Global ETD Search

101	Le rôle des protéases et chaperonnes dans la signalisation des récepteurs Toll endocytiques et la présentation croisée dans les cellules dendritiques / The role of proteases and chaperones in signaling endocytic Toll-like receptors and cross-presentation in dendritic cells. Maschalidi, Sophia 29 June 2012 (has links) Pas de résumé en français / Pas de résumé en anglais Protéases Chaperonnes Récepteurs Toll Cellules dendritiques Protease Chaperone (protein) Toll-like receptor Dendritic cell
102	Immunogénicité d'une glycoprotéine tumorale pancréatique, la lipase sels biliaires-dépendante pathologique et vaccination par des cellules dendritiques Collignon, Aurélie 10 December 2012 (has links) Le cancer du pancréas exocrine est un cancer très agressif associé à un diagnostic tardif et une résistance aux traitements conventionnels. L'identification de nouveaux marqueurs spécifiques est nécessaire afin de développer des outils diagnostiques ainsi que des traitements innovants. La lipase sels biliaires-dépendante pathologique (BSDLp), une glycoforme tumorale de la BSDL, se caractérise par l'apparition d'épitopes glycosylés reconnus par les anticorps monoclonaux J28 et 16D10. Leur expression spécifique par certaines lignées et tissus pancréatiques tumoraux humains nous permet d'envisager leur utilisation comme cible d'immunothérapie anti-tumorale par les cellules dendritiques (DC). Notre objectif est d'explorer la capacité de la BSDLp à induire une immunité cellulaire et d'apporter une preuve de concept de vaccination par les DC dans un modèle expérimental. Chez l'Homme, nous montrons que les DC chargées avec la partie C-terminale de la BSDLpJ28 (C-ter-J28) induisent l'activation des lymphocytes T. Dans le modèle murin, nous mettons en évidence l'expression de l'épitope J28 à la surface des cellules d'adénocarcinome pancréatique Panc02, utilisées pour induire des tumeurs. Nous montrons que la glycoprotéine BSDLpJ28 est immunogène chez la souris C57BL/6J. De plus, les DC chargées avec le C-ter-J28 puis soumises à maturation sont capables d'induire une réponse cellulaire T. Enfin, les DC, chargées et soumises à maturation ou non, testées en traitement prophylactique instaurent une protection substantielle, de longue durée, chez les souris vaccinées. Dans ces conditions, les DC, immatures lors de l'injection, jouent un rôle important dans la protection anti-tumorale. / Pancreatic adenocarcinoma is an aggressive cancer associated to late diagnosis and resistance to conventional treatments. Identification of novel specific markers is necessary to develop diagnostic tools and innovative treatments. Pathological bile salt-dependent lipase (pBSDL), a tumoral glycovariant of BSDL, is characterized by the appearance of glycosylated epitopes recognized by J28 and 16D10 monoclonal antibodies. Their expression specific to some human tumor pancreatic cell lines and tissues led us to consider their use as targets for dendritic cell (DC) antitumor immunotherapy. Our aim is to explore the ability of pBSDL to induce cellular mediated immunity and to provide a proof of concept of DC vaccination in an experimental model. In humans, we show that DC pulsed with C-ter moiety of pBSDL-J28 (C-ter-J28) can induce T-cell activation. In mouse model, we demonstrate the expression of J28 epitope on pancreatic adenocarcinoma Panc02 cells, used to induce tumors in C57Bl/6 mice. We show that glycoprotein pBSDL (pBSDL-J28) is immunogenic in mice. Moreover, DC pulsed with C-ter-J28 and matured, are able to induce T-cell response. Finally, DC pulsed and matured or not, tested in prophylactic treatment provide long-term substantial protection in vaccinated mice. In these conditions, DC, immature at the time of the injection, play an important role in antitumor protection. Adénocarcinome pancréatique Immunothérapie Cellule dendritique Glycoprotéine tumorale Vaccination Pancreatic adenocarcinoma Immunotherapy Dendritic cell Tumor glycoprotein Vaccination
