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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

Immunosuppression and virus-cell interactions in morbilliviruses

Heaney, J. January 2002 (has links)
No description available.
2

Tumour microenvironment interactions of small cell lung cancer

Hodkinson, Philip Simon January 2009 (has links)
Small cell lung cancer (SCLC) is characterised by rapid growth, early metastatic spread and poor long-term survival. The tumour is initially sensitive to chemotherapy and thus objective response rates are high. Unfortunately, this response is often short-lived and SCLC recurs with acquired drug resistance, resulting in early patient death. Despite intensive chemo- and radiotherapy regimes survival has not improved significantly in 20 years. Prior research suggests a critical role for the tumour microenvironment in the pathogenesis of other cancers. Therefore, investigating interactions between SCLC cells and components of the tumour stroma may identify novel therapeutic targets. This thesis demonstrates that extracellular matrix (ECM) proteins present in the tumour microenvironment protect SCLC cells in vitro from chemo- and radiotherapy induced cell cycle arrest and apoptosis via cell surface β1 integrins. Pharmacological and genetic inhibition of phosphoinositol-3 kinase signalling abrogates this effect, defining a central role for this pathway in SCLC de novo drug resistance. Furthermore, the protective effect of ECM occurs without alteration in chemotherapy-induced DNA damage allowing SCLC cells to survive with new genetic defects. Integrin-mediated drug resistance has been shown to be important in other tumours and thus development of strategies to inhibit this pathway may yield new anti-cancer treatments. The design of targeted agents to down-regulate integrin-ECM interaction requires an in depth understanding of the intracellular signals that modulate integrin affinity. Two such pathways are investigated in this thesis. 1) H-Ras, a dominant suppressor of integrin affinity, acts in part through phosphorylation of Erk. Data presented here demonstrate that H-Ras also suppresses integrins through a phospholipase-C epsilon (PLCε)-dependent pathway, thus explaining discrepancies in prior data and confirming a physiological role for this recently identified phospholipase. 2) The Notch signalling pathway has been shown to have important roles in both development and cancer. It is shown here that activation of Notch signalling increases β1 integrin affinity and can protect SCLC cells from chemotherapyinduced apoptosis. However the mechanisms appear to be different; Notch-1 modulates integrin activation through the small GTPase R-Ras and Notch-2 promotes SCLC cell survival. These results define a new Notch pathway, a novel integrin modulator and a potential therapeutic target in SCLC cells. In addition to ECM proteins, the tumour microenvironment contains immune cells that may contribute to cancer growth. The cellular composition of the SCLC stroma is poorly understood. The data presented here indicate that the microenvironment of SCLC is infiltrated by lymphocytes and macrophages, the degree of which independently predicts patient survival. This suggests that the host immune system may be able to suppress SCLC growth. It is well recognised that patients with SCLC have defects in cellular immunity which correlate with survival. An in vitro coculture model was used to investigate the underpinning mechanisms, showing SCLC cells can suppress CD4+ T-cell proliferation and macrophage CD86 expression. Furthermore, preliminary data suggest a role for a soluble factor released by SCLC cells that up-regulates CD4+ T-cell production of IL-10. The work in this thesis implies a complex interaction between SCLC cells, ECM and immune cells in the tumour microenvironment. Manipulation of these pathways may have important therapeutic implications. Further investigation is required to understand the mechanisms of this interplay, which may in part be aided by prospective analysis of patient tumour samples and an in vivo model of SCLC.
3

Regulation of Murine Mast Cell Homeostasis by TGF-β1 and CD4+CD25+C Regulatory T Cells

