility in human vaccine development. An attempt was also made to develop nanoparticle (NP) based strategies of delivering the antigen to the dendritic cells. The PLGA-NPs, encapsulating hCG and coated with the DEC205 ScFv-92 was able to elicit high antibody response to very low doses of the antigen. This response could be sustained for 120 days and was higher than the response obtained with similar doses of hCG encapsulated NPs or hCG complexed to ScFv-92 alone. Targeting of the NPs also elicited antigen specific T cell response thus, potentiating their use in cell mediated immunity along with humoral immune responses. In conclusion, this approach of delivering the gonadotropins to the dendritic cells resulted in the production of bioneutralizing antibodies that could disrupt the gonadal functions for a prolonged period and can be effectively used in the fields for controlling the animal populations. This method fulfils all the criteria for any animal contraception. This strategy also elicits both T cell mediated and humoral immunity and can thus be used for producing vaccine against viral and parasitic infections. It can also be used for cancer immunotherapy. Another exciting feature of the strategy used in this study is the usage of ScFv-CS which allows the delivery of any biotin tagged antigen to the rodent and human dendritic cells. As discussed above, the methods for controlling the animal populations are expected to be effective, humane, safe, simple, non-surgical, single shot with long lasting effects, cheap, applicable in the fields and widely accepted by different societies. The methods presented in this study fulfill all these criteria and should be effective in controlling populations of different animal species. Gonadotropins Animal Immunocontraceptive vaccine Dendritic Cells Hormonal Antigens Hormonal Antigens Gonadotropins Targeting Antigen Loaded Nanoparticles Contraceptive Vaccines Molecular Biology
1036	Etude de la différenciation et des fonctions des monocytes classiques au cours de l'infection par le cytomégalovirus murin / Study of classical monocytes differentiation and functions during murine cytomegalovirus infection Fries, Anissa 29 September 2016 (has links) Les monocytes classiques (cMo) sont des phagocytes mononucléés circulant dans le sang et capables de migrer vers les tissus enflammés pour s’y différencier en monocytes inflammatoires, cellules dendritiques dérivées de monocytes (MoDC), macrophages (MoM) ou cellules myéloïdes suppressives. Selon le contexte physiopathologique, les cellules dérivées de cMo peuvent être bénéfiques ou néfastes. Dans l’infection par le cytomégalovirus murin (MCMV) leur rôle est controversé. Les divergences apparentes dans la littérature pourraient s’expliquer par l’utilisation de souches distinctes de souris ou de virus, l’étude d’organes différents, et la confusion existante sur l’identité et la plasticité de différents sous-types de cellules dérivées de cMo. Par des analyses transcriptionnelles, morphologiques et fonctionnelles, mon travail de thèse montre que, dans la rate de souris infectées par MCMV, les cMo se différencient simultanément en monocytes inflammatoires, MoDC et MoM. Cette différenciation est abrogée lorsque les cMo sont incapables de répondre aux interférons de type I (IFN-I), massivement produits dans les infections virales, qui boostent l’immunité intrinsèque antivirale et promeuvent l’activation des cellules immunitaires innées et adaptatives. La déplétion des cMo compromet le contrôle de l’infection et les réponses des cellules Natural Killer et des lymphocytes T CD8+. Mon travail montre que, dans les souris infectées par MCMV, les cMo se différencient, de manière dépendante de l’IFN-I, en trois sous-types cellulaires distincts qui contribuent à la fois au contrôle de la réplication virale et à la promotion de réponses immunitaires innées et adaptatives protectrices. / Classical monocytes (cMo) are mononuclear phagocytes mainly localized in the blood at steady state. Upon inflammation cMo migrate into inflamed tissues where they can differentiate in inflammatory monocytes, monocyte-derived