103	IMMUNE EVASION BY DIVISION OF LABOR: THE TROPHIC LIFE CYCLE STAGE OF <em>PNEUMOCYSTIS MURINA</em> SUPPRESSES INNATE IMMUNITY TO THIS OPPORTUNISTIC, FUNGAL PATHOGEN Evans, Heather M. 01 January 2017 (has links) Pneumocystis species are opportunistic fungal pathogens that cause severe pneumonia in immunocompromised hosts, including AIDS patients. Pneumocystis species have a biphasic life cycle consisting of single-nucleated trophic forms and ascus-like cysts. Both stages live within the host, and, thus, must contend with threats from the host immune system. The cyst cell wall β-glucans have been shown to stimulate immune responses in lung epithelial cells, dendritic cells and alveolar macrophages. Little is known about how the trophic life forms, which do not have a fungal cell wall, interact with immune cells. In this study, the immune response to the life cycle stages of Pneumocystis murina was evaluated. Here, we report differences in the immune response of immunocompetent mice to the trophic and cystic life cycle stages of P. murina. Upon infection with purified trophic forms, wild-type adult mice developed a delayed innate and adaptive immune response compared to inoculation with the normal mixture of trophic forms and cysts. Cysts, but not trophic forms, stimulated Th1-type responses in the lungs of infected mice. Surprisingly, trophic forms are sufficient to generate protective adaptive responses, leading to clearance in immunocompetent mice. We report that CD4+ T cells primed in the presence of trophic forms are sufficient to mediate clearance of trophic forms and cysts. In addition, primary infection with trophic forms is sufficient to prime B cell memory responses capable of clearing a secondary infection with Pneumocystis following CD4+ T cell depletion. While trophic forms are sufficient for initiation of adaptive immune responses in immunocompetent mice, infection of immunocompromised RAG2-/- mice with trophic forms in the absence of cysts does not lead to the severe weight loss and infiltration of innate immune cells associated with the development of Pneumocystis pneumonia. Dendritic cells screen the alveolar spaces for pathogens, and are in a prime position to initiate the immune response against lung pathogens, including Pneumocystis. Our data demonstrate that trophic forms broadly dampen the ability of dendritic cells to respond to pathogen-associated molecular patterns. Bone marrow-derived dendritic cells were stimulated with trophic forms, a mixture of trophic forms and cysts, and various other inflammatory materials, including β-glucan. Trophic forms inhibited multiple components involved in antigen presentation by dendritic cells, including secretion of inflammatory cytokines and expression of MHC class II and costimulatory molecules on the cell surface. Furthermore, trophic forms suppressed or failed to induce the expression of multiple genes related to activation and maturation in dendritic cells. Dendritic cells silenced by trophic forms are unable to induce CD4+ T cell responses. These data suggest that immune evasion by trophic forms is dependent on the suppression of innate responses, and the development of adaptive immunity represents a “point of no return” at which the trophic forms are no longer able to escape clearance. Pneumocystis fungal infection dendritic cell antigen presentation immune evasion immunology Immunology of Infectious Disease
104	Analysis of Tumor-Immune Dynamics in an Evolving Dendritic Cell Therapy Model January 2020 (has links) abstract: Cancer is a worldwide burden in every aspect: physically, emotionally, and financially. A need for innovation in cancer research has led to a vast interdisciplinary effort to search for the next breakthrough. Mathematical modeling allows for a unique look into the underlying cellular dynamics and allows for testing treatment strategies without the need for clinical trials. This dissertation explores several iterations of a dendritic cell (DC) therapy model and correspondingly investigates what each iteration teaches about response to treatment. In Chapter 2, motivated by the work of de Pillis et al. (2013), a mathematical model employing six ordinary differential (ODEs) and delay differential equations (DDEs) is formulated to understand