Kashyap, Mohit 01 January 2006 (has links)
Understanding mast cell development is central to allergic disease pathophysiology. Our laboratory has previously shown that cytokines such as IL-4 and IL-10 inhibit mast cell development from bone marrow progenitors. These studies encouraged our interest in other regulatory cytokines, including transforming growth factor β1 (TGF- β1). TGF- β1 has many cellular sources, one of which is CD4+CD25 regulatory T cells (Tregs). We wanted to determine the effects of Transforming Growth Factor (TGF) βl on mast cell development. We find that TGFβl decreased FcεRI, c-Kit, T1/ST2 and FcεR expression, and inhibited granule formation in developing mast cells. Accessory cells were not required for this inhibition. Smad3-deficiency did not alter the response of bone marrow cells to TGFβ1. TGFβl inhibited expression of the FcεRI a subunit protein, without decreasing β or γ proteins. Mast cells derived in the presence of TGFβl were functionally impaired, as IgE-mediated cytokine secretion was greatly reduced. The changes in granule formation and surface antigen expression were long-standing, as they were not reversed by transfer to W/WV mice. The TGF-β1 dependent transcriptional regulation of bone marrow cells from which mast cells develop was examined through DNA microarray analysis. Wild type (WT) bone marrow cells were stimulated with IL-3+SCF+vehicle or IL-3+SCF+TGF-βI for 10 days and their transcriptomes* analyzed. The results identified which components of transcriptional regulation were regulated by TGF- β1. Of particular interest was the upregulation of the β subunit of the FcεRI, inspite of no receptor surface expression and the differential regulation of various mast cell proteases (MCPs). This initial survey provides a potential starting point for further analysis of the role of TGF-β1 -dependent signaling in developing mast cells. Because they produce TGF-β1 and/or IL-10, regulatory T cell-dependent murine mast cell inhibition was examined. Co-culture of mast cells with regulatory T cells for 6 days downregulated mast cell number, high affinity IgE receptor and c-Kit surface expression. This led to a decrease in TNFa release making mast cells functionally impaired. By using Tregs from IL-10 KO mice, this effect was proven to be IL-10 dependent. Mast cells are mediators of inflammatory disease. TGFβl and IL-10 may contribute to mast cell homeostasis by inhibiting maturation from bone marrow precursors. The effects of TGFβ1 and regulatory T cell derived IL-10 result in greatly diminished expression of cell surface markers, reduced granulation, and lack of responsiveness to IgE-mediated activation. Thus TGFβl and/or CD+CD25+ T cells can serve as potent and multifunctional regulators of mast cell maturation and/or function.* A set of genes that are expressed in a cell at any given time.
4

The Role Of Curcumin In Human Dendritic Cell Maturation And Function

Shirley, Shawna A 02 October 2008 (has links)
Curcumin is the yellow pigment found in the Indian spice curry. It has anti-inflammatory, ant-oxidant, anti-cancer, anti-viral, anti-bacterial and wound healing properties. It is widely used in industry for its flavor as a spice and as a coloring agent because of its brilliant yellow color. It is also used as a dye for textiles and as an additive to cosmetics. Dendritic cells (DCs) are the sentinels of the immune system and functions as the bridge between the innate and adaptive immune response. The effect of curcumin on DCs is poorly understood. A study shows curcumin prevents the immuno-stimulatory function of bone marrow-derived murine DCs, but no study examines the effects on human DCs. This study investigates the effects of curcumin on immature human DC maturation and function in response to immune stimulants lipopolysaccharide (LPS) and polyinosinic-polycytidylic acid (poly I:C). Human CD14+ monocytes isolated from the peripheral blood of donors are cultured with GM-CSF and IL-4 supplemented media to generate immature DCs. The cultures are treated with curcumin, stimulated with the above mentioned stimulants then functional assays performed. These assays include homotypic cluster formation, surface marker expression, cytokine production, chemotaxis, endocytosis, DC-induced allogeneic CD4+ T cell proliferation after mixed lymphocyte reaction, gene expression analysis and immuno-fluorescence labeling and imaging. Curcumin-induced changes in gene expression indicate the actin cytoskeleton signaling pathway is a target. Immuno-fluorescence labeling and imaging of f-actin was carried out. Curcumin reduces DC maturation in response to the stimulants used in the study. Expression of surface markers, cytokines and chemokines is reduced as well as DC-induced stimulation of allogeneic CD4+ cells after MLR. Curcumin prevents chemotaxis without affecting chemokine receptor expression and significantly reduces endocytosis in non-stimulated cells. Curcumin-treated DCs do not induce a Th1 or Th2 population in allogeneic MLR but induces a CD25+Foxp3+ regulatory cell population. Immuno-fluorescence imaging shows curcumin causes the cell to become more rounded. These data imply that curcumin inhibits f-actin polymerization and thereby prevents DC maturation and function in response to stimulation. This outlines a novel role for curcumin as an immune suppressant and shows its therapeutic potential as an anti-inflammatory agent.
5

Critical Role of Tim-3 Mediated Autophagy in Chronic Stress Induced Immunosuppression

