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The immune-modulating activity of Artemisia afraKriel, Yusra January 2010 (has links)
<p>This study shows that herbs can be effectively screened for potiential bio-activity using in vitro methods. Further studies will be needed to better explore Artemisia afra&rsquo / s effect on immunoregulation, particularly long term effects of the herb on the immune system and its effect on other disease states.</p>
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Immune responses to vaccines against malariaBliss, Carly May January 2017 (has links)
The development of a malaria vaccine is necessary for disease eradication. Successful vaccine candidates to date have targeted the asymptomatic, pre-erythrocytic stage of the disease, however even the most efficacious vaccines are only partially protective. Research undertaken in our laboratory has demonstrated that one such regimen, using an 8 week prime-boost viral vector approach of ChAd63 ME-TRAP and MVA ME-TRAP, induces sterile efficacy in 21% of vaccinees, with a key role identified for TRAP-specific CD8<sup>+</sup> T cells. The work described in this thesis explores the most immunogenic regimen by which to administer these two pre-erythrocytic malaria vaccines. A shortening of the prime-boost interval from 8 to 4 weeks, and the addition of an extra ChAd63 ME-TRAP priming vaccination, both demonstrated improved T cell immunogenicity over the standard 8 week regimen. Further to this, novel assays were developed to aid the evaluation of vaccine-induced immune responses. Adaptations of the existing methodology for ELISpot analysis and to whole blood flow cytometry techniques, enabled more detailed analyses of paediatric vaccine-induced T cell responses in The Gambia. This work also permitted the comparison of vaccine immunogenicity in this paediatric population, with malaria-naïve and malaria-exposed adult vaccinees. The results suggest that vaccine-induced T cell responses in infants of 8 weeks and older are comparable to that of adults. A second approach involved the development of a novel functional assay. This assay quantitatively measured the in vitro inhibition of intrahepatic Plasmodium parasite development using T cells from ChAd63.MVA ME-TRAP vaccinated volunteers. The assay demonstrated the ability of CD8<sup>+</sup> T cells to inhibit parasite development in a TRAP-specific manner, and provides a platform with which to further explore pre-erythrocytic immune responses.
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The use of whole blood cell cultures as a model for assessing the effects of SeptilinTM on the immune system.Hoosen, Mujeeb January 2017 (has links)
Magister Scientiae - MSc (Medical BioSciences) / In the past three decades there has been a huge increase in the use of herbal medicine globally.
The active principles of these herbal medicines are mostly unknown with supportive evidence for
safety and efficacy very rare. SeptilinTM is a phytopharmaceutical formulation which is
recommended for the treatment and management of various infections. It has been claimed to
have immunomodulatory actions that potentiates the body's immune response. The
immunomodulatory activity of SeptilinTM has not been well investigated via appropriate in vitro
models. Therefore this study was undertaken to investigate the in vitro effects of SeptilinTM on
biomarkers of specific immune pathways by using WBC. Stimulated and unstimulated WBC
were incubated with the product. Enzyme linked immunosorbent assays were used to screen for
IL-6, IL-10, and IFN? as biomarkers for inflammation, humoral immunity, and cell mediated
immunity, respectively. Results show that the presence of SeptilinTM in LPS stimulated WBC has
no effect on the release of IL-6 and IFN? production but stimulated IL-10 production. SeptilinTM
in unstimulated WBC has no effect on the release of IL-10 and IFN? production but stimulatory
effects on IL-6 production.
