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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

PERSISTENCE, DISTRIBUTION AND IMMUNOPATHOGENESIS OF INFECTIOUS BURSAL DISEASE VIRUS IN CHICKENS

Rauf, Abdul 24 March 2011 (has links)
No description available.
2

IMMUNOREGULATION OF HEPATITIS B VIRUS INFECTION : RATIONALE AND CLINICAL APPLICATION

ISHIKAWA, TETSUYA 08 1900 (has links)
No description available.
3

The Immune Response in Parkinson's Disease

Lira, Arman 28 January 2014 (has links)
Microglia activity has been detected in Parkinson’s disease (PD) post-mortem brains and experimental animal models; however the precise interplay between microglia and dopamine neurons of the SNpc is not well understood. In the blood plasma of PD patients, our laboratory found elevated levels of interferon-gamma (IFN-γ), a proinflammatory cytokine and potent activator of microglia. Given this, we sought to untangle the immune responses relevant to PD in mice, examining IFN-γ’s involvement and signaling mechanism using an inflammatory co-culture model of microglia and midbrain neurons treated with rotenone. By means of RT-PCR, we discovered IFN-γ mRNA transcripts are produced by microglia, and this expression increases upon exposure to rotenone. We delineated IFN-γ’s signaling mechanism in co-cultures using different IFN-γ receptor deficient cells, and showed it engages receptors in an autocrine (not paracrine) manner to further microgliosis and dopamine cell loss. After exploring the innate immune response in a model of PD, we subsequently shifted focus to an in vivo system to better investigate any involvement of the delayed humoral arm of the adaptive immune system. Needing a time appropriate death paradigm, we developed a protracted low dose regimen of MPTP, which elicits dopaminergic cell death after 2 weeks of treatment. Subjected to this paradigm, Rag 2 mutant mice (deficient in both T and B cells) exhibit resistance to dopamine cell loss, microglia activation and motor impairments. Further evidence in support of immune involvement came with the resensitization of Rag2 mice to MPTP after reconstitution with WT splenocytes. Additionally, mice deficient in Fcγ receptors exhibited neuroprotection in our protracted degeneration model. Taken together, these data indicate the innate and humoral arm can modulate the microglial response to dopaminergic degeneration and may participate in Parkinson's disease.
4

The Immune Response in Parkinson's Disease

Lira, Arman January 2014 (has links)
Microglia activity has been detected in Parkinson’s disease (PD) post-mortem brains and experimental animal models; however the precise interplay between microglia and dopamine neurons of the SNpc is not well understood. In the blood plasma of PD patients, our laboratory found elevated levels of interferon-gamma (IFN-γ), a proinflammatory cytokine and potent activator of microglia. Given this, we sought to untangle the immune responses relevant to PD in mice, examining IFN-γ’s involvement and signaling mechanism using an inflammatory co-culture model of microglia and midbrain neurons treated with rotenone. By means of RT-PCR, we discovered IFN-γ mRNA transcripts are produced by microglia, and this expression increases upon exposure to rotenone. We delineated IFN-γ’s signaling mechanism in co-cultures using different IFN-γ receptor deficient cells, and showed it engages receptors in an autocrine (not paracrine) manner to further microgliosis and dopamine cell loss. After exploring the innate immune response in a model of PD, we subsequently shifted focus to an in vivo system to better investigate any involvement of the delayed humoral arm of the adaptive immune system. Needing a time appropriate death paradigm, we developed a protracted low dose regimen of MPTP, which elicits dopaminergic cell death after 2 weeks of treatment. Subjected to this paradigm, Rag 2 mutant mice (deficient in both T and B cells) exhibit resistance to dopamine cell loss, microglia activation and motor impairments. Further evidence in support of immune involvement came with the resensitization of Rag2 mice to MPTP after reconstitution with WT splenocytes. Additionally, mice deficient in Fcγ receptors exhibited neuroprotection in our protracted degeneration model. Taken together, these data indicate the innate and humoral arm can modulate the microglial response to dopaminergic degeneration and may participate in Parkinson's disease.
5

The Role of the Leptin Receptor on T Cells in Helicobacter Pylori Infection and Clearance in Mice

Emancipator, Douglas Steven 22 July 2008 (has links)
No description available.
6

Mycobacterium tuberculosis-specific T-cell responses in latent infection and active disease

