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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.
21

Manipulation of the immune response to malaria antigens using bacterial-derived lipoproteins

Mee, Edward January 2004 (has links)
No description available.
22

The Y1 receptor for NPY: a novel regulator of immune cell function

Wheway, Julie Elizabeth, School of Medicine, UNSW January 2006 (has links)
Psychological conditions, including stress, compromise immune defenses. Although this concept is not novel, the molecular mechanism behind it remains unclear. Neuropeptide Y (NPY), regulates anxiety and is a part of the stress response. The NPY system also modulates immune functions such as cytokine release, cell migration, and innate immune cell activity. Postganglionic sympathetic nerves innervating lymphoid organs release NPY, which together with other peptides activate five receptors (Y1, Y2, Y4, Y5, and y6). Additionally, immune cells themselves release NPY following activation. Previous studies have shown that Y1 mediates NPY-immune effects and data presented here shows expression of Y1 on a wide range of immune cells. Results presented in this thesis, using Y1-deficient mice (Y1-/-), have uncovered a novel role for Y1 on immune cells. NPY acts endogenously to inhibit T cell activation whereas Y1-/- T cells are hyper-responsive to activation and trigger severe colitis after transfer into lymphopenic mice. Thus, signalling through the Y1 receptor on T cells inhibits T cell activation and controls the magnitude of T cell responses. Paradoxically, in Y1-/- mice, T cell differentiation to Th1 T cells appears to be defective as these mice were resistant to T helper type 1 (Th1) cell???mediated inflammatory responses and showed reduced levels of the Th1 cell???promoting cytokine interleukin 12 and reduced interferon ?? production. This defect was due to functionally impaired antigen presenting cells (APCs). Y1-deficient APCs are defective in their ability to produce Th1-promoting cytokines and present antigens to T cells and consequently, Y1-/- mice had reduced numbers of effector T cells. Key reciprocal bone marrow chimera experiments indicated that this effect is intrinsic to immune cells and not driven by other Y1-expressing cell types. These results demonstrate a fundamental bimodal role for the Y1 receptor in the immune system, serving as a strong negative regulator on T cells as well as a key activator of APC function. The findings presented in this thesis uncover a sophisticated molecular mechanism regulating immune cell functions and thus adds to a growing number of signalling pathways shared by the immune and nervous system.
23

Regulation of macrophage functions by polyunsaturated fatty acids / Zhi Hua Huang.

Huang, Zhi Hua January 1997 (has links)
Bibliography: leaves 242-298. / xxxiii, 298 leaves : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This thesis investigates the effects of polyunsaturated fatty acids (PUFAs) on macrophage oxygen radical production. The role of fatty acid structure in the ability to stimulate the fMLP response is also examined. The mechanisms by which fatty acids induce their effects on mononuclear phagocytes are partially elucidated. The mechanisms of the biological effects of the PUFAs in terms of intracellular signalling pathway are partly defined. / Thesis (Ph.D.)--University of Adelaide, Dept. of Paediatrics, 1997
24

The Y1 receptor for NPY: a novel regulator of immune cell function

Wheway, Julie Elizabeth, School of Medicine, UNSW January 2006 (has links)
Psychological conditions, including stress, compromise immune defenses. Although this concept is not novel, the molecular mechanism behind it remains unclear. Neuropeptide Y (NPY), regulates anxiety and is a part of the stress response. The NPY system also modulates immune functions such as cytokine release, cell migration, and innate immune cell activity. Postganglionic sympathetic nerves innervating lymphoid organs release NPY, which together with other peptides activate five receptors (Y1, Y2, Y4, Y5, and y6). Additionally, immune cells themselves release NPY following activation. Previous studies have shown that Y1 mediates NPY-immune effects and data presented here shows expression of Y1 on a wide range of immune cells. Results presented in this thesis, using Y1-deficient mice (Y1-/-), have uncovered a novel role for Y1 on immune cells. NPY acts endogenously to inhibit T cell activation whereas Y1-/- T cells are hyper-responsive to activation and trigger severe colitis after transfer into lymphopenic mice. Thus, signalling through the Y1 receptor on T cells inhibits T cell activation and controls the magnitude of T cell responses. Paradoxically, in Y1-/- mice, T cell differentiation to Th1 T cells appears to be defective as these mice were resistant to T helper type 1 (Th1) cell???mediated inflammatory responses and showed reduced levels of the Th1 cell???promoting cytokine interleukin 12 and reduced interferon ?? production. This defect was due to functionally impaired antigen presenting cells (APCs). Y1-deficient APCs are defective in their ability to produce Th1-promoting cytokines and present antigens to T cells and consequently, Y1-/- mice had reduced numbers of effector T cells. Key reciprocal bone marrow chimera experiments indicated that this effect is intrinsic to immune cells and not driven by other Y1-expressing cell types. These results demonstrate a fundamental bimodal role for the Y1 receptor in the immune system, serving as a strong negative regulator on T cells as well as a key activator of APC function. The findings presented in this thesis uncover a sophisticated molecular mechanism regulating immune cell functions and thus adds to a growing number of signalling pathways shared by the immune and nervous system.
25

