Global ETD Search

521	The Alpha Subunit of Eukaryotic Initiation Factor 2B Is Requisite for EIF2-Mediated Transitional Suppression of Vesicular Stomatitis Virus Elsby, Rachel Jane 15 January 2008 (has links) Eukaryotic initiation factor 2B (eIF2B) is a heteropentameric guanine nucleotide exchange factor (GEF) that converts inactive eIF2 GDP-bound binary complexes into active eIF2 GTP-bound complexes that can bind initiator t-RNA molecules and ribosomes to begin translation. eIF2B is functionally divided into two subcomplexes: the catalytic core comprised of eIF2B epsilon and eIF2B gamma, and the regulatory core comprised of eIF2B alpha, eIF2B beta and eIF2B delta. While the catalytic subunits are responsible for exerting GEF activity, the regulatory subunits recognize eIF2 and respond to eIF2 alpha phosphorylation. Cellular stress, such as virus infection, inhibits host protein synthesis by activating specific kinases that are capable of phosphorylating the alpha subunit of eIF2, which can then sequester eIF2B to stall guanine nucleotide exchange by a currently unresolved mechanism. Importantly, we demonstrate that loss of eIF2B alpha or expression of a variant of the human eIF2B alpha subunit harboring a single point mutation (T41A) is sufficient to neutralize the consequences of eIF2 alpha phosphorylation, and render primary MEFs significantly more susceptible to vesicular stomatitis virus infection. To extend this analysis, we further exhibit the vital function of eIF2B alpha in protein synthesis through phenotypic studies in yeast. Here, we report that this subunit can sufficiently substitute for its yeast counterpart, GCN3, and reproduce similar growth phenotypes under normal and amino acid deprived conditions. In addition, the human eIF2B alpha-T41A variant was unable derepress GCN4 translation in response to an inhibitor of amino acid biosynthesis in yeast, an activity that requires sensitivity to phosphorylation of the yeast eIF2 alpha homolog, SUI2. Previously, we have demonstrated that vesicular stomatitis virus can infect and replicate to high levels in tumor cells. Moreover, these cells appear to contain defects in eIF2 alpha-mediated translational control, plausibly due to disregulation of eIF2B activity, which overcomes the inhibitory effects of eIF2 alpha phosphorylation. Our data suggest a role for eIF2B, specifically eIF2B alpha, in suppression of translation following virus infection, and imply that this complex may contribute to oncogenic transformation. These results emphasize the importance of eIF2B alpha in mediating eIF2 kinase translation inhibitory activity and may provide insight into the complex nature of viral oncolysis and cellular transformation.
522	The immunological roles of human macrophages in avian influenza virus infection Zhou, Jianfang. January 2006 (has links) Thesis (Ph. D.)--University of Hong Kong, 2006. / Title proper from title frame. Also available in printed format.
