Global ETD Search

561	On the Source of Peptides for Major Histocompatibility Class I Antigen Presentation: A Dissertation Farfán Arribas, Diego José 04 April 2012 (has links) Peptides generated from cellular protein degradation via the ubiquitin-proteasome pathway are presented on MHC class I as a means for the immune system to monitor polypeptides being synthesized by cells. For CD8 + T cells to prevent the spread of an incipient infection, it appears essential they should be able to sense foreign polypeptides being synthesized as soon as possible. A prompt detection of viral proteins is of great importance for the success of an adaptive immune response. Defective ribosomal products (DRiPs) have been postulated as a preferential source which would allow for a rapid presentation of peptides derived from the degradation of all newly synthesized proteins. Although this hypothesis is intellectually appealing there is lack of experimental data supporting a mechanism that would prioritize presentation from DRiPs. In this dissertation I describe a series of experiments that probe the DRiPs hypothesis by assessing the contribution to class I presentation of model epitopes derived from DRiPs or from functional proteins. The results show that even at the early stages after mRNA synthesis DRiPs do not account for a significant fraction of the class I presented peptides. These observations suggest that the currently widespread model whereby a mechanism exists which selectively allows for DRiPs to preferentially contribute to class I antigen presentation, is incorrect. Rather, properly folded functional proteins can significantly contribute to class I antigen presentation as they are normally turned over by the ubiquitin-proteasome pathway. Histocompatibility Antigens Class I Antigen Presentation CD8-Positive T-Lymphocytes Ribosomes Amino Acids, Peptides, and Proteins Biological Factors Cells Hemic and Immune Systems Immunology and Infectious Disease
562	Telomere Length Dynamics in Human T Cells: A Dissertation O'Bryan, Joel M. 14 October 2011 (has links) Telomere length has been shown to be a critical determinant of T cell replicative capacity and in vivo persistence in humans. We evaluated telomere lengths in virus-specific T cells to understand how they may both shape and be changed by the maintenance of memory T cells during a subsequent virus re-infection or reactivation. We used longitudinal peripheral blood samples from healthy donors and samples from a long-term HCV clinical interferon therapy trial to test our hypotheses. To assess T cell telomere lengths, I developed novel modifications to the flow cytometry fluorescence in situ hybridization (flowFISH) assay. These flowFISH modifications were necessary to enable quantification of telomere length in activated, proliferating T cells. Adoption of a fixation-permeabilization protocol with RNA nuclease treatment prior to telomere probe hybridization were required to produce telomere length estimates that were consistent with a conventional telomere restriction fragment length Southern blot assay. We hypothesized that exposure to a non-recurring, acute virus infection would produce memory T cells with longer telomeres than those specific for recurring or reactivating virus infections. We used two acute viruses, vaccinia virus (VACV) and influenza A virus (IAV) and two latent-reactivating herpesviruses, cytomegalovirus (CMV) and varicella zoster virus (VZV) for these studies. Combining a proliferation assay with flowFISH, I found telomeres in VACV-specific CD4 + T cells were longer than those specific for the recurring exposure IAV; data which support my hypothesis. Counter to my hypothesis, CMV-specific CD4 + T cells had longer telomeres than IAV-specific CD4 + T cells. We assessed virus-specific CD4 + T cell telomere length in five donors over a period of 8-10 years which allowed us to develop a linear model of average virus-specific telomere length changes. These studies also found evidence of long telomere, virus-specific CD45RA + T cell populations whose depletion may precede an increased susceptibility to latent virus reactivation. I tested the hypothesis that type I interferon therapy would accelerate T cell telomere loss using PBMC samples from a cohort of chronic hepatitis C virus patients who either did or did not receive an extended course of treatment with interferon-alpha. Accelerated telomere losses occurred in naïve T cells in the interferon therapy group and were concentrated in the first half of 48 months of interferon therapy. Steady accumulation of CD57 + memory T cells in the control group, but not the therapy group, suggested that interferon also accelerated memory turnover. Based on our data, I present proposed models of memory T cell maintenance and impacts of T cell telomere length loss as we age. Telomere Telomere Homeostasis T-Lymphocytes Cell Transformation Viral In Situ Hybridization Fluorescence Cells Digestive System Diseases Genetic Phenomena Immunology and Infectious Disease Therapeutics Virus Diseases
