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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.
31

Studies on ovine CD4 : genomic sequence analysis and protein cleavage studies with cathepsin proteases

Boscariol, Rya January 2004 (has links)
No description available.
32

Mechanisms of immune regulation in HIV disease

Lim, Andrew Yih-Fan January 2008 (has links)
[Truncated abstract] HIV infection compromises the ability of the host to mount effective immune responses. In untreated HIV disease, immune activation drives high rates of cell turnover and apoptosis, ultimately leading to abnormal and dysregulated cellular function. Immune activation may also induce the expansion of CD4+ regulatory T (Treg) cell populations capable of suppressing anti-HIV responses. Treatment with antiretroviral therapy (ART) allows the recovery of CD4+ T cell numbers in most patients. Persistent deficiencies in the number and function of CD4+ T cells seen in a proportion of individuals may reflect elevated numbers of Treg cells or an imbalanced regulatory-to-effector cytokine milieu. Furthermore, some patients develop paradoxical illnesses associated with the recovery of cellular function, known as immune restoration disease (IRD). The first part of this thesis addresses the role of CD4+ Treg cells in untreated and treated HIV disease. The second part addresses the phenotype of immune cells that express IL-10 and its receptor in untreated and treated patients, and the role of IL-10 in mycobacterial IRD. Firstly, several cell surface markers were evaluated to find a flow cytometry assay that could be used routinely to identify CD4+ Treg cells in HIV-infected patients. I tested CD25, GITR, CTLA-4, NRP-1 and LAG-3, but their expression did not mirror the expression of FoxP3, an intracellular transcription factor specific to CD4+ Treg cells (Chapter 2). Two published studies then described the use of CD127 to identify CD4+FoxP3+ Treg cells in humans. Using CD127, I determined the proportions and numbers of CD4+ Treg cells in untreated HIV-infected patients and in patients in their first year of ART. Proportions of CD4+ Treg cells correlated with the proportions of activated (HLA-DRHI) CD4+ T cells and with plasma HIV RNA levels in untreated patients, but showed an inverse correlation with CD4+ T cell count. In both untreated and treated patients, the proportions and numbers of FoxP3+ cells that expressed CD8 were significantly higher than in uninfected donors. This was clearest in patients with CD4+ T cell counts below 300/'L (Chapter 3). This body of work suggests that the frequencies of CD4+ Treg cells are directly related to the level of HIV-associated immune activation. Phenotyping of FoxP3+CD4+ Treg cells in untreated and treated patients and in uninfected donors revealed that co-expression of CD45RO, CD28, CTLA-4 and markers of activation were similar in all HIV-infected patients and controls. ii FoxP3+CD8+ T cells exhibit lower levels of CD45RO, CD28 and CTLA-4, but higher expression of PD-1 and CD57 (Chapter 4). This suggests that FoxP3+CD8+ T cells may have a reduced functional capacity. It is unclear whether they have regulatory activity by virtue of FoxP3 expression. ... Both patients produced higher levels of IFN? compared with IL-10 in response to mycobacterial antigens. In contrast, patients who experienced uneventful immune reconstitution produced higher levels of IL-10 (Chapter 6). Part 1 of this thesis highlights the importance of using specific cellular markers to identify CD4+ Treg cells, and confirms CD127 as a valuable marker for routine monitoring of blood Treg cells. Part 2 of this thesis demonstrates the important regulatory role of IL-10 in patients receiving ART.
33