523	Innate immunity to Rhodococcus equi: the response of adult and juvenile equine neutrophils Nerren, Jessica Rachel 15 May 2009 (has links) Blood was obtained from 5 adult horses and 16 juvenile horses (foals) at the time of birth and subsequently at 2-, 4-, and 8-weeks of age. Neutrophils from adult horses were purified and incubated for 2 h and 4 h with media, avirulent R. equi, virulent R. equi, or recombinant-human granulocyte-macrophage colony stimulating factor (rhGM-CSF). Neutrophils from foals were purified and incubated for 2 h and 4 h with media or virulent R. equi. Total RNA was extracted from both adult and foal neutrophils immediately after purification to measure baseline expression levels (0 h), and immediately after each of the prescribed incubation times. For each sample, 1 µg of total RNA was reverse-transcribed and analyzed for differential gene expression using real-time PCR. After 2 h and 4 h incubation with virulent or avirulent R. equi, neutrophils from adult horses expressed significantly (P< 0.05) greater TNFα, IL-12p40, IL-6, IL-8, and IL-23p19 mRNA relative to expression by unstimulated neutrophils, but not IFNγ or IL-12p35 mRNA. Furthermore, virulent R. equi induced significantly greater IL-23p19 mRNA expression than avirulent R. equi. Stimulation with rhGM-CSF of adult equine neutrophils failed to induce significant changes in cytokine expression. In foal neutrophils, stimulation with virulent R. equi induced significantly greater expression of IFNγ, TNFα, IL-6, IL-8, IL-12p40, and IL-12p35 mRNA relative to expression by unstimulated neutrophils. Furthermore, there were significant effects of age on expression of IL-6, IL-8 and IL-12p40 mRNA. Neutrophil mRNA expression of IL-6 and IL-8 in newborn foals was significantly greater than expression at 2-, 4-, and 8-weeks of age. There was no significant difference between unstimulated and R. equi-stimulated neutrophils from newborn and 2-week-old foals in expression of IL-12p40; however, expression of IL-12p40 by R. equi-stimulated neutrophils from 4- and 8-week-old foals was significantly greater than expression by unstimulated neutrophils. These results demonstrate that R. equi-stimulated neutrophils are a source of many pro-inflammatory cytokines, and that the magnitude of this expression with respect to IL-6, IL-8, and IL-12p40 mRNA expression was influenced by age. Collectively, the data presented indicate a non-phagocytic role for neutrophils that may influence the type of adaptive immune response to R. equi. foal pneumonia cytokines infectious disease intracellular bacteria innate immunity neutrophils
524	Role of regulatory T cells in the pathogenesis of human tuberculosis/Rôle des lymphocytes T régulateurs dans la pathogenèse de la tuberculose chez l'homme Hougardy, Jean-Michel 14 May 2008 (has links) Globalement, un tiers de la population mondiale est infectée par Mycobacterium tuberculosis, l'agent infectieux de la tuberculose (TB). Fort heureusement, seuls 5 à 10 % des individus infectés développent un jour une TB active. Les individus non malades restent cependant infectés à vie, on parle d'infection latente. Chaque année, 8-10 millions nouveaux cas de tuberculose active sont recensés et M. tuberculosis est responsable de 1,5 à 2 millions de décès. Depuis plus d'une décennie, M. tuberculosis s'est étroitement associé à l'infection par le virus de l'immunodéficience humaine. Cette alliance néfaste représente une importante menace pour les pays en voie de développement, car ces 2 pathogènes déciment les forces vives de ces populations. Il faut malheureusement rajouter à ce triste tableau une fréquence grandissante de souches multi-résistantes, voire extensivement multi-résistantes. Face à ces souches, les avancées thérapeutiques du siècle dernier sont pratiquement réduites à néant. Considérant ces données, il est désormais crucial d'améliorer nos outils de dépistage de l'infection latente, de diagnostic de la maladie active, de prévention (vaccins) et de traitement. Pour atteindre ces objectifs, une des pistes est la caractérisation détaillée des réponses immunitaires. En comparant les réponses immunitaires des sujets infectés de manière latente à celles liées à la maladie active, nous pourrons peut-être comprendre certains mécanismes de protection. L'étude des réponses immunitaires induites par la « Heparin-Binding-Hemagglutinin » (HBHA) s'est faite dans cet objectif. La HBHA est une adhésine exprimée par le complexe M. tuberculosis. Elle est impliquée dans la dissémination extrapulmonaire du bacille et constitue donc un facteur