dendritic cells (MoDC), monocyte-derived macrophages (MoM) or myeloid derived suppressor cells (MDSC). Depending on the physiopathological context, cMo-derived cells can be beneficial or detrimental. There are major discrepancies between published reports on the role of cMo during MCMV infection. This may be due to the use of distinct strains of mice or of virus, to the study of different organs, or to the confusion existing in the field regarding the identity and the plasticity of the different types of cMo-derived cells. During my PhD, by combining gene expression profiling, morphological, phenotypical and functional studies, I have shown that splenic cMo in MCMV-infected mice encompass cells that had simultaneously differentiated in vivo into either inflammatory monocytes, MoDC or MoM. This cMo differentiation is abrogated in the absence of responsiveness to type I interferons (IFN-I), which are highly produced during viral infections and boosting cell-intrinsic anti-viral immunity as well as promoting the activation of innate and adaptive immune responses. cMo depletion compromises the control of MCMV replication and the antiviral responses of Natural Killer cells and CD8+ T lymphocytes. My PhD work demonstrates that, in MCMV-infected mice, cMo differentiate, via an IFN-I-dependent pathway, into three distinct cell subtypes that are involved both in the control of MCMV replication and in the induction of protective innate and adaptive immunity. Monocytes classiques Cytomégalovirus murin Interférons de type I Macrophages Classical monocytes Murine cytomegalovirus Type I interferons Monocyte derived dendritic cells Macrophages 570
1037	Etude des propriétés tumorigéniques des cellules dendritiques par identification des protéines cibles de l'ATP extracellulaire Bles, Nathalie 21 June 2010 (has links) Les nucléotides, et tout particulièrement l’ATP, sont capables de moduler la fonction de l’un des principaux acteurs de la réponse immunitaire à savoir les cellules dendritiques (DC). Les DC expriment à leur surface de nombreux récepteurs P2X et P2Y dont le P2Y11, couplé à la voie de l’AMP cyclique (AMPc) et impliqué dans l’immunomodulation. L’ATP est capable, par son action sur le P2Y11, d’induire une semi-maturation des DC caractérisée entre autre par une diminution de la sécrétion d’IL-12 et une augmentation de la sécrétion d’IL-10. De plus, des données antérieures obtenues au laboratoire montrent que l’ATP confère également des propriétés immunosuppressives aux DC en stimulant l’expression de la thrombospondine-1 (TSP-1) et de l’indoléamine-2,3-dioxygénase (IDO).<p><p>Dans ce contexte, notre projet visait à établir un profil d’expression génique en réponse à l’ATP dans des DC humaines issues de monocytes (MoDC) afin d’avoir une vue globale de l’action de l’ATP sur les DC. Dans un premier temps, nous avons donc réalisé une étude cinétique comparant les profils d’expression génique en réponse à l’ATPγS, un agoniste plus stable que l’ATP, et à la prostaglandine E2 (PGE2), un activateur de l’AMPc induisant une semi-maturation des DC, par la technique de microarray. L’analyse de ces profils a mis en évidence une action précoce et large de l’ATPγS sur les MoDC. Un grand nombre de régulations obtenues ont confirmé les effets déjà connus de l’ATP sur les DC. Par ailleurs, nous avons confirmé par différentes techniques plusieurs nouvelles cibles de l’ATP impliquées dans l’inflammation et la réponse immunitaire (ex. CSF-1, NRP-1, VEGF).<p><p>En analysant plus en détail ces profils, nous avons observés la régulation de plusieurs gènes dont VEGF, AREG, EREG et HB-EGF, intervenant dans les processus d’angiogenèse et de tumorigenèse. Parmi ceux-ci, le gène AREG codant pour l’amphiréguline, un ligand de l’EGF récepteur (EGFR) était le gène le plus régulé dans notre profil microarray. Pour la première fois, nous avons démontré que les DC traitées à l’ATPγS en présence de LPS constituaient une importante source d’amphiréguline capable de stimuler la croissance de cellules musculaires lisses et de cellules tumorales LLC (Lewis Lung Carcinoma) in vitro. <p>Parallèlement, nous avons étudié