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Perturbation in gene expression in arsenic-treated human epidermal cellsUdensi, Kalu Udensi 25 June 2013 (has links)
Arsenic is a universal environmental toxicant associated mostly with skin related diseases in people exposed to low doses over a long term. Low dose arsenic trioxide (ATO) with long exposure will lead to chronic exposure. Experiments were performed to provide new knowledge on the incompletely understood mechanisms of action of chronic low dose inorganic arsenic in keratinocytes. Cytotoxicity patterns of ATO on long-term cultures of HaCaT cells on collagen IV was studied over a time course of 14 days. DNA damage was also assessed. The percentages of viable cells after exposure were measured on Day 2, Day 5, Day 8, and Day 14. Statistical and visual analytics approaches were used for data analysis. In the result, a biphasic toxicity response was observed at a 5 μg/ml dose with cell viability peaking on Day 8 in both chronic and acute exposures. Furthermore, a low dose of 1 μg/ml ATO enhanced HaCaT keratinocyte proliferation but also caused DNA damage. Global gene expression study using microarray technique demonstrated differential expressions of genes in HaCaT cell exposed to 0.5 μg/ml dose of ATO up to 22 passages. Four of the up-regulated and 1 down-regulated genes were selected and confirmed with qRT-PCR technique. These include; Aldo-Keto Reductase family 1, member C3 (AKR1C3), Insulin Growth Factor-Like family member 1 (IGFL1), Interleukin 1 Receptor, type 2 (IL1R2) and Tumour Necrosis Factor [ligand] Super-Family, member 18 (TNFSF18), and down-regulated Regulator of G-protein Signalling 2 (RGS2). The decline in growth inhibiting gene (RGS2) and increase in AKR1C3 may be the contributory path to chronic inflammation leading to metaplasia. This pathway is proposed to be a mechanism leading to carcinogenesis in skin keratinocytes. The observed over expression of IGFL1 may be a means of triggering carcinogenesis in HaCaT keratinocytes. In conclusion, it was established that at very low doses, arsenic is genotoxic and induces aberrations in gene expression though it may appear to enhance cell proliferation. The expression of two genes encoding membrane proteins IL1R2 and TNFSF18 may serve as possible biomarkers of skin keratinocytes intoxication due to arsenic exposure. This research provides insights into previously unknown gene markers that may explain the mechanisms of arsenic-induced dermal disorders including skin cancer / Environmental Sciences / D. Phil. (Environmental science)
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Estudo da resposta imune celular e humoral de cães frente à infecção oral por Neospora caninumMineo, Tiago Wilson Patriarca [UNESP] 15 March 2007 (has links) (PDF)
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mineo_twp_dr_jabo.pdf: 3433348 bytes, checksum: fac62f81f1b33434ac64c0e811ae8d5a (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / Neospora caninum é um protozoário do Filo Apicomplexa, que foi primeiramente descrito como causa de encefalomielite em filhotes caninos sorologicamente negativos para Toxoplasma gondii. Estudos anteriores neste importante hospedeiro da cadeia epidemiológica de N. caninum demonstram que as respostas de anticorpos IgG são tardiamente detectadas e que a infecção clínica é de difícil indução. Desta forma, este trabalho objetivou o estudo da imunidade de cães frente à infecção oral por N. caninum. Os resultados obtidos a partir de análises de diversos animais experimentalmente infectados indicam que os cães apresentam uma prolongada fase aguda da infecção, com eliminação de oocistos associado à queda nos níveis de linfócitos T CD4+ e CD8+ e diminuição de MHC de classe II por células apresentadoras de antígeno. Adicionalmente, os animais apresentam soroconversão instável durante o mesmo período, sendo que somente IgG1 e IgG3 foram detectados em adultos e filhotes, respectivamente, entre o 2o e 3o mês de infecção. De forma concomitante, observa-se uma predominância da expressão de citocinas imunomoduladoras como TGF 1, IL-4 e IL-10. Após dois meses de infecção, o perfil da resposta se inverte, sendo observado picos de produção dos marcadores CD4 e CD8 de linfócitos T e citocinas próinflamatórias como IFN , IL-6 e IL-12, além do aumento nos títulos de anticorpos, principalmente IgG1 e IgG4 nos cães jovens. Com base nestes resultados, conclui-se que os cães apresentam uma relação de equilíbrio com N. caninum, a qual induz nesta espécie uma modulação da resposta imunológica durante a fase de merogonia. / Neospora caninum is an Apicomplexan parasite firstly described as the cause of encephalomyelitis in puppies serologically negative to Toxoplasma gondii. Previous reports on the parasite s definitive host indicate a late IgG antibody response and that clinical disease is difficult to be induced. The aim of this study was to investigate canine immunity during N. caninum oral infection. The results obtained from the analysis of infected animal s samples indicate that dogs present a protracted acute phase, with oocyst shedding correlated to a drop in CD4+ and CD8+ T cell levels, and low MHC class II expression by antigen presenting cells. Additionally, the dogs presented an unstable seroconversion pattern in the same period, with only IgG1 and IgG3 being detected in adult dogs and puppies, respectively, between the second and third months of infection. Concomitantly, dominant Th2 cytokine expression was observed, with peak expression levels of TGF 1, IL-4 and IL-10. After 2 months of infection, the immunity profile shifts towards a Th1 response, with high levels of CD4 and CD8 lymphocytary marker production and pro-inflammatory cytokine expression (IFN , IL-6 and IL-12), besides of the raise in antibody levels, especially IgG1 and IgG4 in puppies. Based in the results presented herein, we may conclude that dogs present a balanced host-parasite relationship, modulating the host immune response during N. caninum merogony.