de virulence. Par ailleurs, une vaccination de souris par seulement 3 doses de 5 µg de HBHA suffit à protéger de l'infection avec une efficacité comparable à celle du vaccin BCG. Chez l'homme, les sujets sains mais infectés développent d'importantes sécrétions d'interféron-gamma (IFN-γ) en réponse à cet antigène, alors que la majorité des patients tuberculeux ne le font pas. Cette différence est importante pour comprendre une des raisons d'échappement de M. tuberculosis au contrôle immunitaire. La HBHA est une protéine méthylée et la méthylation s’avère essentielle pour ses propriétés immunoprotectrices. Nos travaux présentés ici se sont axés sur deux éléments de la réponse immunitaire à la HBHA chez l'homme : d'une part, l'exploitation de la réponse périphérique d'IFN-γ à la HBHA comme outil de dépistage de l'infection latente et, d'autre part, l'étude des raisons de la faible sécrétion d'IFN-γ spécifique de la HBHA lors de la maladie active. L'évaluation de la sécrétion périphérique d'IFN-γ en réponse à la HBHA a permis de démontrer rétrospectivement que celle-ci permet de détecter plus de 90 % des sujets réagissant positivement à l'injection intradermique de tuberculine. De manière intéressante, l'utilisation d'un test commercial, le QuantiFERON TB Gold IT (QFT-IT) n'a permis de détecter que la moitié des sujets infectés sains. De notre point de vue, le QFT-IT ne peut être recommandé seul pour le dépistage systématique de l'infection latente par M. tuberculosis. De manière parallèle, un test de stimulation basé uniquement sur la sécrétion d’IFN-γ suite à une stimulation à l'ESAT-6, composant du QFT-IT, n'a pas permis d'augmenter la sensibilité, ni d'ajouter une plus-value au test basé sur la HBHA. A l'instar de l'intradermoréaction à la tuberculine, le dépistage de la maladie active reste décevant que ce soit par l'utilisation de la HBHA ou de l'ESAT-6. La TB active est caractérisée par une basse sécrétion périphérique d'IFN-γ en réponse à la stimulation par la HBHA. Cette faible sécrétion est cependant réversible, puisque un traitement efficace permet d'atteindre des taux d'IFN-γ significativement plus élevés. Ceci nous démontre qu'il s'agit d'une suppression associée à la phase active de l'infection. Nous avons d'abord évalué l'importance de la modulation de la sécrétion d'IFN-γ en réponse à la HBHA par 2 cytokines immunomodulatrices, l'interleukine-10 (IL-10) et le Transforming-Growth-Factor-Beta (TGF-ß). De manière intéressante, alors que ces 2 cytokines sont associées à l'infection par M. tuberculosis, la HBHA n'est inductrice ni d'IL-10, ni de TGF-ß. Les lymphocytes T régulateurs (Treg) expriment 2 marqueurs d'intérêt : le CD25, composant du récepteur à l'IL-2, et Foxp3, un gène régulateur majeur des cellules Treg. Ces cellules sont décrites comme suppressives de réponses immunitaires déclenchées par des antigènes du Soi et du non-Soi. Nous avons montré que la proportion de lymphocytes Treg périphériques est augmentée en cas de TB active. Par ailleurs, nous avons également démontré que ces cellules suppriment la sécrétion d'IFN-γ et la prolifération induite par la HBHA après stimulation des cellules mononucléées sanguines périphériques de patients tuberculeux in vitro. Cependant, la réponse anti-HBHA des patients tuberculeux, qui est démasquée par la déplétion des lymphocytes Treg, n'est pas dirigée contre des épitopes protecteurs. En effet, la méthylation n'influence pas leur sécrétion d'IFN-γ. De ce point de vue, les lymphocytes Treg sont impliqués dans la maladie tuberculeuse et influencent négativement les réponses dirigées contre un antigène protecteur. Cependant, il semble que la TB active soit également associée à une ignorance d'épitopes protecteurs. Enfin, nous avons également démontré qu'il était possible d'induire des lymphocytes Treg au départ de cellules sanguines périphériques de sujets infectés sains. En effet, la stimulation in vitro des cellules sanguines périphériques en présence de BCG et de TGF-ß est un moyen rapide pour induire l'apparition de lymphocytes Treg fonctionnels in vitro. Ceci nous interroge quant aux rôles des lymphocytes Treg dans la pathogenèse de la maladie. En effet, un excès de TGF-ß circulant est observé dans certaines conditions cliniques à haut-risque de TB post-primaire. De ce point de vue, les lymphocytes Treg pourraient être des acteurs déterminant dans la perte du contrôle à long terme de l'infection et, par là, pourraient être des cibles thérapeutiques d'intérêts lors de l'infection par M. tuberculosis. /Mycobacterium tuberculosis is the causative agent of