Global ETD Search

11	Study and treatment of intraocular inflammation by anti-inflammatory gene transfer to the retina Koch, Philippe 23 March 2011 (has links) Immunology plays an important role in many ocular disorders. With Evolution, some major organs are able to hide from the immune system. Ocular immune privilege (OIP) can be defined as the ability to raise immune tolerance against an antigen (Ag) when this Ag is placed in specific areas of the eye. Despite the presence of OIP, RPE cells transplanted to the subretinal space (SRS) encounter immune rejection. Specifically, posterior segment autoimmune uveitis (AIU) is a sight-threatening disorder affecting the working-age population. It could be defined as the alteration of OIP that allows retinal auto-antigen recognition by the immune system. Blood-retinal barrier (BRB) breakdown plays a central role in AIU, leading to invasion of leukocytes to the eye. Animal models of experimental autoimmune uveitis (EAU) play a major place in the comprehension of AIU, with correlations to human clinic. Using anti-inflammatory gene transfer to the eye with secreted proteins, different groups significantly reduced EAU development. SOCS1, being a natural intracellular down-regulator of IFNγ pathway and interacting on other cascades, appeared to be an interesting candidate.<p><p>We herein propose to study different therapeutical paradigms for intraocular inflammation using anti-inflammatory gene transfer to the retina.<p>Transfer of immuno-modulatory genes in RPE cells prior to their transplantation into the subretinal space could be useful to reduce immune rejection. We thus compared in vitro adeno-associated viral (AAV) gene transfer to a human immortalised RPE cell-line (ARPE-19) and primary cells (hRPE), to modify their genetic properties. We investigated 3 different serotypes and promoters in vitro, before evaluating a SOCS1 gene transfer to decrease immunogenicity of ARPE-19 cells in a xenograft rat model. We showed that AAV2 efficiently transduced at least 60% of ARPE-19 and hRPE cells, by comparison with the AAV1 and 5. In dividing ARPE-19 cells, mean-fluorescent intensity of CMV-driven gene expression was higher as compared to chicken beta-actin (CAG) and tetracycline inducible (TetON) promoters, but quickly decreased with time whereas CAG was more stable. AAV2-CAG-SOCS1 infection of ARPE-19 cells significantly decreased IFNγ-induced MHC II expression. In a last experiment, we infected in vitro ARPE-19 cells, using AAV2-CAG-SOCS1, prior to their delivery into the SRS of Lewis rats, and compared it with AAV2-CAG-eGFP-infected cells or non-infected cells. Since our preliminary results were not conclusive due to technical limitations, more extended investigations are necessary.<p>In another part, we developed a clinical grading system (CGS) to efficiently score EAU development in mice fundus. Particularly, we introduced the concept of active and inactive inflammation. However, some differences between CGS and histological (HGS) grading systems were pointed out to better characterise weaknesses of each method. We thus enhanced our CGS to reduce discrepancies with HGS but will need further investigations to obtain comparable grading systems.<p>Finally, we examined in vivo effects of a SOCS1 overexpression on EAU development, following AAV2-CAG-SOCS1 intravitreal (IVit) delivery in right eyes. We first tried two different intraocular routes of injections in this inflammatory model and showed IVit delivery to be the less traumatic. Due to important animal variabilities in EAU, SOCS1 overexpression did not lead to a significant reduction of inflammation when compared to GFP as a whole. However, our design study, allowing to compare injected versus non injected eyes, furthermore revealed IVit injection side effects with pro-inflammatory reaction due to the injection of AAV2-CAG-eGFP itself. In order to reduce the impact of inter-animal variability, we standardized the data by comparing the mean of ratios of injected over non-injected eyes (I/NI) for each animal rather than absolute values. We showed a significant reduction of the clinical and histological scores of the SOCS1 group as compared to the GFP group that was even stronger in the AAV2-targeted parts of the eyes. However, we missed a saline control to corroborate using our GFP group as a control and will need to introduce in a close future some bilateral injections to validate the use of the mean of grading ratios of I/NI in our experiments. Particularly, we showed a different pattern of MHC II positive invading cells in the ciliary body between SOCS1 treated and non-treated eyes. Further investigations are necessary to confirm and characterise SOCS1 protective mechanism in EAU. / Doctorat en Sciences médicales / info:eu-repo/semantics/nonPublished Médecine pathologie humaine Inflammation -- Immunological aspects Genetic transformation Eye -- Inflammation Uveitis -- Immunological aspects Inflammation (Pathologie) -- Immunologie Transfert de gènes Oeil -- Inflammation Uvéite -- Immunologie uveitis RPE graft clinical grading system Gene Transfer