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Study of tumor cell metabolism and its relationship with NK cell-mediated immunotherapy / Etude du métabolisme cellulaire de la tumeur et sa relation avec l'immunothérapie médiée par les cellules NKKrzywinska, Ewelina 03 December 2014 (has links)
La formation et le développement d'une tumeur sont provoqués par une série de défauts qui se produisent à l'intérieur de la cellule cancéreuse et dans son microenvironnement. Ces anomalies permettent à la cellule de développer ses propres stratégies de croissance, de prolifération, de différenciation et de métabolisme. Toutes ces adaptations, ainsi que la création d'un micro-environnement unique favorisent la croissance de la tumeur et inhibent la réponse immunitaire anti-tumorale. Le métabolisme des cellules cancéreuses et l'évasion immunitaire sont des points très sensibles dans le développement des cancers et peuvent être utilisés en clinique. Les études récentes suggèrent que ces deux phénomènes sont liés, et que le métabolisme des cellules cancéreuses peut amener à l'échappement immunitaire par la tumeur. Le métabolisme des cellules tumorales a tendance à éviter l'activité mitochondriale et la phosphorylation oxydative, et est principalement basée sur la glycolyse pour la production d'énergie (effet Warburg). Mon travail de thèse est divisé en deux parties. Dans la première partie nous avons proposé un concept thérapeutique novateur avec une nouvelle thérapie combinatoire pour le traitement de cancers hématologiques. Cette thérapie est basée sur l'induction de changements métaboliques par le dichloroacétate (DCA), et elle est associée avec la chimiothérapie conventionnelle (doxorubicine, vincristine) pour réactiver les fonctions de p53. Les tumeurs avec p53 mutantes sont résistantes à cette combinaison. Dans ce cas, nous avons constaté que le DCA peut coopère avec 17-AAG (l'inhibiteur de Hsp90) pour éliminer spécifiquement les cellules cancéreuses. En conséquence, une meilleure compréhension des signaux et des mécanismes par lesquels le DCA sensibilise les cellules tumorales à la chimiothérapie est nécessaire pour en comprendre le mode d'action. En outre, l'identification de ce mécanisme permettra d'élucider les voies métaboliques impliquées dans la survie des cellules cancéreuses. La deuxième partie de ma thèse se concentre sur la biologie des cellules NK. Les cellules NK sont des lymphocytes du système immunitaire inné et possèdent une cytotoxicité naturelle contre les cibles, c'est à dire les cellules tumorales. L'utilisation optimale des cellules NK en clinique nécessite leur expansion et leur activation in vitro. Les cellules NK s'activent en présence de cytokines ou par le contact avec les cellules cibles. L'activation des cellules NK induit la prolifération, mais celle-ci dépend aussi de la présence d'autres cellules immunitaires. L'activation, par les cytokines et par les cellules cibles, induit un différent ARNm/microARN profil d'expression. L'analyse détaillée des isoformes de la protéine tyrosine phosphatase CD45 a permis de caractériser de nouvelles populations de cellules NK anti-tumorales humaines. L'identification de différentes populations de cellules NK est très importante pour la compréhension de leur physiologie et pour l'amélioration de leur utilisation en immunothérapie clinique. Cela peut également donner des informations précieuses sur l'état physiologique de l'hôte. En effet, l'augmentation des cellules CD45RAdim et CD45RO + dans le compartiment des cellules NK matures identifie clairement les patients avec des hémopathies malignes. Nous pensons que leur détection peut être utilisée comme un outil de diagnostic et également pour évaluer l'efficacité des traitements anti-tumoraux, car ces populations de cellules NK spécifiques devraient diminuer lors de l'élimination de cellules tumorales cibles. Dans l'avenir, nous voulons combiner le traitement du métabolisme de la tumeur avec la thérapie anti-tumorale basée sur les cellules NK. Sur la base de nos données préliminaires, nous pouvons proposer le traitement des cellules cancéreuses par des médicaments métaboliques pour augmenter la sensibilité et la reconnaissance par les cellules NK activées. / Tumor formation and development are caused by a range of defects that occur inside the cancer cell and in the external cellular microenvironment. These abnormalities allow developing tumors to establish their own strategies of growth, proliferation, differentiation and metabolism. All these adaptations, as well as the creation of a unique microenvironment, promote tumor growth and suppress the anti-cancer immune response. Tumor cell metabolism and immune evasion are sensitive points of cancer development that can be targeted in clinic. Recent studies suggest that these two phenomena are related and that cancer cell metabolism may propel tumor immune escape. Tumor cell metabolism tends to avoid mitochondrial activity and oxidative phosphorylation (OXPHOS), and largely relies on glycolysis to produce energy (Warburg