tuberculosis (TB). It is estimated approximately one third of the World’s population is infected with M. tuberculosis. Fortunately, only 5 to 10 % of the infected individuals will develop the disease throughout their life. However, the other healthy infected individuals remain infected for life: this is the latent TB infection (LTBI). Every year, 8 to 10 million new cases of TB are recorded globally, and about 2 to 3 million of people die from the disease. During the last several decades the co-infection of M. tuberculosis and the human immunodeficiency virus have worsened the picture. This dreadful association currently affects mostly the poorest people of the World. Unfortunately, bad news never stands alone. We now witness increasing emergence of multi-drug-resistant and even of extensively-multi-drug-resistant M. tuberculosis strains. Against these strains current therapeutics are virtually useless. The development of new tools for prevention (vaccines), diagnostics and treatment is crucial. In order to fulfill these objectives, detailed studies on the immune responses is one of the main tracks to explore. Indeed, the comparison of immune responses in LTBI subjects with those in TB patients may provide some clues to understand immune mechanisms of protection. Studies of the immune responses that are specific to Heparin-Binding-Hemagglutinin (HBHA) may be one of these clues. HBHA is an adhesin, which is expressed by the micro-organisms of the M. tuberculosis complex. It largely contributes to the extrapulmonary dissemination of the tubercle bacilli. Hence, HBHA may be qualified as an important virulence factor. Furthermore, vaccination of mice with three doses of only 5 µg HBHA each affords the same level of protection as vaccination with BCG. In humans, peripheral blood mononuclear cells (PBMC) from LTBI subjects secrete significant levels of IFN-γ in response to HBHA, whereas PBMC from TB patients do not. This discrepancy may be a cornerstone in the understanding of some of the mechanisms underlying the immune escape mediated by M. tuberculosis. HBHA is a methylated protein, and the methylation is crucial for its immuno-protective properties. This work focused on 2 major issues of the HBHA-specific immune response in humans: the use of the peripheral IFN-γ secretion in response to HBHA as a diagnostic tool for LTBI and the analysis of the underlying mechanisms to the low IFN-γ secretion during active TB. In our study, the measurement of HBHA-specific IFN-γ secretion resulted in the detection of more than 90 % of the tuberculin-skin-test (TST) positive LTBI. Strikingly, the QuantiFERON TB Gold IT (QFT-IT), a commercial test, failed to identify those LTBI subjects in more than 50 % of the cases. Therefore, we cannot recommend the use of QFT-IT alone instead of the TST for the detection of LTBI. Similarly, a test relying on the detection of IFN-γ secretion upon ESAT-6 stimulation, one of the antigens used in the QFT-IT, was not sufficiently sensitive for the LTBI detection, nor did it improve the sensitivity or the specificity of the HBHA-based test. In contrast to the diagnosis of LTBI, the tests based on HBHA- or ESAT-6-induced IFN-γ secretions displayed poor sensitivity for the diagnosis of active TB. During active TB, the HBHA-specific IFN-γ secretion in the periphery is low. However, this weak secretion is reversible upon effective treatment, as the IFN-γ response to HBHA is increased after completion of chemotherapy. This is strongly suggestive of an immune suppression during active disease. Therefore, we have first evaluated the role of two immunomodulatory cytokines, interleukin-10 (IL-10) and Transforming-Growth-Factor-Beta (TGF-ß), in the suppression of the HBHA-specific IFN-γ secretion. We found that neutralization of neither IL-10 nor TGF-ß with specific antibodies induced HBHA-specific IFN-γ secretion by PBMC of TB patients in vitro. In contrast, depletion of regulatory T cells (Treg) that express 2 major markers, CD25, a constituent of the IL-2 receptor, and Foxp3, a master regulatory gene, resulted in increased HBHA-specific IFN-γ secretion by the PBMC of TB patients. These cells are known to be involved in the suppression of immune responses to both Self and non-Self antigens. We further show that the size of the peripheral Treg cell population increases during active disease. In addition to suppressing the HBHA-specific IFN-γ secretion these cells suppress T cell proliferation in response to HBHA in vitro. However, even after depletion of the Treg cells, the uncovered HBHA-specific immune responses