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Regulatory T cells control the CD4 T cell repertoireStefkova, Martina 08 July 2016 (has links) (PDF)
Des études récentes menées chez l’homme et la souris ont suggéré que la diversité du répertoire TCR pourrait jouer un rôle dans la protection contre des pathogènes à haut pouvoir mutagène. Afin d’étudier le répertoire des lymphocytes T CD4, nous avons utilisé un modèle de souris TCRβ transgéniques exprimant une chaine β spécifique du peptide env122-141 dans le contexte du MHCII. Suite à l’immunisation des souris TCRβ transgéniques avec des cellules dendritiques pulsées avec le peptide env, une rapide prolifération et une restriction du répertoire des lymphocytes T Vα2 CD4 spécifiques est observée. L’analyse de la diversité du répertoire de ces cellules par séquençage à haut débit, a montré l’émergence d’un répertoire plus divers dans des souris déplétées en lymphocytes T régulateurs. Ces résultats suggèrent qu’en plus du rôle des Tregs dans le contrôle de la magnitude de la réponse immunitaire, ces cellules pourraient également contrôler la diversité du répertoire des lymphocytes T suite à une stimulation antigénique. / Recent studies conducted in mice and humans have suggested a role for the TCR repertoire diversity in immune protection against pathogens displaying high antigenic variability. To study the CD4 T cell repertoire, we used a mouse model in which T cells transgenically express the TCRβ chain of a TCR specific to a MHCII-restricted peptide, env122-141. Upon immunization with peptide-pulsed dendritic cells, antigen-specific Vα2+ CD4+ T cells rapidly expand and display a restricted TCRα repertoire. In particular, analysis of receptor diversity by high-throughput TCR sequencing in immunized mice suggests the emergence of a broader CDR3 Vα2 repertoire in Treg-depleted mice. These results suggest that Tregs may play a role in the restriction of the CD4 T cell repertoire during an immune response, raising therefore the possibility that in addition to controlling the magnitude of an immune response, regulatory cells may also control the diversity of TCRs in response to antigen stimulation. / Doctorat en Sciences / info:eu-repo/semantics/nonPublished
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Understanding regulatory factors in the skin during vitiligoEssien, Kingsley I. 08 December 2018 (has links)
Vitiligo is an autoimmune disease of the skin characterized by epidermal depigmentation that results from CD8+ T cell-mediated destruction of pigment producing melanocytes. Vitiligo affects up to 1% of the population and current treatments are moderately effective at facilitating repigmentation by suppressing cutaneous autoimmune inflammation to promote melanocyte regeneration. In order to cause disease, CD8+ T cells must overwhelm the mechanisms of peripheral tolerance in the skin and if we understand the suppressive mechanisms that are compromised during vitiligo, we can potentially use this information to improve existing treatments or engineer novel interventions. Therefore, my goal is to characterize the regulatory factors in the skin that suppress depigmentation during vitiligo. Our lab has developed a mouse model of vitiligo that accurately reflects human disease and I used this model to demonstrate that regulatory T cells suppress CD8+ T cell-mediated depigmentation and interact with CD8+ T cells in the skin during vitiligo. In this model of disease, I investigated the molecules involved in regulatory T cell function and observed that the chemokine receptors CCR5 and CCR6 play different roles in regulatory T cell suppression. While CCR6 facilitates regulatory T cell migration to the skin, CCR5 is dispensable for migration but required for optimal regulatory T cell function. Additionally, I used our mouse model to demonstrate that Langerhans cells suppress the incidence of disease during vitiligo. Taken together the results from these studies provide novel insights into the mechanisms of suppression during vitiligo.
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Assessment of Canine Immunity using Computational and Flow Cytometric ApproachesWeaver, Kriston 17 August 2013 (has links)
The Affymetrix GeneChip® Canine Genome 2.0 microarray is re-annotated using AgBase tools, up-to-date ID mapping and GO annotations associated with publicly available gene products updated on this array. This re-annotation makes the array more useful for researchers using the canine microarray for biological discovery. We use flow cytometry to determine if liposomal clodronate (LC) is an acceptable alternative to surgical splenectomy to facilitate detection of subclinical infection with Babesia canis in potential blood donor greyhounds. Our study shows that LC is not a reliable means of exposing babesiosis in greyhounds with a recent history of infection. We evaluate the effect of depletion of antigen presenting cells on regulatory T cells (Tregs) in dogs treated with LC by multi-color flow cytometry. We demonstrate that LC promotes increases in the CD4+CD25+FOXP3+ Tregs affecting mostly the CD4+CD25lowFOXP3+ Tregs subset suggesting a role of monocytes in naïve T cell priming and differentiation into Tregs.