the effectiveness of DC vaccines, accounting for cell trafficking with a blood and tumor compartment. A preliminary analysis is performed, with numerical simulations used to show the existence of oscillatory behavior. The model is then reduced to a system of four ODEs. Both models are validated using experimental data from melanoma-induced mice. Conditions under which the model admits rich dynamics observed in a clinical setting, such as periodic solutions and bistability, are established. Mathematical analysis proves the existence of a backward bifurcation and establishes thresholds for R0 that ensure tumor elimination or existence. A sensitivity analysis determines which parameters most significantly impact the reproduction number R0. Identifiability analysis reveals parameters of interest for estimation. Results are framed in terms of treatment implications, including effective combination and monotherapy strategies. In Chapter 3, a study of whether the observed complexity can be represented with a simplified model is conducted. The DC model of Chapter 2 is reduced to a non-dimensional system of two DDEs. Mathematical and numerical analysis explore the impact of immune response time on the stability and eradication of the tumor, including an analytical proof of conditions necessary for the existence of a Hopf bifurcation. In a limiting case, conditions for global stability of the tumor-free equilibrium are outlined. Lastly, Chapter 4 discusses future directions to explore. There still remain open questions to investigate and much work to be done, particularly involving uncertainty analysis. An outline of these steps is provided for future undertakings. / Dissertation/Thesis / Doctoral Dissertation Applied Mathematics 2020 Applied mathematics Oncology Backward Bifurcation Dendritic Cell Therapy Hopf Bifurcation Mathematical Biology Sensitivity Analysis Time Delay
105	Effet des agrégats de protéines sur la maturation des cellules dendritiques : implication dans l'immunogénicité des protéines thérapeutiques / Effect of protein aggregates on Dendritic Cell maturation : implication for immunogenicity Gallais, Yann 11 May 2016 (has links) Un inconvénient majeur de l’utilisation des protéines thérapeutiques est leur immunogénicité,c'est-à-dire le déclenchement chez les patients d’une réponse immunitaire, avec production d’anticorps (anti-drug antibodies, ADA). Parmi les facteurs contributifs, les agrégats de protéines dans les spécialités administrées pourraient jouer un rôle majeur dans l’immunogénicité. Par ailleurs, la présence d’ADA de haute affinité et de divers isotypes suggère la mise en place d’une réponse immunitaire classique, faisant intervenir les cellules présentatrices d’antigènes et plus particulièrement les cellules dendritiques.Nous avons développé un modèle d’étude de l’impact d’agrégats de protéines sur la maturation de cellules dendritiques, dérivées de monocytes isolés du sang(moDC). Dans ce but, des agrégats d’hormone de croissance (GH) et d’anticorps (Rituximab) ou d’IgG1 polyclonale ont été produits et caractérisés.Nous avons montré que ces agrégats induisent la maturation des moDC, objectivée par une augmentation de l’expression de marqueurs d’activation et de co-stimulation (CD40, CD80,CD83, CD86 et HLA-DR), et par l’augmentation dela production de cytokines et chimiokines proinflammatoires (IL-6, IL-8,IL-12p40, CCL2, CCL3,CCL4 et CXCL10).En utilisant un modèle de co-culture allogénique,nous avons montré que les moDC stimulées par les agrégats induisent la prolifération de lymphocytes TCD4+, dont la polarisation dépendait de la nature de la protéine. Ainsi les agrégats de GH conduisent à une production majoritaire d’IFNγ, signe d’une réponse de type Th1, tandis que les agrégats d’anticorps induisent une réponse mixte, Th1, Th2,Th17 (production d’IFNγ, IL-5, IL-13 et IL-17.Enfin, nous avons commencé l’étude des mécanismes intra cellulaires impliqués dans l’activation des moDC, en montrant que les agrégats de GH induisent la phosphorylation de p38MAPK, ERK, JNK et NF-κB (p65). Ces mêmes voies de signalisation sont impliquées dans l’expression de CXCL10,chimiokine