are not directed to the methylated epitopes during TB disease. Finally, we show that Treg cells can be induced (or expanded) from the PBMC of LTBI subjects. Stimulation of those PBMC with BCG in the presence of TGF-ß resulted in a quick appearance of functional Treg cells in vitro. This observation strongly suggests a role of Treg cells in the pathogenesis of TB, in particular in the progression of latency to reactivation. Interestingly, excessive concentration of TGF-ß, associated with various clinical conditions, is high risk factor for post-primary TB. Thus, Treg cells may result in the loss of immune control against latent M. tuberculosis infection. Therefore, Treg cells may represent potential therapeutic targets during M. tuberculosis infection. heparin-binding-haemagglutinin regulatory T cells immunity tuberculosis human
525	Functional study of hemolymph coagulation in Drosophila larvae Wang, Zhi January 2012 (has links) Many pathogen infections in nature are accompanied by injury and subsequent coagulation. Despite the contribution of hemolymph coagulation to wound sealing, little is known about its immune function. Based on the molecular knowledge of Drosophila innate immunity, this thesis investigated the immune function of clot both in vitro and in vivo, the immune relevant genes involved in a natural infection model, involving entomopathgenic nematodes (EPN) and the factors leading to crystal cell activation. Transglutaminase (TG) and its substrate Fondue (Fon) have been identified as bona fide clot components in Drosophila larvae. By knocking down TG or Fon via RNAi, we observed an increased susceptibility to EPN in larvae. In addition, this increased susceptibility was associated with an impaired ability of hemolymph clots to entrap bacteria. Immunostaining revealed that both clot components (Fon and TG) were able to target microbial surfaces. All these data suggest an immune function for the Drosophila hemolymph clot. Strikingly, similar results were obtained when we ran parallel experiments with human FXIIIa, an ortholog of Drosophila TG, indicating a functional conservation. We also found evidence for the regulation on both clot and immunity by eicosanoids in Drosophila larvae. The combination of EPN infection with the Drosophila model system allowed us to discover an immune function for TEP3 and Glutactin. However the molecular mechanism underlying the involvement of these two proteins in this particular host-pathogen interaction remains to be elucidated. Prophenoloxidase, the proform of enzyme involved in hardening the clot matrix, has been shown to be released by rupture of crystal cells. This cell rupture is dependent on activation of the JNK pathway, Rho GTPases and Eiger. Our work further identified the cytoskeletal component, Moesin, and the cytoskeletal regulator Rac2 as mediators of cell rupture. Despite the possible role of caspases in crystal cell activation, such cell rupture was turned out to be different from apoptosis. The implication of Rab5 in this process indicated that proper endocytosis is required for cell activation and subsequent melanization. Our findings furthered not only our understanding of the release of proPO via cell rupture but also our knowledge on different paths of immune cell activation. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 1: In press. Paper 4: Manuscript.<strong></strong></p> innate immunity hemolymph coagulation clot components Drosophila larvae
526	Relation of nutritional status, immunity, hemoglobinopathy and falciparum malaria infection Nyakeriga, Alice January 2005 (has links) The interaction between nutritional status and malaria disease is complex and often controversial. Nutritional deficiencies (macro- or micro-nutrient) are thought to lead to malnutrition with subsequent susceptibility to malaria infection. On the other hand severe malaria or repeated malaria infections lead to malnutrition. While the cause and effect are difficult to attribute, micronutrient deficiencies such as iron deficiency and malaria infection often co-exist and show complex interactions leading to mutually reinforced detrimental clinical effects. That iron deficiency has adverse effects on human health is widely recognized. Iron plays a crucial role in processes of growth and cell division and in the transport of oxygen throughout the body. It is also important for the proliferation of cells of the immune system as well as for microorganisms including the malaria parasite. Iron deficiency results in a decrease in hemoglobin concentrations and subsequent