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HCV-induced miR146a Controls SOCS1/STAT3 and Cytokine Expression in Monocytes to Promote Regulatory T-cell DevelopmentRen, Junping, Ying, Rue S., Cheng, Yong Q., Wang, Ling, El Gazzar, Mohamed A., Li, Guang Y., Ning, Shun B., Moorman, Jonathon P., Yao, Zhi Q. 23 March 2016 (has links) (PDF)
Host innate and adaptive immune responses must be tightly regulated by an intricate balance between positive and negative signals to ensure their appropriate onset and termination while fighting pathogens and avoiding autoimmunity; persistent pathogens may usurp these regulatory machineries to dampen host immune responses for their persistence in vivo. Here, we demonstrate that miR146a is up‐regulated in monocytes from hepatitis C virus (HCV )‐infected individuals compared to control subjects. Interestingly, miR146a expression in monocytes without HCV infection increased, whereas its level in monocytes with HCV infection decreased, following Toll‐like receptor (TLR ) stimulation. This miR146a induction by HCV infection and differential response to TLR stimulation were recapitulated in vitro in monocytes co‐cultured with hepatocytes with or without HCV infection. Importantly, inhibition of miR146a in monocytes from HCV ‐infected patients led to a decrease in IL ‐23, IL ‐10 and TGF ‐β expressions through the induction of suppressor of cytokine signalling 1 (SOCS 1) and the inhibition of signal transducer and activator transcription 3 (STAT 3), and this subsequently resulted in a decrease in regulatory T cells (Tregs) accumulated during HCV infection. These results suggest that miR146a may regulate SOCS 1/STAT 3 and cytokine signalling in monocytes, directing T‐cell differentiation and balancing immune clearance and immune injury during chronic viral infection.
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CD25+ CTLA-4+ T Cell-Dependent Induction of Anergic CD25- T Cells Limits the Immune Response to H. pylori Infection Resulting in Mild Gastritis and Persistent ColonizationAnderson, Kathleen 06 April 2006 (has links)
No description available.
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Studies on T-cell Properties during Coccidiosis and a Vitamin E Supplement to an<i> in ovo</i> Coccidiosis VaccineWalston, Matthew W. S. January 2014 (has links)
No description available.
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Therapeutic Approaches to the Treatment of Type 1 DiabetesBednar, Kyle J. 02 June 2015 (has links)
No description available.
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Development of a Novel Model for Exploring the Role of Regulatory T-cells in Oncolytic HSV Cancer TherapyBaird, William H. 03 August 2011 (has links)
No description available.
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Reproductive Benefits Conferred by Genetically Foreign Cells that Persist in Mothers and OffspringKinder, Jeremy M. January 2016 (has links)
No description available.
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A NOVEL APPROACH TO SELECTIVELY TARGET AND REPROGRAM REGULATORY T CELLS IN THE TUMOR MICROENVIRONMENTRami Akram Alfar (13949481) 13 October 2022 (has links)
<p> Although immune checkpoint inhibitors block one mechanism of regulatory T cell (Treg) immunosuppression, no drug has been designed to inhibit all immunosuppressive activities of Tregs. We describe here a mechanism for manipulating Treg function in a tumor microenvironment without altering their properties in healthy tissues. For this purpose, we first identify a small molecule that binds specifically to Tregs in tumors but not in healthy tissues. We then exploit this binder to deliver an attached imaging agent or an immune activator specifically into tumor-resident Tregs. Analysis of the resulting tumors demonstrates that targeting of a Toll-like receptor 7 agonist to tumor Tregs inhibits their expression of FOXP3, PD-1, CTLA4, and HELIOS, resulting in 40-80% reduction in tumor growth and repolarization of other tumor-infiltrating immune cells to more inflammatory phenotypes. Since Tregs comprise <1% of cells in the tumor masses examined, these data argue that Tregs exert a disproportionately large effect on tumor immunity. The data also demonstrate that the immunosuppressive properties of Tregs can be manipulated without altering their properties in healthy tissues.</p>
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