effect). My thesis work is divided into two parts. The first one proposes an innovative therapeutic strategy, which is the use of different combinatorial therapy depending on the p53 status for the treatment of hematological cancers. This is based on the induction of metabolic changes by dichloroacetate (DCA), combined with conventional chemotherapy (doxorubicin, vincristine) to reactivate wild type p53 functions. Mutant p53 tumors are resistant to this combination approach. However, we found that DCA synergized with the Hsp90 inhibitor 17-AAG to specifically eliminate these cells. Therefore, a clearer understanding of the signals and mechanisms by which DCA sensitize cancer cells to chemotherapy was needed to understand its mode of action. We uncovered it in our work. In addition, identification of this mechanism will help to elucidate metabolic pathways involved in cancer cell survival.The second part of my thesis is focused on the study of NK cell biology. NK cell is an innate immune system lymphocyte lineage with natural cytotoxicity against targets, i.e. tumor cells. Its optimal use in the clinic requires in vitro expansion and activation. Cytokines and the encounter with target cells activate NK cells, induce their proliferation, and cause clearly different mRNA/miRNA expression profile. Detailed analysis of the leucocyte-specific phosphatase CD45 isoforms allowed us to characterize new human anti-tumor NK cell populations. The identification of the different NK cell populations is important for understanding their physiology and for improving their therapeutic use in the clinic. It can also give valuable information about the host physiological status. Indeed, the increase of CD45RAdim and CD45RO+ cells in the mature NK cell compartment clearly identifies patients with hematological malignancies. We thus hypothesize that their detection could be used as a diagnostic tool, and also to assess the efficacy of antitumor treatments, because these specific NK cell populations should decrease upon removal of the targeted tumor cells. Our future goal is to use a novel combinatorial therapy in hematological cancers that will combine metabolic drugs and NK cell-based therapy. Based on our preliminary data, we propose that the treatment of cancer cells with metabolic drugs could increase their sensitivity and recognition by activated NK cells.
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The immune-modulating activity of Artemisia afraKriel, Yusra January 2010 (has links)
Magister Scientiae - MSc / This study shows that herbs can be effectively screened for potiential bio-activity using in vitro methods. Further studies will be needed to better explore Artemisia afra’s effect on immunoregulation, particularly long term effects of the herb on the immune system and its effect on other disease states. / South Africa
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An in vitro study on the immunotoxicity of sewage effluents discharged into the Eerste River-Kuils river water catchment systemMagcwebeba, Tandeka January 2008 (has links)
Magister Scientiae - MSc / "The aim of the study was to use in vitro human whole blood cultures to screen the water samples collected from the Eerste/Plankenbrug river system for cytotoxicity and inflammatory activity and for the first time investigate the impact on the cell- mediated and humoral immune pathways. Water samples were collected fronm the sites during the dry summer season and rainy winter season. Blood was collected from the healthy male volunteers and diluted with RPMI 1640. For cytotoxicity and inflammatory activity 2.5ul of blood for 18-20 hrs at 37 C... This study shows that waster from the Plankenbrug River is heavily polluted by contaminants from both the agricultural area and informal settlement of Kayamandi. These contaminants can be potentially immunotoxic during the summer season and they can result in inflammatory diarrheal disease and immunosuppression in exposed individuals..."
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Exercise and Cardiovascular DiseaseSmith, John K. 01 January 2010 (has links)
Cardiovascular disease is the main cause of death in the United States. Although it is recognized that moderate intensity long-term exercise can decrease the chances of dying from cardiovascular disease by favorably modifying risk factors such as hypertension, obesity, hyperlipidemia, and insulin resistance, physical activity also enhances longevity by mechanisms independent of these risk factors. This review briefly summarizes what is known about the inflammatory nature of atherosclerosis and how long-term aerobic exercise can reduce the atherogenic activity of endothelial cells, blood mononuclear cells, and adipose tissue.
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Development and Evaluation of Nanoparticle-based Intranasal Inactivated Influenza Virus Vaccine Candidates in PigsDhakal, Santosh 21 December 2018 (has links)
No description available.
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