anemia. However, the etiology of anemia is multi-factorial and may be affected, in addition, by several factors including malaria and host factors, especially hemoglobinopathies such as alpha-thalassemia and sickle cell trait. These hemoglobinopathies are also common in malaria endemic areas. In this thesis, we have investigated the relationship between nutritional status, immunity, hemoglobinopathies and falciparum malaria in a cohort of children less than 8 years old living on the coast of Kenya. We have found that malaria was associated with malnutrition in an age-dependent fashion. Malaria was associated with subsequent underweight or stunting in children under the age of 2 years, but this effect was not there in older children. Also, we observed that iron deficiency was associated with protection of children against clinical malaria. Children who were iron deficient had a lower incidence of malaria episodes as compared to those who were iron replete. While studies on the effects of single micronutrient deficiencies on components of the immune system are difficult to design and interpret, there is ample evidence that micronutrient deficiencies, in general, affect all components of immunity. In line with this, we found that nutritional iron status was associated with certain malaria-specific immunoglobulins and interleukin-4 mRNA levels. Iron deficient children had lower levels of malaria-specific IgG2 and IgG4 but higher expression levels of IL-4 mRNA as compared to the iron replete children. Finally, we observed a tendency towards a higher prevalence of iron deficiency in children carrying either alpha-thalassemia or sickle cell trait. Iron deficiency nutrition anthropometric indexes malaria hemoglobinopathies immunity Immunology Immunologi
527	Molecular and functional characterization of the insect hemolymph clot Lindgren, Malin January 2008 (has links) All metazoans possess an epithelial barrier that protects them from their environment and prevents loss off body fluid. Insects, which have an open circulatory system, depend on fast mechanism to seal wounds to avoid excessive loss of body fluids. As in vertebrates, and non-insect arthropods such as horseshoe crab and crustaceans, insects form a clot as the first response to tissue damage. Insect hemolymph coagulation has not been characterized extensively at the molecular level before, and the aim of my studies was to gain more knowledge on this topic. Morphological characterization of the Drosophila hemolymph clot showed that it resembles the clots previously described in other larger bodied insects, such as Galleria mellonella. The Drosophila clot is a fibrous network of cross-linked proteins and incorporated blood cells. The proteins building up the clot are soluble in the hemolymph or released from hemocytes upon activation. Since bacteria are caught in the clot matrix and thereby prevented from spreading it is likely that the clot serves as a first line of defense against microbial intruders. The bacteria are not killed by the clot. What actually kills the bacteria is not known at this point, although the phenoloxidase cascade does not seem to be of major importance since bacteria died in the absence of phenoloxidase. We identified and characterized a new clot protein which we named gp150 (Eig71Ee). Eig71Ee is an ecdysone-regulated mucin-like protein that is expressed in salivary glands, the perithophic membrane of the gut and in hemocytes, and can be labeled with the lectin peanut agglutinin (PNA). Eig71Ee was found to interact with another clot protein (Fondue), and the reaction was catalyzed by the enzyme transglutaminase. This is the first direct functional confirmation that transglutaminase acts in Drosophila coagulation. A protein fusion construct containing Fondue tagged with GFP was created. The fusion construct labeled the cuticle and the clot, and will be a valuable tool in future studies. Functional characterization of the previously identified clotting factor Hemolectin (Hml) revealed redundancy in the clotting mechanism. Loss of Hml had strong effects on larval hemolymph clotting ex vivo, but only minor effects, such as larges scabs, in vivo when larvae were wounded. An immunological role of Hml was demonstrated only after sensitizing the genetic background of Hml mutant flies confirming the difficulty of studying such processes in a living system. Hemolectin was previously considered to contain C-type lectin domains. We reassessed the domain structure and did not find any Ctype lectin domains; instead we found two discoidin domains which we propose are responsible for the protein’s lectin activity. We also showed that lepidopterans, such as Galleria mellonella and Ephestia kuehniella, use silk proteins to form clots. This finding suggests that the formation of a clot matrix evolved in insects by the co-option of proteins already participated in the formation of extracellular formations. Innate immunity hemolymph coagulation transglutaminase Molecular biology Molekylärbiologi