Qin, Anna, Zhong, Ting, Zou, Huajiao, Wan, Xiaoya, Yao, Bifeng, Zheng, Xinbin, Yin, Deling 22 January 2019 (has links)
Background: Psychological and physical stress can either enhance or suppress immune functions depending on a variety of factors such as duration and severity of stressful situation. Chronic stress exerts a significantly suppressive effect on immune functions. However, the mechanisms responsible for this phenomenon remain to be elucidated. Autophagy plays an essential role in modulating cellular homeostasis and immune responses. However, it is not known yet whether autophagy contributes to chronic stress-induced immunosuppression. T cell immunoglobulin and mucin domain 3 (Tim-3) has shown immune-suppressive effects and obviously positive regulation on cell apoptosis. Tim-3 combines with Tim-3 ligand galectin-9 to modulate apoptosis. However, its impact on autophagy and chronic stress-induced immunosuppression is not yet identified. Results: We found remarkably higher autophagy level in the spleens of mice that were subjected to chronic restraint stress compared with the control group. We also found that inhibition of autophagy by the autophagy inhibitor 3-methyladenine (3-MA) significantly attenuated chronic stress-induced alterations of pro-inflammatory and anti-inflammatory cytokine levels. We further elucidated that 3-MA dramatically inhibited the reduction of lymphocyte numbers. Moreover, chronic stress dramatically enhanced the expression of Tim-3 and galectin-9. Inhibition of Tim-3 by small interfering RNA against Tim-3 significantly decreased the level of autophagy and immune suppression in isolated primary splenocytes from stressed mice. In addition, α-lactose, a blocker for the interaction of Tim-3 and galectin-9, also decreased the autophagy level and immune suppression. Conclusion: Chronic stress induces autophagy, resulting with suppression of immune system. Tim-3 and galectin-9 play a crucial regulatory role in chronic stress-induced autophagy. These studies suggest that Tim-3 mediated autophagy may offer a novel therapeutic strategy against the deleterious effects of chronic stress on the immune system.
6

Nfia Deletion in Myeloid Cells Blocks Expansion of Myeloid-Derived Suppressor Cells During Sepsis

Dai, Jun, Kumbhare, Ajinkya, Williams, Danielle A., Youssef, Dima, Yao, Zhi Q., McCall, Charles E., Gazzar, Mohamed El 01 January 2018 (has links)
Sepsis-induced immunosuppression increases the risk of chronic infection and reduces survival. Myeloid-derived suppressor cells (MDSCs) expand in the bone marrow and spleen during murine polymicrobial sepsis, contributing to immunosuppression. A better understanding of molecular controls of MDSC production is needed to identify treatment targets. We previously reported that miR-21 and miR-181b couple with transcription factor NFI-A to induce MDSCs during murine sepsis. Here, we expand upon these observations by showing that conditional deletion of the Nfia gene in the myeloid lineage precludes MDSC development. NFI-A-deficient Gr1+CD11b+ myeloid cells are not immunosuppressive and differentiate normally into macrophages and dendritic cells. In contrast, ectopically expressed NFI-A prevents differentiation of these immature Gr1+CD11b+ cells, while converting them into MDSCs. In addition, NFI-A-deficient Gr1+CD11b+ cells decreased, and cells transfected with NFI-A increase expression of miR-21 and miR181b. Our results support a myeloid cell loop in which NFI-A and miR-21 and miR-181b sustain Gr1+CD11b+ MDSC-dependent immunosuppression during sepsis.
7

Toll-Like Receptor 9 Is Required for Chronic Stress-Induced Immune Suppression

Li, Hui, Zhao, Jing, Chen, Michael, Tan, Yang, Yang, Xiaohua, Caudle, Yi, Yin, Deling 01 December 2013 (has links)
Objectives: Mental and physical stress can suppress the immune system in both humans and animals. The mechanism by which stress affects immune responses, however, remains poorly defined. Toll-like receptors (TLRs) play a key role in modulating immune responses and cell survival. The mechanisms by which TLRs modulate chronic stress are largely unexplored. Methods: Six- to 8-week-old male mice were subjected to chronic 12-hour daily physical restraint stress. Apoptotic cells were determined by the terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick end labeling (TUNEL) assay. We examined cytokine levels by enzyme-linked immunosorbent Assay (ELISA). The expression of CYP11A1 was determined by quantitative real-time RT-PCR. Results: TLR9-deficient mice were resistant to chronic stress-induced lymphocyte apoptosis. In addition, in TLR9 knockout (KO) mice, chronic stress-induced upregulation of corticosterone levels was significantly decreased. Notably, lymphocytes from both TLR9 KO and wild-type mice were similarly sensitive to corticosteroid-induced cell apoptosis. Moreover, TLR9 deficiency blocked the chronic stress-induced imbalance in T helper (Th) 1 and Th2 cytokine levels. Conclusion: Taken together, our findings reveal that TLR9 plays an essential role in chronic stress-induced immune suppression.
8