12	Contrôle des réponses immunitaires de type Th1 par les lymphocytes T régulateurs naturels et induits Coquerelle, Caroline 02 September 2008 (has links) Depuis leur découverte en 1973 par Steinman et Cohn, le rôle des cellules dendritiques dans l’initiation des réponses immunitaires a largement été documenté. En effet, les cellules dendritiques constituent les cellules présentatrices d’antigènes professionnelles capables de détecter des molécules microbiennes et inflammatoires afin d’activer le système immunitaire. Outre leur implication dans l’induction des réponses immunes, de plus en plus d’études suggèrent que les cellules dendritiques interviennent dans le contrôle des réponses immunitaires via la sécrétion de cytokines anti-inflammatoires et/ou l’activation ou l’induction de lymphocytes T régulateurs. Ceux-ci incluent les cellules T régulatrices issues naturellement du thymus et les cellules T régulatrices induites en périphérie. <p><p>Des résultats obtenus au sein de notre laboratoire ont mis en évidence l’importance des cellules T régulatrices dans le contrôle des réponses de type Th1 induites à l’aide de cellules dendritiques matures chargées avec des antigènes étrangers. Nous avons, dès lors, étudié le rôle du récepteur CTLA-4 exprimé constitutivement à la surface des cellules T régulatrices dans le contrôle des réponses immunitaires induites à l’aide de cellules dendritiques matures et dans un modèle d’inflammation intestinale. L’injection d’anticorps anti-CTLA-4 induit in vitro et in vivo une inhibition de la production d’IFNγ et protège les souris de la colite pro-Th1 induite par l’instillation de TNBS. Cette protection corrèle étroitement avec l’induction de lymphocytes T régulateurs exprimant fortement la molécule ICOS et sécrétant de l’interleukine 10. De plus, nos résultats suggèrent que l’interleukine 10 et l’indoléamine 2, 3 dioxygénase seraient impliquées dans la fonction régulatrice des lymphocytes T ICOShigh. <p><p>Nous avons également analysé les mécanismes impliqués dans le contrôle des réponses de type Th1 par les lymphocytes T régulateurs naturels. Nos résultats suggèrent une régulation différente des réponses Th1 en présence et en absence de cette population régulatrice. En effet, les réponses Th1 sont dépendantes de l’interleukine 12 en présence de lymphocytes T régulateurs naturels, alors qu’en leur absence, la molécule CD70 est requise. <p><p>En conclusion, nos résultats suggèrent que les lymphocytes T régulateurs naturels et induits contrôlent les réponses immunes de type Th1. Au cours de ce travail, nous avons mis en évidence des stratégies distinctes par lesquelles ces deux populations régulatrices contrôlent la réponse immune. Ces résultats complètent la compréhension des mécanismes de régulation du système immunitaire et ouvrent de nouvelles perspectives d’approche immunothérapeutique.<p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished Sciences exactes et naturelles Biologie Immune response Inflammation -- Immunological aspects Dendritic cells T cells Réaction immunitaire Inflammation (Pathologie) -- Immunologie Cellules dendritiques Lymphocytes T lymphocytes T régulateurs inflammation balance Th1/Th2 cellules dendritiques