l’implication des cellules dendritiques traitées à l’ATPγS sur la croissance tumorale in vivo. Pour ce faire, nous avons coinjecté, à des souris C57 black/6, des cellules tumorales LLC avec des surnageants issus de BMDC traitées au LPS ou au LPS+ATPγS. De cette façon, nous avons mis en évidence que des surnageants issus de BMDC traitées au LPS+ATPγS induisaient une augmentation significative de la masse tumorale par rapport aux surnageants issus de BMDC traités au LPS seul. Au moyen d’un anticorps bloquant anti-amphiréguline, nous avons démontré que cette augmentation de la masse tumorale était due à l’importante sécrétion d’amphiréguline par les BMDC traitées au LPS+ATPγS. De plus, nous avons observé une augmentation du nombre de vaisseaux positifs pour l’α-SMA, un des marqueurs des cellules musculaires lisses, dans les tumeurs issues de la coinjection de cellules LLC avec des surnageants de BMDC traitées au LPS+ATPγS. Pour finir, nous avons montré que les DC au sein des tumeurs LLC expriment non seulement le récepteur EGFR mais également l’amphiréguline. Ces différents résultats observés mettent en avant l’importance de l’ATP extracellulaire dans la croissance tumorale par son action sur les DC. <p> / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished Disciplines biomédicales diverses Médecine pathologie humaine Adenosine triphosphate Immune response -- Regulation Nucleotides Dendritic cells Adénosine triphosphate Réaction immunitaire -- Régulation Nucléotides Cellules dendritiques tumeur ATP immunologie
1038	Caractérisation des cellules dendritiques plasmacytoïdes dans le sang de cordon ombilical Danis, Bénédicte 20 December 2007 (has links) Les cellules dendritiques plasmacytoïdes (pDCs) sont considérées comme quantitativement et qualitativement supérieures aux autres types cellulaires pour la synthèse des interférons (IFNs) de type I lors d’une infection virale. Plusieurs observations viennent supporter cette désignation. Tout d’abord, elles expriment un éventail très large des sous-types d’IFN-alpha en comparaison aux autres types cellulaires. Par ailleurs, elles possèdent la capacité de détecter la présence des virus via leurs TLR7 et TLR9, reconnaissant respectivement l’ARN ou l’ADN d’origine virale. Enfin, elles expriment de manière constitutive dans leur cytoplasme le facteur de transcription IRF-7 qui permet une synthèse rapide et robuste des IFNs de type I en réponse à l’infection. <p>Dans un précédent travail, il a été montré que les pDCs néonatales présentent un défaut majeur de synthèse d’IFN-alpha en réponse aux CpG ODNs, ligands du TLR9. Nous avons ensuite étendu notre étude des pDCs néonatales en les stimulant avec le R-848, ligand du TLR7, mais également en présence de virus tels que HCMV et HSV. Dans ces conditions également, la synthèse de l’IFN-alpha est déficiente dans les pDCs du nouveau-né. Nous avons également observé une déficience de production de l’IFN-beta suite à une stimulation via les ligands TLR7 et TLR9, tant au niveau protéique que de l’expression de l’ARN messager. Par ailleurs, la synthèse des cytokines/chimiokines inflammatoires par les pDCs du sang de cordon ainsi que leur maturation, fonctions dépendantes du facteur NF-kappaB, sont également diminuées en comparaison aux pDCs adultes, suite à une stimulation en présence du CpG ODN ou du R-848.<p>L’ensemble de ces données nous a amené à étudier de manière plus précise les voies de signalisation des pDCs néonatales suite à leur activation. Tout d’abord, nous avons observé que les taux d’expression des TLR7 et 9 tout comme le taux basal d’IRF-7 sont équivalents dans les pDCs néonatales et les pDCs adultes. Ensuite, grâce à la technique d’ImageStream (Amnis corporation), nous avons pu quantifier la translocation nucléaire des facteurs de transcription IRF-7 et de NF-kappaB dans les pDCs activées. Nous avons ainsi pu observer que la translocation de NF-kappaB est comparable dans les pDCs adultes et néonatales en réponse aux ligands TLR7 ou TLR9. Par contre, elle est déficiente lors d’une stimulation par HSV. La translocation du facteur IRF-7, quant à elle, est significativement déficiente en réponse au CpG ODN et au virus HSV dans les pDCs néonatales. <p>Nous proposons que le défaut de translocation d’IRF-7 mis en évidence dans les pDCs néonatales pourrait en partie expliquer la déficience de synthèse des IFNs de type I de ces cellules et fournir une base moléculaire à la plus grande susceptibilité du nouveau-né vis-à-vis des infections virales.