528	Mucosal immunity against mycobacterial infection Rahman, Muhammad Jubayer January 2010 (has links) This thesis aimed to the identification of immune biomarkers of mycobacterial infection for better diagnosis of tuberculosis (TB) and also focused on new vaccination strategies with a particular emphasis on the immune responses in the respiratory tract using murine models. Since the lung is the natural habitat for the M. tuberculosis, we reasoned that immune responses detected locally in the lungs would be good correlates of infection (Paper I). Likewise, immune responses induced in the respiratory tract following immunization would be more effective against mycobacterial infection. We showed that cytokines (IL-12, TNF, and IFN-γ) and cytokine receptors (sTNFR1 and sTNFR2) together with specific antibodies in the respiratory tract correlated better with the bacterial burden in the organs. In Paper II, we investigated the role of the BCG vaccination as a priming vaccine in a heterologous prime-boost immunization protocol. The results showed that the neonatal BCG vaccination primed the immune system for a relevant antigen and showed a generalized adjuvant effect. Using this immunization protocol, protective immune responses in the lungs were generated independently of the route used for the booster immunization. In Paper III, We showed that exposure to mycobacterial antigens during the gestational period led to antigen transportation from the mother to the fetus and this resulted in an early priming of the fetal immune system. Immunization with the same antigen during the postnatal life increased antigen-specific recall IFN-γ responses and protection against infection. We examined the role of innate immunity for the induction of acquired immune responses upon immunization with mycobacterial antigens using TLR2 deficient mice (Paper IV). Our data indicated that suboptimal innate immune responses in the TLR2-/- mice might compromise the induction of acquired immune responses. Overall, the current findings suggested that a better understanding of the mucosal immunity would be useful for the improvement of diagnostic procedures and the development of efficient vaccines against TB. / At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Manuscript Mucosal immunity Vaccination Diagnosis Mycobacterial infection Immunology Immunologi
529	Effects of soy and milk ferments on measures of innate immunity: a comparison of effects in normal and microgravity conditions Masotti, Adriana 01 July 2010 (has links) Probiotics can influence intestinal responses and mucosal immunity either directly or indirectly through transient modulation of the endogenous microenvironment or the immune system. During space travel, astronauts experience various physiological stresses including putting them at risk for infections or inappropriate immune responses. Macrophages and monocytes are a key cell type involved in innate immunity. The effects of dairy milk or soy milk base fermented with S. thermophilus ST5 in combination with either B. longum R0175 or L. helveticus R0052 on the cell line U937 and all-trans retinoic acid differentiated U937 were examined under normal gravity and simulated microgravity conditions, in order to screen for effects on monocytes and macrophages. Soy and milk ferments demonstrated the ability to modulate certain aspects of the innate immune system, both in normal gravity and in simulated microgravity. These probiotics affected U937 cells differently depending on differentiation stage (monocyte or macrophage) and whether or not the cells were tested in regular gravity or in simulated microgravity conditions. These results provide insight into effects on this aspect of innate immunity and may provide guidelines to potential in vivo administration. / UOIT Probiotics Microgravity Soy milk Dairy milk Innate immunity
530	Gamma Interferon Production by Peripheral Blood Lymphocytes in Patients with Gastric Cancer KATO, HAJIME, MORISE, KIMITOMO, KUSUGAMI, KAZUO 03 1900 (has links) No description available. Quantitative Parameter Cell-mediated Immunity Gastric Cancer Gamma Interferon

Search results