13	Twist1 and Etv5 are part of a transcription factor network defining T helper cell identity Pham, Duy 11 July 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / CD4 T helper cells control immunity to pathogens and the development of inflammatory disease by acquiring the ability to secrete effector cytokines. Cytokine responsiveness is a critical component of the ability of cells to respond to the extracellular milieu by activating Signal Transducer and Activator of Transcription factors that induce the expression of other transcription factors important for cytokine production. STAT4 is a critical regulator of Th1 differentiation and inflammatory disease that attenuates the gene-repressing activity of Dnmt3a. In the absence of STAT4, genetic loss of Dnmt3a results in de-repression of a subset of Th1 genes, and a partial increase in expression that is sufficient to observe a modest recovery of STAT4-dependent inflammatory disease. STAT4 also induces expression of the transcription factors Twist1 and Etv5. We demonstrate that Twist1 negatively regulates Th1 cell differentiation through several mechanisms including physical interaction with Runx3 and impairing STAT4 activation. Following induction by STAT3-activating cytokines including IL-6, Twist1 represses Th17 and Tfh differentiation by directly binding to, and suppressing expression of, the Il6ra locus, subsequently reducing STAT3 activation. In contrast, Etv5 contributes only modestly to Th1 development but promotes Th differentiation by directly activating cytokine production in Th9 and Th17 cells, and Bcl6 expression in Tfh cells. Thus, the transcription factors Twist1 and Etv5 provide unique regulation of T helper cell identity, ultimately impacting the development of cell-mediated and humoral immunity. Cytokines -- Research Immunity Cytokines -- Therapeutic use Inflammation -- Immunological aspects Cellular immunity T cells Immunoglobulins -- Research -- Analysis Transcription factors -- Research Colony-stimulating factors (Physiology) Cellular signal transduction Gene expression Immunogenetics Genetic transcription -- Regulation DNA -- Analysis Immunopathology
14	Development and stability of IL-17-secreting T cells Glosson, Nicole L. January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / IL-17-producing T cells are critical to the development of pathogen and tumor immunity, but also contribute to the pathology of autoimmune diseases and allergic inflammation. CD8+ (Tc17) and CD4+ (Th17) IL-17-secreting T cells develop in response to a cytokine environment that activates Signal Transducer and Activator of Transcription (STAT) proteins, though the mechanisms underlying Tc17/Th17 development and stability are still unclear. In vivo, Tc17 cells clear vaccinia virus infection and acquire cytotoxic potential, that is independent of IL-17 production and the acquisition of IFN-γ-secreting potential, but partially dependent on Fas ligand, suggesting that Tc17-mediated vaccinia virus clearance is through cell killing independent of an acquired Tc1 phenotype. In contrast, memory Th cells and NKT cells display STAT4-dependent IL-23-induced IL-17 production that correlates with Il23r expression. IL-23 does not activate STAT4 nor do other STAT4-activating cytokines induce Il23r expression in these populations, suggesting a T cell-extrinsic role for STAT4 in mediating IL-23 responsiveness. Although IL-23 is important for the maintenance of IL-17-secreting T cells, it also promotes their instability, often resulting in a pathogenic Th1-like phenotype in vitro and in vivo. In vitro-derived Th17 cells are also flexible when cultured under polarizing conditions that promote Th2 or Th9 differentiation, adopting the respective effector programs, and decreasing IL-17 production. However, in models of allergic airway disease, Th17 cells do not secrete alternative cytokines nor adopt other effector programs, and remain stable IL-17-secretors. In contrast to Th1-biased pro-inflammatory environments that induce Th17 instability in vivo, during allergic inflammatory disease, Th17 cells are comparatively stable, and retain the potential to produce IL-17. Together these data document that the inflammatory environment has distinct effects on the stability of IL-17-secreting T cells in vivo. Anti-inflammatory agents Inflammation -- Immunological aspects Respiratory allergy T cells -- Immunology Interleukins -- Immunology Asthma -- Pathophysiology Th1 cells -- Research Th2 cells -- Research Cellular immunity Immune response -- Regulation Cellular control mechanisms