The Y1 receptor for NPY: a novel regulator of immune cell function

Wheway, Julie Elizabeth, School of Medicine, UNSW January 2006 (has links)
Psychological conditions, including stress, compromise immune defenses. Although this concept is not novel, the molecular mechanism behind it remains unclear. Neuropeptide Y (NPY), regulates anxiety and is a part of the stress response. The NPY system also modulates immune functions such as cytokine release, cell migration, and innate immune cell activity. Postganglionic sympathetic nerves innervating lymphoid organs release NPY, which together with other peptides activate five receptors (Y1, Y2, Y4, Y5, and y6). Additionally, immune cells themselves release NPY following activation. Previous studies have shown that Y1 mediates NPY-immune effects and data presented here shows expression of Y1 on a wide range of immune cells. Results presented in this thesis, using Y1-deficient mice (Y1-/-), have uncovered a novel role for Y1 on immune cells. NPY acts endogenously to inhibit T cell activation whereas Y1-/- T cells are hyper-responsive to activation and trigger severe colitis after transfer into lymphopenic mice. Thus, signalling through the Y1 receptor on T cells inhibits T cell activation and controls the magnitude of T cell responses. Paradoxically, in Y1-/- mice, T cell differentiation to Th1 T cells appears to be defective as these mice were resistant to T helper type 1 (Th1) cell???mediated inflammatory responses and showed reduced levels of the Th1 cell???promoting cytokine interleukin 12 and reduced interferon ?? production. This defect was due to functionally impaired antigen presenting cells (APCs). Y1-deficient APCs are defective in their ability to produce Th1-promoting cytokines and present antigens to T cells and consequently, Y1-/- mice had reduced numbers of effector T cells. Key reciprocal bone marrow chimera experiments indicated that this effect is intrinsic to immune cells and not driven by other Y1-expressing cell types. These results demonstrate a fundamental bimodal role for the Y1 receptor in the immune system, serving as a strong negative regulator on T cells as well as a key activator of APC function. The findings presented in this thesis uncover a sophisticated molecular mechanism regulating immune cell functions and thus adds to a growing number of signalling pathways shared by the immune and nervous system.
26

Regulation of macrophage functions by polyunsaturated fatty acids / Zhi Hua Huang.

Huang, Zhi Hua January 1997 (has links)
Bibliography: leaves 242-298. / xxxiii, 298 leaves : ill. (some col.) ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / This thesis investigates the effects of polyunsaturated fatty acids (PUFAs) on macrophage oxygen radical production. The role of fatty acid structure in the ability to stimulate the fMLP response is also examined. The mechanisms by which fatty acids induce their effects on mononuclear phagocytes are partially elucidated. The mechanisms of the biological effects of the PUFAs in terms of intracellular signalling pathway are partly defined. / Thesis (Ph.D.)--University of Adelaide, Dept. of Paediatrics, 1997
27