Loss of immune regulatory checkpoints in BAFF transgenic mice

Groom, Joanna Ruth, School of Medicine, UNSW January 2006 (has links)
Multiple checkpoints control the survival and activation of auto-reactive B cells. The discovery of the TNF family cytokine BAFF has been crucial to understanding peripheral B cell tolerance mechanisms. Homeostatic levels of BAFF are tightly regulated to maintain tolerance in the periphery. Chronically increased levels of BAFF lead to the survival of autoreactive B cells. Autoimmune patients display elevated serum BAFF levels. BAFF Tg mice model this situation with systemically high levels of BAFF and the subsequent development of two separate but related autoimmune syndromes; systemic lupus erythematosus (SLE) and Sj??gren???s syndrome (SS). The work conducted in this thesis further investigates the defects in tolerance down-stream of self-reactive B cell survival, which may contribute to autoimmune disease development in BAFF Tg mice. Expansion of the Marginal zone (MZ) B cell population correlates with the pathogenesis of several models of autoimmune disease. BAFF Tg mice are unique in that they not only display an increased splenic MZ B cell population, but also MZ B cells are found in the salivary glands of mice developing SS. The examination of genes differentially regulated between MZ and Follicular (Fo) B cells led to the investigation of sphingosine-1-phosphate receptor biology. The expression of S1P receptors was shown to be required for the positioning of MZ B cells in the spleen. Chronic BAFF stimulation alters the retention of MZ B cells through the alteration of S1P receptors and decreased integrin activation. The alteration of S1P receptors and increased ligand sensitivity leads to the accumulation of MZ B cells in the inflamed salivary glands of BAFF Tg mice. This works provides a potential mechanism for the tissue specificity seen in systemic autoimmune disease. The provision of T cell help to auto-reactive B cells is thought to underlie the development of SLE. BAFF Tg mice deficient in T cells surprisingly developed an SLE-like disease indistinguishable from that of BAFF Tg mice. Autoimmunity in BAFF Tg mice did however require signals through the toll-like receptor (TLR)-associated signalling adaptor, MyD88, which controlled the production of pathogenic autoantibodies. Therefore, autoimmunity in BAFF Tg mice results from altered B cell tolerance, which requires TLR signalling and is independent of T cell help. It is likely that autoimmune patients with elevated levels of BAFF show a similar basis for disease.
34

Studies on ovine CD4 : genomic sequence analysis and protein cleavage studies with cathepsin proteases

Boscariol, Rya January 2004 (has links)
Here we report the expression and purification of two recombinant Fasciola hepatica enzymes, catL2 and catL5 which were used to perform cleavage studies with substrates potentially encountered by the parasite in vivo; BSA, hIgG3K and the important T cell marker, CD4. We examined the digestion products generated by the cleavage of human CD4 with catL5 using mass spectrometry and predicted candidate cleavage sites by performing a theoretical digest of the protein. / Ovine CD4 is also of interest to us as a target of F. hepatica cathepsin L activity. Here we confirm a recently reported ovine CD4 cDNA sequence and the existence of a single nucleotide polymorphism (T/C) within this sequence. The polymorphism translates to a serine-proline switch near the hinge region of the protein. Additionally, we have found that this polymorphism is also present in genomic DNA, suggesting that two alleles of CD4 exist in the ovine genome.
35

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.
36

Loss of immune regulatory checkpoints in BAFF transgenic mice

Groom, Joanna Ruth, School of Medicine, UNSW January 2006 (has links)
Multiple checkpoints control the survival and activation of auto-reactive B cells. The discovery of the TNF family cytokine BAFF has been crucial to understanding peripheral B cell tolerance mechanisms. Homeostatic levels of BAFF are tightly regulated to maintain tolerance in the periphery. Chronically increased levels of BAFF lead to the survival of autoreactive B cells. Autoimmune patients display elevated serum BAFF levels. BAFF Tg mice model this situation with systemically high levels of BAFF and the subsequent development of two separate but related autoimmune syndromes; systemic lupus erythematosus (SLE) and Sj??gren???s syndrome (SS). The work conducted in this thesis further investigates the defects in tolerance down-stream of self-reactive B cell survival, which may contribute to autoimmune disease development in BAFF Tg mice. Expansion of the Marginal zone (MZ) B cell population correlates with the pathogenesis of several models of autoimmune disease. BAFF Tg mice are unique in that they not only display an increased splenic MZ B cell population, but also MZ B cells are found in the salivary glands of mice developing SS. The examination of genes differentially regulated between MZ and Follicular (Fo) B cells led to the investigation of sphingosine-1-phosphate receptor biology. The expression of S1P receptors was shown to be required for the positioning of MZ B cells in the spleen. Chronic BAFF stimulation alters the retention of MZ B cells through the alteration of S1P receptors and decreased integrin activation. The alteration of S1P receptors and increased ligand sensitivity leads to the accumulation of MZ B cells in the inflamed salivary glands of BAFF Tg mice. This works provides a potential mechanism for the tissue specificity seen in systemic autoimmune disease. The provision of T cell help to auto-reactive B cells is thought to underlie the development of SLE. BAFF Tg mice deficient in T cells surprisingly developed an SLE-like disease indistinguishable from that of BAFF Tg mice. Autoimmunity in BAFF Tg mice did however require signals through the toll-like receptor (TLR)-associated signalling adaptor, MyD88, which controlled the production of pathogenic autoantibodies. Therefore, autoimmunity in BAFF Tg mice results from altered B cell tolerance, which requires TLR signalling and is independent of T cell help. It is likely that autoimmune patients with elevated levels of BAFF show a similar basis for disease.
37

Régulation de la réponse immunitaire par les protéines kinases C

Springael, Cécile January 2010 (has links)
Doctorat en Sciences médicales / info:eu-repo/semantics/nonPublished
38