<p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Sciences exactes et naturelles Biologie Dendritic cells Maternally acquired immunity Umbilical cord Interferon Cellules dendritiques Immunité intra-utérine Cordon ombilical Interférons nouveau-né cellules dendritiques IFN-alpha
1039	Biologie cellulaire des endosomes IRAP+ dans les cellules dendritiques / Cell biology of IRAP+ endosomes in dendritic cells Babdor, Joël 20 October 2014 (has links) Par leur activité permanente à l’état basal et en situation infectieuse, les cellules dendritiques (DC) de l’organisme orchestrent la tolérance du soi et l’élimination du non-soi, en façonnant les réponses immunes. Ce rôle immunologique complexe des DC repose en grande partie sur des mécanismes de biologie cellulaire spécifiques, qui font l’objet d’un effort considérable de caractérisation. Le travail réalisé au cours de cette thèse met en lumière une sous-population endosomale jouant un rôle clé dans les processus cellulaires de modulation de l’immunité par les DC : les endosomes IRAP+ (insulin responsive aminopeptidase). Etudiée dans différents contextes biologiques depuis 1930, IRAP s’est récemment révélée être impliquée dans l’apprêtement endo-phagosomal des antigènes exogènes par les DC, en vue de leur présentation croisée aux lymphocytes T (Saveanu et al., 2009; Weimershaus et al., 2012). Cette découverte a attiré notre attention sur les endosomes IRAP+/RAB14+ peu étudiés dans les DC. Ce travail étudie la place des endosomes IRAP dans la biologie cellulaire des DC ainsi que le rôle de ces endosomes dans les fonctions biologiques des DC. Nous avons étudié l’influence des endosomes IRAP sur les autres compartiments cellulaires et démontré leur implication dans un système endolysosomal de régulation de la réponse inflammatoire aux pathogènes. Nous avons également étudié l’impact de IRAP sur les processus de maturation des phagosomes et montré leur influence sur les processus subséquent d’élimination des pathogènes et de présentation croisée. Les endosomes IRAP+ sont donc mis en jeu dans la modulation de la maturation phagosomale et de l’inflammation, mais également dans l’optimisation de la présentation des antigènes aux lymphocytes T ; trois processus qui reposent sur une régulation fine de la compartimentation intracellulaire. L’ensemble des résultats de cette thèse définit les endosomes IRAP+ comme un des acteurs majeurs de la « régulation compartimentée » des processus cellulaires des DC, au cœur de la machinerie qui régit les équilibres de l’immunité. / Dendritic cells (DC) are central in immune system. They are permanently active in the organism at steady state and during infection, where they orchestrate tolerance against self and immunity against non-self, such a complex immunological role relies on specific cell biology mechanisms. These mechanisms are currently extensively studied. This work sheds light on a new endosomal compartment playing a crucial role in immunity modulation: IRAP (insulin responsive aminopeptidase)-containing endosomes. Studied in various contexts since 1930, IRAP was recently revealed to be required for exogenous antigen processing in endophagosomal compartment of DC and subsequent cell surface presentation to T lymphocytes (Saveanu et al., 2009; Weimershaus et al., 2012). This discovery prompted us to study IRAP+ endosomes that are poorly described in DC. This work studies IRAP-containing endosomes in DC compartments and questions their specific contribution in DC biological functions. We therefore investigated IRAP-containing endosomes relationship to other cellular compartments and demonstrated their requirement in an endolysosomal regulation system controlling pathogen related inflammation. We also studied the implication of IRAP-containing endosomes on phagosomes maturation and showed their influence on pathogen killing and cross presentation. IRAP-containing endosomes are required for several cellular functions that all rely on cellular compartmentalization. This work proposes IRAP-containing endosomes as a major actor of a “compartmental regulation” of DC functions, participating to fine tuning of immune balance. Cellules dendritiques Inflammation Présentation antigénique Immunité innée Endosomes Transit intracellulaire Dendritic cells Inflammation Antigen presentation Innate immunity Endosomes Intracellular trafficking 571.6