Immunoregulation in myasthenia gravis

Kaufman, Robin L. January 1989 (has links)
Myasthenia Gravis (MG) is an autoimmune disorder of neuromuscular transmission. Clinically, the disease is manifested by abnormal muscle fatigue with recovery on resting. Circulating nicotinic acetylcholine receptor antibodies (nAchR Ab) are highly characteristic of myasthenia gravis. These antibodies have been shown to be directly pathogenic at the muscle endplate and are responsible for impaired neuromuscular transmission through several mechanisms. While it is clear that the immune system does not function normally in MG, the mechanisms by which the response to nAchR is initiated and perpetuated remain unknown. Moreover, it is not clear whether immunoregulatory defects actually precede development of MG or are secondary features of the disease. The overall goal of the present investigation has been to more clearly define the nature of the immune regulatory defects existing in MG, both at the cellular level and in terms of possible relationship to disease progression. To begin these studies it was necessary to develop an assay that could be used to measure nAchR Ab secreted by lymphocytes in culture. Thus, we modified the original nAchR Ab immunoassay described by Lindstrom (1976) for this purpose. Additionally, in order to gain access to an appropriate patient base for our study, we established a further modification with improved sensitivity for detection of serum nAchR Ab. This important diagnostic test had not been available in this country. Therefore, our assay was made available in Canada for clinical purposes. Through the study of in vitro nAchR Ab and polyclonal IgG secretion by peripheral blood mononuclear cells (PBMNC), we were able to identify two previously unrecognized subgroups of seropositive, generalized MG patients. PBMNC from patients with long disease duration had low capacity for in vitro Ab production (Nonsecretors). Among patients of short disease duration, PBMNC produced nAchR Ab and also secreted higher than normal levels of polyclonal IgG (Secretors). The data suggested that there were nonspecific abnormalities affecting the immune response in myasthenia gravis. Moreover, regulation of B lymphocyte mediated immune function appeared to be related to disease progression. It was hypothesized that circulating auto-antibody may contribute to deregulation of the immune response at certain stages of disease through direct interactions with leukocyte determinants. Separation/reconstitution experiments with CD4+ enriched, T-helper/inducer lymphocytes and B enriched (E- cells) lymphocytes suggested that the control of antibody production in myasthenia gravis was operative at the T-helper/inducer level. Preliminary studies with serum pretreated, CD4+ enriched, T-helper/inducer lymphocytes suggested that serum of Secretor MG patients indeed contained a factor(s) which interfered with the function of a CD4+ lymphocyte subset. We further hypothesized that nAchR Ab would have the potential to behave as anti-lymphocyte Ab if nAchR were expressed on lymphocytes. Accordingly, direct binding studies, using the nicotinic antagonist, alpha-bungarotoxin, were carried out to look for such receptors on PBMNC. Specific, saturable binding of alpha-bungarotoxin to the rhabdomyosarcoma cell line, TE671, was confirmed and characterized. However, in parallel studies, alpha-bungarotoxin binding to PBMNC of healthy individuals or MG patients was not detected. These results suggested that nicotinic acetylcholine receptors, of the type expressed by muscle endplate, do not occur on human peripheral blood mononuclear cells. / Medicine, Faculty of / Pathology and Laboratory Medicine, Department of / Graduate
28

The role of PU.1 and IRF4 interaction in the biology and function of T helper 2 cells

Ahyi, Ayele-Nati 19 May 2009 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Adaptive and innate immune responses play a critical role in the protection against extracellular or intracellular pathogens. The function of these two types of immune responses is coordinated by CD4+ T-helper (Th) cells. Depending on the cytokine environment, Th progenitor (Thp) cells differentiate into three functionally different effector subsets. T-helper-1 (Th1) cells which mediate cell-mediated immunity, T-helper-2 (Th2) which orchestrates humoral immunity and T-helper-17 (Th17) cells key players in autoimmunity response. Cytokine induced transcription factors that are differentially expressed in Th cells are required for the development and commitment to a specific Th lineage. The population of Th2 cells can be subdivided in subpopulations depending on the level of a cytokine and the subsets of cytokines they produce. Very limited information is available about the regulation of cytokine production in this array of Th2 cells. We have recently identified the ETS family transcription factor PU.1 as regulating heterogeneity in Th2 populations. To define additional factors that might contribute to Th2 heterogeneity, we examined the PU.1 interacting protein IFN-regulatory factor (IRF)-4, a transcription factor expressed in lymphocytes and macrophages. When Th2 cells are separated based on levels of IL-10 secretion, IRF4 expression segregates into the subset of Th2 cells expressing high levels of IL-10. To investigate the role of IRF4 in cytokine heterogeneity, Th2 cells were infected with retrovirus expressing IRF4. The cells overexpressing IRF4 secreted significantly higher levels of IL-10 and IL-4 compared to cells infected with a control vector at the same time the level of IL-9 decreases. To understand the mechanism by which IRF4 regulates IL-10 expression in various Th2 cell subpopulations we used co-immunoprecipitation assays to determine transcription factors that interact with IRF4. Our data shows that PU.1, IRF4 and NFATc2 form a complex in Th2 nuclear extract. We also demonstrated by ChIP assay that IRF4 directly binds the Il10 and Il4 loci in a time dependent manner. The role of these protein-protein and protein-DNA complexes and their contribution towards Th2 heterogeneity will be further defined. Understanding the regulation of the anti-inflammatory cytokine IL-10 in Th2 cells may give us a tool to control inflammation.
29