15	Elucidating the role of BCL6 in helper T cell activation, proliferation, and differentiation Hollister, Kristin N. January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / The transcriptional repressor BCL6 has been shown to be essential for the differentiation of germinal center (GC) B cells and follicular T helper (TFH) cells. The interaction of TFH and GC B cells is necessary for the development of high affinity antibodies specific for an invading pathogen. Germline BCL6-deficient mouse models limit our ability to study BCL6 function in T cells due to the strong inflammatory responses seen in these mice. To overcome this, our lab has developed a new BCL6 conditional knockout (cKO) mouse using the cre/lox system, wherein the zinc finger region of the BCL6 gene is flanked by loxP sites. Mating to a CD4-Cre mouse allowed us to study the effects of BCL6 loss specifically in T cells, without the confounding effects seen in germline knockout models. Using this cKO model, we have reaffirmed the necessity of BCL6 for TFH differentiation, including its role in sustained CXCR5 surface expression, a signature marker for TFH cells. This model also allowed us to recognize the role of BCL6 in promoting the expression of PD-1, another key surface marker for TFH cells. Without BCL6, CD4+ T cells cannot express PD-1 at the high levels seen on TFH cells. Our discovery of DNMT3b as a target for BCL6 suggests BCL6-deficient T cells have increased DNA methyltransferase activity at the PD-1 promoter. This data establishes a novel pathway for explaining how BCL6, a transcriptional repressor, can activate genes. Experiments with the BCL6 cKO model have also established a role for BCL6 in naïve CD4+ T cell activation. Furthermore, we did not observe increased differentiation of other helper T cell subsets, in contrast to what has been reported elsewhere with germline BCL6-deficient models. Unexpectedly, we found decreased T helper type 2 (Th2) cells, whereas mouse models with a germline mutation of BCL6 have increased Th2 cells. These results indicate that BCL6 activity in non-T cells is critical for controlling T cell differentiation. Finally, using an HIV-1 gp120 immunization model, we have, for the first time, shown BCL6-dependent GCs to be limiting for antibody development and affinity maturation in a prime-boost vaccine scheme. T cells follicular T helper cells BCL6 germinal center HIV vaccine T cells -- Differentiation Cell transformation -- Regulation Repressors, Genetic -- Research HIV (Viruses) -- Vaccination AIDS vaccines -- Research Inflammation -- Immunological aspects B cells -- Research -- Analysis Germinal centers Immune system Autoimmune diseases Mice -- Diseases -- Molecular aspects Animal models in research
16	Control of inflammation, helper T cell responses and regulatory T cell function by Bcl6 Sawant, Deepali Vijay 13 January 2014 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Regulatory T (Treg) cells represent an important layer of immune-regulation indispensible for curtailing exuberant inflammatory responses and maintaining self-tolerance. Treg cells have translational potential for autoimmunity, inflammation, transplantation and cancer. Therefore, delineating the molecular underpinnings underlying the development, suppressor function and stability of Tregs is particularly warranted. The transcriptional repressor Bcl6 is a critical arbiter of helper T cell fate, promoting the follicular helper (Tfh) lineage while repressing Th1, Th2 and Th17 differentiation. Bcl6-deficient mice develop a spontaneous and severe Th2-type inflammatory disease including myocarditis and pulmonary vasculitis, suggesting a potential role for Bcl6 in Treg cell function. Bcl6-deficient Treg cells are competent in controlling Th1 responses, but fail to control Th2 inflammation in an airway allergen model. Importantly, mice with Bcl6 deleted specifically in the Treg lineage develop severe myocarditis, thus highlighting a critical role for Bcl6 in Treg-mediated control of Th2 inflammation. Bcl6-deficient Tregs display an intrinsic increase in Th2 genes and microRNA-21 (miR-21) expression. MiR-21 is a novel Bcl6 gene target in T cells and ectopic expression of miR-21 directs Th2 differentiation in non-polarized T cells. MiR-21 is up-regulated in mouse models of airway inflammation and also in human patients with eosinophilic esophagitis and asthma. Thus, miR-21 is a clinically relevant biomarker for Th2-type pathologies. Our results define a key function for Bcl6 in repressing Gata3 function and miR-21 expression in Tregs, and provide greater understanding of the control of Th2 inflammatory responses by Treg cells. T cells -- Research -- Analysis Th2 cells -- Research -- Analysis B cells -- Research -- Analysis Immune response -- Regulation Inflammation -- Immunological aspects Autoimmunity Mice -- Diseases -- Molecular aspects Myocarditis -- Immunological aspects Lungs -- Blood-vessels -- Diseases Allergy -- Research -- Analysis RNA -- Research -- Analysis Asthma -- Etiology Eosinophilia

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