Preparation of a site-specific lymphotoxin- mutant to be used in protein characterization and receptor binding studies

Knight, Derek Andrew 01 January 1995 (has links)
No description available.
39

Immunomodulatory Matrix for Ligament Healing

Childs, Hannah Rachel January 2024 (has links)
Ligament tears are more prevalent than all other knee injury pathologies, and contribute significantly to musculoskeletal joint pain and disability reported worldwide. Despite current soft tissue reconstruction techniques, the injured ligament fails to regenerate due to dysregulated cell-extracellular matrix (ECM) interactions that culminate in scar formation. Hallmarks of scar formation, or fibrotic healing include disorganized ECM, pathological stiffness or tissue rigidity, and the accumulation and persistence of myofibroblasts. A primary driver of fibrosis, myofibroblasts are characterized by high contractility, excessive deposition of collagen type I, coupled with inflammatory and fibrotic signaling. Notably these cells are critical early on in the response to injury, by aiding in the contracture of the wound bed and depositing collagen to repair the injury site. However, myofibroblasts are not capable of fully regenerating the native ligamentous matrix, and resolution of the phenotype is necessary in order to cue surrounding cells, prevent chronic inflammation and aberrant tissue remodeling. Persistence of the myofibroblast phenotype thus leads to a ligament scar that is functionally weaker than the healthy tissue matrix, characterized by significantly different histological, biochemical, and biomechanical properties. The consequential instability of this scar disrupts load distribution within the knee joint and increases the risk of subsequent injury, osteochondral degeneration, and ultimately, the development of post-traumatic osteoarthritis. Therefore, there is a critical need for strategies that target the inflammatory and fibrotic myofibroblast phenotypes for soft tissue healing. It follows that the overarching goal of this thesis is to engineer an immunomodulatory matrix to regulate myofibroblast activation and downstream fibrogenic signaling. To this end, models of soft tissue fibrotic repair are explored in order to test the central hypothesis that cues from the repairing ECM play an important role in regulating myofibroblast activation and persistence. Specifically, this thesis will compare myofibroblast differentiation and signaling in three in vitro models of tissue repair: 1) 2D on tissue culture polystyrene (TCPS), and two 3D models namely 2) collagen hydrogel and 3) electrospun collagen fiber matrices. As expected, on the 2D model, a persistent myofibroblast phenotype could be generated over time with an optimized transforming growth factor beta 1 (TGF-β1) stimulation protocol. To create repair-relevant 3D matrix models, we engineered collagen hydrogels with controlled mechanical properties, as well as electrospun fiber platforms that isolate key matrix factors including, collagen content, stiffness, fiber diameter, and alignment. These models emulate the connective tissue repair process via recapitulating the increasing matrix stiffness and fiber assembly of the early (granulation tissue), proliferative, and remodeling stages of the repair. Myofibroblast differentiation potential, parallel inflammatory and fibrotic cytokine secretion, as well as matrix remodeling potential were observed to be dependent on matrix model parameters. Moreover, single-cell resolution RNA sequencing revealed heterogenous myofibroblast populations within the context of response to engineered collagenous substrates. Specifically, myofibroblast accumulation was observed on hydrogel substrates that recapitulate the pathologically stiff mechanics and disorganization of fibrotic scar tissue while architectural cues of engineered fiber substrates prevented myofibroblast differentiation in a diameter and alignment-dependent manner. Moreover, nanoscale fibers elicited the greatest anti-fibrotic and anti-inflammatory properties compared to microscale fibers and stiff collagen-based hydrogels. Throughout, this thesis also explores the contribution of NF-κB signaling to myofibroblast plasticity and persistence using engineered collagen-based platforms, highlighting the dynamic role of myofibroblasts as critical immunoregulating cells. The NF-κB signaling pathway is implicated in a broad array of fibrotic and chronic inflammatory conditions, and more recently has been associated with survival of persistent myofibroblast populations in soft-tissue fibrosis and tendon degeneration models. In this thesis, NF-κB activation was seen to be related to the persistent myofibroblast phenotype and increase over time in both 2D TCPS and 3D collagenous hydrogel matrices that mimic pathologically stiff scar tissue, while a temporally dependent activation pattern was observed in electrospun collagen fiber-based models. At the transcriptional level, NF-κB survival signaling was significantly enriched in myofibroblast populations supported by TCPS and stiff collagen-based hydrogels but downregulated on soft hydrogels and fibers with decreasing fiber diameter that prevented robust myofibroblast differentiation at single cell resolution. Building upon these new insights regarding matrix cues that drive myofibroblast activation, we designed an immunomodulatory matrix that mediates small molecule release targeting NF-κB inhibition. The immunomodulatory matrix achieved robust amelioration of the myofibroblast phenotype as well as reduced the secretion of key inflammatory and fibrotic cytokines by these cells. Moreover, a similar anti-fibrotic response was seen for human ligament fibroblasts treated with these matrices. Collectively, this thesis work presents a systematic evaluation of myofibroblast plasticity and persistence within the context of 2D (TCPS), 3D (collagen-based hydrogels), and finally 3D with defined microarchitectural cues (electrospun collagen-based fibers) that recapitulate the progressive stages of scar-mediated healing, and reveals NF-κB as a promising target for reducing myofibroblast persistence. Moreover, the immunomodulatory control of myofibroblast plasticity and persistence via matrix cues coupled with NF-κB inhibition informs future strategies for true ligament healing.
40