Involvement of T suppressor lymphocytes in the progression of UV-induced fibrosarcomas

Coons, William J. January 1985 (has links)
Call number: LD2668 .T4 1985 C66 / Master of Science
30

Immune modulatory effect of Dichrostachys cinerea, Carpobrotus dimidiatus, Capparis tomentosa and Leonotis leonurus

Hurinanthan, Vashka January 2009 (has links)
Submitted in fulfillment of the requirements for the Degree of Master of Technology: Biotechnology, Durban University of Technology, 2009. / Dichrostachys cinerea, Carpobrotus dimidiatus, Capparis tomentosa and Leonotis leonurus are all plants that are indigenous to South Africa. These plants are used in traditional medicine to treat various ailments. However, there is little or no scientific data to justify these traditional uses. Furthermore, it is difficult to reconcile traditional knowledge with scientific evidence because of the overwhelming targeting of signal-responsive systems by plant defensive compounds, multiple sites of action and the connectedness of the signaling pathways, which provide many cures and have pleiotropic effects. In order to evaluate the action spectrum of these plants, and validate its widespread use, this research evaluated the antibacterial, antioxidant, anti-inflammatory, anti-mosquito and immunomodulatory properties of these plants. Antimicrobial activity of the extract was determined by evaluating the bactericidal and fungicidal action using the agar disc diffusion assay. Anti-oxidative properties of the extracts were tested using the DPPH photometric assay. Anti-inflammatory properties were carried out using the 5-lipoxygenase assay. The larvicidal, repellency and insecticidal assay was determined against A.arabiensis. The safe use of these plant extracts was determined by evaluating toxicity, a brine shrimp lethality assay and an in vitro cell culture system using human myelogenous leukemia cell line. Potential carcinogenic activity was evaluated using the Ames Salmonella Mutagenecity assay. The immunomodulatory activity of the extracts on human peripheral blood mononuclear cells 6 was evaluated on freshly harvested lymphocytes using the MTT assay. Cytokine response was evaluated by measuring the secretion of interferon-gamma and interleukin-10. Elucidation of the B cells, T cells, activated T cells, CD 4+, CD 8+ and NK cells was performed by flow cytometry. The extracts showed anti-microbial activity against Escherichia coli, Pseudomonas aeruginosa, Klebsiella oxytoca, Salmonella typhimurium, Serratia marcescens, Bacillus cereus and Tricoderm sp. The highest activity was shown by methanolic and aqueous extracts of L. leonurus leaves followed by methanolic and aqueous extracts of D. cinerea. Extracts of C. tomentosa and D.cinerea demonstrated a higher degree of free radical scavenging than rutin, which was used as a standard indicating that these plants have strong antioxidant properties. None of the plants showed significant anti-inflammatory activity when compared to NDGA. In the anti-mosquito assays, the extracts showed strong repellency and insecticidal activity. L. leonurus extracts demonstrated the highest insecticidal and repellency activity against the mosquito, and was also found to cause ‗knockdown‘ and mortality. The extracts display no toxicity, cytotoxicity and mutagenicity. The immunological studies for immune modulation showed that the methanol extracts of these plants induce a Th1- predominant immune response because they significantly suppressed the secretion of IL-10 and augment IFN-γ production, which are hallmarks used to indicate a stimulation of the innate immune response. This study also provides new information, with respect to the potential use of these plants in producing a mosquito repellent and an immunostimulant. / National Research Foundation

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