connue pour induire la polarisation Th1.Au final, ces résultats confirment l’effet immunomodulateur des agrégats de protéines sur les cellules dendritiques et précisent leur rôle de signal de danger conduisant à la mise en place d’une réponse immunitaire contre les protéines thérapeutiques. / A major drawback in therapeutic biological products (BP) use is the development of anti-drug antibodies (ADA) in patients. Among other factors, BP aggregates seems to play a major role in immunogenicity. Moreover, the presence of ADA with high affinity and different isotypes suggest a CD4 T-cell dependent immune response and therefore a pivotal role for antigen presenting cells, such as dendritic dells (DC).In order to determine if BP aggregates participate to DC activation, aggregates form human growth hormone (GH) and antibodies (Rituximab and polyclonal IgG1) were produced and characterized.Their impact was tested on a model of monocytederived dendritic cells (mo-DC).We have shown aggregates were able to induce moDC maturation, as observed with increase of key co-stimulatory and maturation markers (CD40, CD80, CD83, CD86 and HLA-DR), and by increase of pro-inflammatory cytokines and chemokines (IL-6, IL-8, IL-12p40, CCL2, CCL3, CCL4, CXCL10).Using an allogenic model of co-culture, we have shown that moDC stimulated with aggregates were able to induce CD4+ T cells proliferation.Polarization was different following the nature of the protein. GH aggregates were able to induceIFNγ, sign of Th1 response, whereas antibody aggregates induced Th1, Th2, Th17 mix response (with production of IFNγ, IL-5, IL-13 and IL-17).Finally, we started to study intracellular mechanisms involved in moDC activation, by showing that GH aggregates were able to induce p38MAPK, ERK, JNK and NF-κB (p65)phosphorylation. These pathways are involved in CXCL10 expression, which is implicated in Th1 polarization. These results confirmed the immunomodulary effect of protein aggregates on DC and their role as danger signal, inducing an immune response against therapeutic proteins. Cellule dendritique Immunogénicité Agrégat de protéine thérapeutique Dendritic cell Immunogenicity Therapeutic protein aggregate
106	Percutaneous sensitization is limited by in situ inhibition of cutaneous dendritic cell migration via skin-resident regulatory T cells / 経皮感作は皮膚制御性T細胞による樹状細胞遊走の阻害を介して制限されている Hanakawa, Sho 25 November 2019 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(医科学) / 甲第22122号 / 医科博第107号 / 新制\|\|医科\|\|7(附属図書館) / 京都大学大学院医学研究科医科学専攻 / (主査)教授生田宏一, 教授濵﨑洋子, 教授杉田昌彦 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM skin percutaneous sensitization regulatory T cell dendritic cell Interleukin-10 (IL-10) 491
107	Anti-inflammatory modulation of human myeloid-derived dendritic cell subsets by lenalidomide / レナリドミドは骨髄系樹状細胞に作用して抗炎症効果を発揮する Yamamoto, Kazuyo 24 November 2020 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22830号 / 医博第4669号 / 新制\|\|医\|\|1047(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授江藤浩之, 教授武藤学, 教授伊藤貴浩 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM dendritic cell subset lenalidomide cytokine anti-inflammatory effect T cell differentiation 490
108	Identification and Characterization of Rab39a and Its Role in Crosspresentation Cruz, Freidrich M. 31 May 2017 (has links) Crosspresentation allows antigen presenting cells to present peptides from exogenously derived antigens onto MHC Class I for presentation to CD8+ T cells. Though this pathway shares key players with the Classical Class I and Class II pathways, several questions remain. A genomewide siRNA screen was performed to look for genes that selectively affected the crosspresentation or the Class II pathways. Among the genes identified in the screen was the Rab GTPase Rab39a. Rab39a was required for efficient crosspresentation but was dispensable for the presentation of endogenously expressed antigen. Both TAP-dependent and independent antigen required Rab39a for efficient presentation. Rab39a localized to late endosomes and phagosomes, though interestingly it was not required for the Class II pathway. Analysis of phagosomes from