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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

The interactions of tolerogenic dendritic cells, induced regulatory T cells and antigen-specific IgG1-secreting plasma cells in asthma

2015 June 1900 (has links)
Allergic asthma is a chronic inflammatory airway disease that is dominated by Th2 immune responses, with accumulation of eosinophils, IgE and IgG1 production, and airway hyperresponsiveness. We reported previously that treatment of OVA-asthmatic mice with allergen-presenting IL-10-differentiated dendritic cells (DC) (DC10) leads to progressive and long-lasting full-spectrum asthma tolerance. However, little has been done in investigating a role for antigen-specific B cells in DC10-induced tolerance. In this study, we characterized the surface markers of DC10 and found that these cells expressed lower levels of CD40, CD80, MHC II, PD-L1 and PD-L2 relative to immunostimulatory LPS-differentiated DCs (DCLPS). Co-culturing DC10 or DC10-induced regulatory T cells (iTreg) with CD4+ Th2 effector T cells from asthmatic mice led to a marked suppression of DCLPS-induced T effector cell proliferation. Moreover, DC10 treatment of asthma phenotype mice down-regulated airway eosinophilic inflammation as determined 48 h after a recall allergen challenge, and reduced pulmonary parenchymal tissue OVA-specific IgG1-secreting (OVA-IgG1) plasma cell numbers. The number of lung OVA-specific IgG1 plasma cells decreased by 46.7% over a 2 week period in the absence of repeated allergen challenge, while the numbers of bone marrow OVA-specific IgG1 plasma cells stayed relatively stable over a 6 week period, as determined 48 h after a single allergen challenge of asthmatic mice. DC10 treatment had a significant impact on the serum of IgG1/IgE response. To address the question of how DC10 influence OVA-IgG1 plasma cells responses, we co-cultured enzymatically-dispersed lung total cells from asthmatic mice with or without DC10, and found that the DC10 significantly suppressed OVA-IgG1 plasma cell antibody production. To determine whether DC10 required input from T cells to accomplish this, we co-cultured CD4 T cell-depleted, B cell-enriched populations from the lungs of asthmatic mice with or without DC10, and found that DC10 strongly (65.4+/-3.5%) suppressed OVA-IgG1 plasma cells in CD4 T cell-depleted lung cell cultures. To assess whether DC10-induced Treg also suppress IgG1-secretion, we co-cultured lung CD4+ T cells from untreated or DC10-tolerized asthmatic mice with total lung cells from asthmatic donors, and found that the DC10-induced Tregs effectively (52.2+/-8.7%) suppressed OVA-IgG1 plasma cell responses. In summary, DC10 treatment strongly down-regulate OVA-specific IgG1 plasma cell responses of asthmatic mice, both in vivo and in vitro by at least two mechanisms: directly via DC10 as well as indirectly through DC10-induced Tregs.
2

TARGETING DENDRITIC CELL METABOLISM TO INDUCE IMMUNE TOLERANCE

Wei, Hsi-Ju 01 February 2019 (has links)
No description available.
3

Tolerogenní dendritické buňky jako nová buněčná terapie v diabetu I. typu / Tolerogenic dendritic cells as a novel cell-based therapy in type 1 diabetes

Kroulíková, Zuzana January 2019 (has links)
Utilization of tolerogenic dendritic cells (tolDCs) as a cell-based therapy represents a promising strategy in treatment of autoimmune diseases including type 1 diabetes (T1D). Numerous protocols have been established to generate tolDCs ex vivo and their therapeutic effect has been demonstrated in animal models of autoimmune diseases. In this thesis we compared three different variants of such protocols which are based on the combined treatment of bone marrow- derived DCs with vitamin D and dexamethasone applied at different time points of their maturation towards tolDCs. We assessed the efficiency of these protocols in regards of their effect on the expression of co-stimulatory molecules CD40, CD80, CD86, and MHC II and the chemokine receptor CCR7 on the surface of tolDCs. Then, we evaluated the migration pattern of antigen unloaded tolDCs in vivo as well as their effect on the induction of immune responses and cell proliferation of lymph node cells. This was achieved by labelling of tolDCs with membrane dye PKH26 and by following their migration path by flow cytometry after intraperitoneal (i.p) or subcutaneous (s.c.) injection into either left or right side of the body. On day 1, 3, 5, 7, and 9, the presence of PKH26+ tolDCs was examined in spleen, pancreatic, mesenteric, inguinal and axillary...

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