Toll-Like Receptor 9 Is Required for Chronic Stress-Induced Immune Suppression

Li, Hui, Zhao, Jing, Chen, Michael, Tan, Yang, Yang, Xiaohua, Caudle, Yi, Yin, Deling 01 December 2013 (has links)
Objectives: Mental and physical stress can suppress the immune system in both humans and animals. The mechanism by which stress affects immune responses, however, remains poorly defined. Toll-like receptors (TLRs) play a key role in modulating immune responses and cell survival. The mechanisms by which TLRs modulate chronic stress are largely unexplored. Methods: Six- to 8-week-old male mice were subjected to chronic 12-hour daily physical restraint stress. Apoptotic cells were determined by the terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick end labeling (TUNEL) assay. We examined cytokine levels by enzyme-linked immunosorbent Assay (ELISA). The expression of CYP11A1 was determined by quantitative real-time RT-PCR. Results: TLR9-deficient mice were resistant to chronic stress-induced lymphocyte apoptosis. In addition, in TLR9 knockout (KO) mice, chronic stress-induced upregulation of corticosterone levels was significantly decreased. Notably, lymphocytes from both TLR9 KO and wild-type mice were similarly sensitive to corticosteroid-induced cell apoptosis. Moreover, TLR9 deficiency blocked the chronic stress-induced imbalance in T helper (Th) 1 and Th2 cytokine levels. Conclusion: Taken together, our findings reveal that TLR9 plays an essential role in chronic stress-induced immune suppression.
9

NFI-A Disrupts Myeloid Cell Differentiation and Maturation in Septic Mice

McClure, Clara, Ali, Ekram, Youssef, Dima, Yao, Zhi Q., McCall, Charles E., El Gazzar, Mohamed 01 January 2016 (has links)
Mounting evidence supports that sepsis-associated immunosuppression increases mortality. As potential contributors to poor sepsis outcomes, myeloid-derived suppressor cells, which are Gr1+ CD11b+ innate-immune cell progenitors unable to differentiate and possess suppressive activities, expand dramatically in septic mice by a process requiring increased microRNA-21 and microRNA-181b expression. The inhibition of these microRNAs in vivo in septic mice restores Gr1+ CD11b+ cell differentiation and maturation and improves survival. Here, we show that during sepsis-induced generation of myeloid-derived suppressor cells, transcription factor nuclear factor 1 A type represses cyclin-dependent kinase inhibitor p21 to arrest differentiation of Gr1+ CD11b+ cells. Our findings include the following: 1) Gr1+ CD11b+ myeloid cells from late septic mice genetically lacking nuclear factor 1 A type cannot suppress CD4+ T cell proliferation and activation; 2) the reconstitution of nuclear factor 1 A type in microRNA-21 and microRNA-181b-depleted Gr1+ CD11b+ myeloidderived suppressor cells inhibits cyclin-dependent kinase inhibitor p21 and restores the immunesuppressor phenotype; 3) ex vivo nuclear factor 1 A type knockdown in Gr1+ CD11b+ myeloid-derived suppressor cells from late septic mice restores cyclindependent kinase inhibitor p21 expression and promotes monocyte and dendritic cell differentiation; and 4) ectopic nuclear factor 1 A type expression in normal Gr1+ CD11b+ cells generates an immunosuppressive phenotype. We suggest that therapeutically targeting nuclear factor 1 A type during late sepsis might improve survival.
10

Essential Role of IL-10/STAT3 in Chronic Stress-Induced Immune Suppression

Hu, Dan, Wan, Lei, Chen, Michael, Caudle, Yi, LeSage, Gene, Li, Qinchuan, Yin, Deling 01 January 2014 (has links)
Stress can either enhance or suppress immune functions depending on a variety of factors such as duration of stressful condition. Chronic stress has been demonstrated to exert a significant suppressive effect on immune function. However, the mechanisms responsible for this phenomenon remain to be elucidated. Here, male C57BL/6 mice were placed in a 50-ml conical centrifuge tube with multiple punctures to establish a chronic restraint stress model. Serum IL-10 levels, IL-10 production by the splenocytes, and activation of STAT3 in the mouse spleen were assessed. We demonstrate that IL-10/STAT3 axis was remarkably activated following chronic stress. Moreover, TLR4 and p38 MAPK play a pivotal role in the activation of IL-10/STAT3 signaling cascade. Interestingly, blocking antibody against IL-10 receptor and inhibition of STAT3 by STAT3 inhibitor S3I-201 attenuates stress-induced lymphocyte apoptosis. Inhibition of IL-10/STAT3 dramatically inhibits stress-induced reduction in IL-12 production. Furthermore, disequilibrium of Th1/Th2 cytokine balance caused by chronic stress was also rescued by blocking IL-10/STAT3 axis. These results yield insight into a new mechanism by which chronic stress regulates immune functions. IL-10/STAT3 pathway provides a novel relevant target for the manipulation of chronic stress-induced immune suppression.

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