Rôle de l'interleukine-6 et de "l'AMP-activated Protein Kinase" dans la régulation des réponses immunes

Mayer, Alice 17 December 2010 (has links)
Rôle de l’IL-6 dans la régulation des réponses Th2:<p>Les réponses de type Th2 sont indispensables à l’élimination des parasites extracellulaires tels que les helminthes. Cependant, une réponse Th2 non contrôlée et dirigée contre des antigènes inoffensifs présents dans notre environnement entraine une réponse allergique délétère pour l’organisme. L’initiation d’une réponse Th2 doit donc être un processus hautement contrôlé. Or les signaux émis par les cellules dendritiques afin d’initier une telle réponse n’ont pas encore tous été identifiés à ce jour. <p>L’IL-6 est une cytokine pouvant être sécrétée par de nombreux types cellulaires et dont le rôle dans la régulation des réponses Th2 semble dépendre du moment où elle est sécrétée. L’objectif de ce travail est donc d’étudier spécifiquement le rôle de l’IL-6 produit par les cellules dendritiques (DC) dans l’initiation des réponses Th2 in vivo. <p>Au cours de ce travail, nous avons montré que les DC dérivées à partir de la moelle (BMDC) de souris IL-6-/- induisent une réponse Th2 exacerbée, et ce par un mécanisme nécessitant la présence des cellules iNKT. Nos résultats suggèrent en outre que c’est l’IL-6 produite par la BMDC au moment où elle active le lymphocyte T qui inhibe la réponse Th2, par un mécanisme dépendant du contact entre ces cellules. Enfin, nous avons montré que les DC spléniques IL-6-/- n’induisent pas de réponse Th2 in vivo. L’ensemble de ces résultats suggère que les mécanismes d’initiation et de contrôle de la réponse Th2 sont multiples et dépendent du type de DC initiant la réponse ainsi que des cellules de l’immunité innée présentes dans l’environnement du lymphocyte T au moment de son activation.<p>Rôle de l’AMPK dans la régulation des réponses immunes:<p>L’activation d’un lymphocyte T induit sa prolifération et sa différenciation en lymphocyte T effecteur. L’ensemble de ces processus est coûteux énergétiquement. De plus, le lymphocyte T circulant dans l’organisme afin d’y exercer ses fonctions effectrices est confronté à des environnements au sein desquels les apports énergétiques peuvent varier.<p>L’ « AMP-activated Protein Kinase » (AMPK) est une protéine kinase dont le rôle est de maintenir l’homéostasie énergétique de la cellule lorsque celle-ci subit un stress métabolique. Or la stimulation d’un lymphocyte via son TCR induit l’activation de l’AMPK. Nous avons donc voulu étudier le rôle de cette enzyme dans la régulation des réponses immunes. Dans ce but, nous avons analysé le système immunitaire des souris AMPKα1-/-. En effet, cette sous-unité est la seule sous-unité catalytique de l’enzyme exprimée par les lymphocytes.<p>Nous avons observé que les lymphocytes AMPKα1-/- sont plus sensibles à un stress métabolique in vitro. Ces cellules restent néanmoins capables de répondre à une stimulation antigénique in vitro et in vivo. Les souris AMPKα1-/- développent en outre des réponses humorales, des réponses cytotoxiques et une réaction d’hypersensibilité retardée normale en réponse à l’injection d’antigènes. Ces résultats suggèrent que l’AMPK ne joue pas de rôle dans l’activation des lymphocytes T, du moins dans les modèles étudiés au cours de ce travail. Cependant, nous avons observé une diminution importante du nombre de cellules iNKT présentes dans le foie de ces souris, suggérant un rôle de l’AMPK dans l’homéostasie de ces cellules.<p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

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