1040	Recherche de nouveaux facteurs génétiques de susceptibilité à la spondyloarthrite grâce à une approche associant études familiales et génomique fonctionnelle / Identification of new genetic factors of susceptibility to spondyloarthritis by combining famillial studies and functional genomics Costantino, Félicie 07 November 2014 (has links) La spondyloarthrite (SpA) est un rhumatisme inflammatoire chronique fréquent et invalidant. Plus d’une vingtaine de locus de susceptibilité à la maladie ont été identifiés à ce jour, dont HLA-B27 situé dans le complexe majeur d’histocompatibilité (CMH). L’objectif de ce travail était d’identifier de nouveaux facteurs génétiques de susceptibilité à la SpA grâce à une double approche d’études familiales et de génomique fonctionnelle. Dans la première partie, nous avons génotypé des familles multiplex de SpA. L’analyse de liaison non paramétrique a révélé la présence, en plus du CMH, d’un nouveau locus significativement lié à la SpA en 13q13. L’étude de ce locus nous a permis de restreindre la région d’intérêt à un intervalle de 1,3 Mb, dont le séquençage est en cours. Par ailleurs, l’étude d’association intra-familiale a identifié un SNP intronique de MAPK14 significativement associé à la SpA. Enfin, nous avons montré que l’un des SNPs du gène IL23R connu pour être associé à la spondylarthrite ankylosante était en fait associé à la présence d’une sacro-iliite radiologique dans la SpA. Parallèlement aux études familiales, nous avons comparé le transcriptome de cellules dendritiques de neuf patients atteints de SpA à celui de dix témoins sains. Nous avons ainsi identifié 81 gènes différentiellement exprimés. Nous avons aussi montré que l’expression génique d’ERAP1 (et à un moindre degré son expression protéique et son niveau d’activité enzymatique) étaient sous le contrôle de polymorphismes de ce gène associés à la SpA. / Spondyloarthritis (SpA) is a frequent and disabling chronic rheumatic disease. To date, more than 20 susceptibility loci have been identified, including HLA-B27 in the major histocompatibility complex (MHC). Most of the disease heritability remains to be elucidated. The aim of the study was to identify new genetic factors of susceptibility to SpA using an approach combining genetics and functional genomics. In the first part of this work, we genotyped SpA multiplex families with microarrays of 250,000 SNPs. Non parametric linkage analysis revealed a new locus significantly linked to SpA outside the MHC, in 13q13. Further studies on this locus allowed us to map the disease interval to a 1.3 Mb region, which will be soon sequenced. Moreover, family-based association study identified a significant association between one intronic SNP in MAPK14 and SpA. We also showed that one of the known ankylosing spondylitis-associated SNP in IL23R was indeed associated with sacroiliitis in SpA. We have also compared dendritic cells gene expression between nine SpA patients and ten controls and identified 81 genes differentially expressed. Moreover, we showed that ERAP1 gene expression (and at a less extent protein expression and enzymatic activity) is under the control of several polymorphisms in the gene which has previously been associated with SpA. Spondylarthrite Génétique Étude de liaison Association intra-familiale Transcriptomique Cellules dendritiques EQTL Spondyloarthritis Genetics Linkage analysis Family-based association Transcriptomics Dendritic cells EQTL 576.5

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