Schuck, Sebastian D. 27 April 2009 (has links)
Adaptive Immunantworten gegen Mycobacterium tuberculosis (M. tuberculosis) sind von entscheidender Bedeutung für die effektive Eindämmung des Erregers sowie den Schutz vor einer erneuten, sekundären Tuberkulose (TB). Obwohl Schlüsselfaktoren wie die Th1 Zytokine IFN-gamma und TNF-alpha bekannt sind, blieben Bemühungen zur Identifizierung eindeutiger immunologischer Parameter, welche ausschlaggebend für den Krankheitsverlauf sind, bislang erfolglos. Ein besseres Verständnis der zugrunde liegenden Immunprozesse sowie die Identifikation projektiver Biomarker für TB sind zentrale Ziele dieser Arbeit. Zur Bearbeitung dieser Fragestellungen wurden adaptive Immunantworten gegen M. tuberculosis in gesunden Probanden mit LTBI und Patienten mit aktiver TB analysiert. Hierfür wurde die Erkennung unterschiedlicher Proteine des Erregers durch die Messung IFN-gamma exprimierender CD4+ CD45RO+ Gedächtnis T Zellen untersucht. Eine Besonderheit war die Einbeziehung sogenannter Latenz-assoziierter Proteine, welche in Zusammenhang mit Dormanz und Reaktivierung des Bakteriums stehen. 7 Tage in vitro Inkubation in Verbindung mit einer zweimaligen Restimulation belegten eine spezifische Erkennung durch CD4+ CD45RO+ T Zellen für die Mehrheit der getesteten Proteine bei Spendern mit LTBI. Der darauf folgende Vergleich zwischen Patienten mit aktiver TB und Personen mit LTBI zeigte signifikant höhere T Zell Antworten für 7 der 35 M. tuberculosis Proteine während LTBI. Bemerkenswerterweise konnten spezifische T Zellen für eines der Protein, nämlich Rv3407, ausschließlich während LTBI gemessen werden und nicht bei Patienten mit aktiver TB. Diskriminanz Analysen zeigten, dass eine Unterscheidung zwischen LTBI und TB Patienten basierend auf T Zell Antwort gegen ausgewählte Latenz-assoziierte Antigene mit einer Genauigkeit von 82% möglich ist. Erneut erwies sich Rv3407 als der mit Abstand bedeutendste Faktor innerhalb der ausgewählten M. tuberculosis Proteine. / Adaptive immune responses to Mycobacterium tuberculosis (M. tuberculosis) are crucial for an efficient containment of the pathogen and protection against secondary tuberculosis (TB). Although key mediators like the Th1 cytokines IFN-gamma and TNF-alpha released by M. tuberculosis-specific T cells are known, the immunological correlates determining the outcome of infection remain elusive. A better understanding of the underlying immune processes and the identification of protective biomarkers for TB are central aims of this thesis. To address these topics adaptive immune responses to M. tuberculosis were analyzed in healthy LTBI and patients with active pulmonary TB. The recognition of M. tuberculosis derived antigens was studied by measuring the expression of IFN-gamma in CD4+ CD45RO+ memory T cells. A special hallmark was the inclusion of latency proteins associated with dormancy, reactivation and resuscitation of the pathogen. Seven days in vitro incubation of PBMC and two rounds of restimulation followed by FACS analysis revealed T cell mediated recognition of the majority of tested latency-associated proteins in donors with LTBI. Comparison between active TB and LTBI documented significantly higher T-cell responses against 7 of 35 tested M. tuberculosis latency-associated antigens in LTBI. Notably, T cells specific for one M. tuberculosis antigen, namely Rv3407, were exclusively detected in the subgroup of LTBI. Discrimination analysis revealed that the T-cell response against selected antigens with our novel assay is capable of distinguishing TB patients and LTBI with 82% accuracy using cross-validation. Again Rv3407 was by far the most influential component present in this cluster. Peptide pool stimulation in a similar fashion identified single distinct candidate epitopes within Rv3407 in four LTBI.
7

Effet de Streptococcus Suis sur la capacité de présentation antigénique de cellules dendritiques

Letendre, Corinne 04 1900 (has links)
Streptococcus suis est un important pathogène porcin et humain, causant méningites et septicémies. Des études suggèrent que S. suis dispose de facteurs de virulence, notamment sa capsule polysaccharidique (CPS), qui lui permettent de moduler les fonctions des cellules dendritiques (DCs), situées à l’interface entre l’immunité innée et adaptative. Les difficultés à développer un vaccin efficace suggèrent aussi une altération de la voie T dépendante. L’objectif général du projet était d’évaluer l’effet de S. suis sur l’activation des cellules T CD4+ ainsi que sur la capacité de présentation antigénique des DCs. Nous avons étudié dans un modèle murin in vivo la réponse T CD4+ mémoire lors d’infections primaire et secondaire. Une faible réponse mémoire centrale a été obtenue, suggérant que la réponse adaptative générée contre S. suis est limitée. Étant donné l’importance du complexe majeur d’histocompatibilité (MHC) de classe II dans la présentation antigénique, nous avons évalué in vitro et in vivo l’expression de ces molécules chez les DCs. Une modulation de l’expression du MHC-II par S. suis a été observée. L’analyse de la transcription de gènes impliqués dans la régulation transcriptionnelle et post-transcriptionnelle du MHC-II nous permet de suggérer que S. suis régule à la baisse la synthèse de nouvelles molécules et favorise leur dégradation lysosomale. Cette stratégie, dans laquelle la CPS ne jouerait qu’un rôle partiel, permettrait à S. suis d’échapper à la réponse adaptative T dépendante. Les résultats de cette étude fourniront de nouvelles perspectives dans la compréhension de la réponse adaptative lors de l’infection par S. suis. / Streptococcus suis is an important swine and human pathogen causing meningitis and septicemia. Recent studies suggest that S. suis possesses several virulence factors, including the capsular polysaccharide, which enable this pathogen to modulate dendritic cell (DCs) functions. DCs are key immune cells that bridge innate and adaptive immunity. Moreover, the difficulties in developing an effective vaccine suggest that S. suis interferes with the T-cell dependent response. The main objective of the project was to evaluate the effect of S. suis on CD4+ T-cell activation, as well as on the antigen presentation ability of DCs. We investigated the CD4+ T-cell memory response in an in vivo mouse model. A poor central memory response was obtained following primary and secondary infections with S. suis, thus suggesting that the adaptive immune response against this pathogen is limited. The major histocompatibility complex (MHC) class II is central to the antigen presentation pathway. We thus investigated in vitro and in vivo the expression of these molecules on DCs. We observed a modulation in the expression of MHC-II by S. suis. Transcriptional analysis of genes involved in transcriptional and post-transcriptional regulation of MHC-II suggests that S. suis downregulates synthesis of MHC-II molecules and promotes their lysosomal degradation. This strategy, in which the CPS would play only a partial role, might allow S. suis to evade the T-cell dependent adaptive response. Overall, these results provide new insights into the comprehension of the adaptive immune response during the infection by S. suis.

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