Rab39a KO or rescued cells has shown that in the presence of Rab39a, phagosomes were enriched for the open form of MHC Class I as well as TAP1, a member of the peptide loading complex. The enriched open form of MHC-I was peptide receptive, suggesting that it could contribute to crosspresentation. Phagosomes from Rab39a positive cells had reduced degradative capability and had increased levels of Sec22b, a SNARE protein reported to deliver ER-golgi sourced cargo to phagosomes. Furthermore, inhibition of ER-golgi transport via brefeldin A abolished the phenotype conferred by Rab39a. Thus, we hypothesize that Rab39a mediates the delivery of ER-golgi derived cargo to the antigen containing phagosome. This delivery allows peptide receptive MHC-I, as well as the peptide loading complex to reach the antigen, thereby facilitating crosspresentation. Antigen Presentation Dendritic Cell Rab GTPase Crosspresentation MHC Cell Biology Immunity Immunology of Infectious Disease
109	β-Glucan Size Controls Dectin-1-Mediated Immune Responses in Human Dendritic Cells by Regulating IL-1β Production Elder, Matthew J., Webster, Steve J., Chee, Ronnie, Williams, David L., Hill Gaston, J. S., Goodall, Jane C. 07 July 2017 (has links) Dectin-1/CLEC7A is a pattern recognition receptor that recognizes β-1,3 glucans, and its stimulation initiates signaling events characterized by the production of inflammatory cytokines from human dendritic cells (DCs) required for antifungal immunity. β-glucans differ greatly in size, structure, and ability to activate effector immune responses from DC; as such, small particulate β-glucans are thought to be poor activators of innate immunity. We show that β-glucan particle size is a critical factor contributing to the secretion of cytokines from human DC; large β-glucan-stimulated DC generate significantly more IL-1β, IL-6, and IL-23 compared to those stimulated with the smaller β-glucans. In marked contrast, the secretion of TSLP and CCL22 were found to be insensitive to β-glucan particle size. Furthermore, we show that the capacity to induce phagocytosis, and the relative IL-1β production determined by β-glucan size, regulates the composition of the cytokine milieu generated from DC. This suggests that β-glucan particle size is critically important in orchestrating the nature of the immune response to fungi. dectin-1 dendritic cell IL-1β phagocytosis reactive oxygen species β-glucan Surgery
110	Development of a Dendritic Cell Vaccine Encoding Multiple Cytotoxic T Lymphocyte Epitopes Targeting Hepatitis C Virus Zhou, Yun, Zhao, Futao, Chen, Lin, Ma, Li, Wang, Yu, He, Yu, Ma, Zhiyuan, Liu, Haili, Guo, Yonghong, Zhang, Ying, Yao, Zhi Qiang, Hao, Chunqiu, Jia, Zhansheng 01 October 2013 (has links) The aim of the present study was to develop a dendritic cell (DC) vaccine encoding hepatitis C virus (HCV) multiple cytotoxic T lymphocyte (CTL) epitopes that can stimulate T cell responses in vitro, and can be used for immunization in vivo. DCs were infected with recombinant replication-defective adenoviruses (Ads) expressing 2 HCV sequences fused with green fluorescent protein (GFP) and FLAG tags. One sequence (sequence 1) contained the HCV CTL epitopes, NS4B 1793-1801 and P7 774-782, as well as the HCV Th epitope, NS3 1248-1261. A second sequence (sequence 2) was the positive epitope control which contained HCV core 35-44, core 132-140 and NS3 1248-1261. The efficiency of infection was detected by flow cytometry and the expression of HCV epitopes in the DCs was confirmed by RT-PCR and western blot analysis. Ad infection significantly enhanced DC maturation and interleukin (IL)-12p70 production, resulting in T cell proliferation and increased interferon-γ secretion. The CTLs stimulated by Ad-infected DCs specifically killed Huh7.5 human hepatoma cells. The recombinant Ad-expressing multiple CTL HCV epitopes effectively infected the DCs in vitro and promoted T cell antiviral immune responses, thereby laying the foundation for the development of anti-HCV DC vaccines. adenovirus cytotoxic T lymphocyte epitope dendritic cell hepatitis C virus vaccine Internal Medicine

Search results