563	Studies of HLA-DM in Antigen Presentation and CD4+ T Cell Epitope Selection: A Dissertation Yin, Liusong 09 April 2014 (has links) Antigen presented to CD4+ T cells by major histocompatibility complex class II molecules (MHCII) plays a key role in adaptive immunity. Antigen presentation is initiated by the proteolytic cleavage of pathogenic or self proteins and loading of resultant peptides to MHCII. The loading and exchange of peptides to MHCII is catalyzed by a nonclassical MHCII molecule, HLA-DM (DM). It is well established that DM promotes peptide exchange in vitro and in vivo. However, the mechanism of DM-catalyzed peptide association and dissociation, and how this would affect epitope selection in human responses to infectious disease remain unclear. The work presented in this thesis was directed towards the understanding of mechanism of DM-mediated peptide exchange and its role in epitope selection. In Chapter II, I measured the binding affinity, intrinsic dissociation half-life and DM-mediated dissociation half-life for a large set of peptides derived from vaccinia virus and compared these properties to the peptide-specific CD4+ T cell responses. These data indicated that DM shapes the peptide repertoire during epitope selection by favoring the presentation of peptides with greater DM-mediated kinetic stability, and DM-susceptibility is a strong and independent factor governing peptide immunogenicity. In Chapter III, I computationally simulated peptide binding competition reactions and found that DM influences the IC50 (50% inhibition concentration) of peptides based on their susceptibility to DM, which was confirmed by experimental data. Therefore, I developed a novel fluorescence polarization-based method to measure DM-susceptibility, reported as a IC50 (change in IC50 in the absence and presence of DM). Traditional assays to measure DM-susceptibility based on differential peptide dissociation rates are cumbersome because each test peptide has to be individually labeled and multiple time point samples have to be collected. However, in this method developed here only single probe peptide has to be labeled and only single reading have to be done, which allows for fast and high throughput measure of DM-susceptibility for a large set of peptides. In Chapter IV, we generated a series of peptide and MHCII mutants, and investigated their interactions with DM. We found that peptides with non-optimal P1 pocket residues exhibit low MHCII affinity, low kinetic stability and high DM-susceptibility. These changes were accompanied with conformational alterations detected by surface plasmon resonance, gel filtration, dynamic light scattering, small-angle X-ray light scattering, antibody-binding, and nuclear magnetic resonance assays. Surprisingly, all these kinetic and conformational changes could be reversed by reconstitution with a more optimal P9 pocket residue. Taken together, our data demonstrated that conformation of MHCII-peptide complex constrained by interactions throughout the peptide binding groove is a key determinant of DM-susceptibility. B cells recognizing cognate antigen on the virion can internalize and process the whole virion for antigen presentation to CD4+ T cells specific for an epitope from any of the virion proteins. In turn, the epitope-specific CD4+ T cells provide intermolecular (also known as noncognate or heterotypic) help to B cells to generate antibody responses against any protein from the whole virion. This viral intermolecular help model in which CD4+ T cells provide help to B cells with different protein specificities was established in small size influenza virus, hepatitis B virus and viral particle systems. For large and complex pathogens such as vaccinia virus and bacteria, the CD4+ T cell-B cell interaction model may be complicated because B cells might not be able to internalize the large whole pathogen. Recently, a study in mice observed that CD4+ T cell help is preferentially provided to B cells with the same protein specificity to generate antibody responses against vaccinia virus. However, for larger pathogens such as vaccinia virus and bacteria the CD4+ T cell-B cell interaction model has yet to be tested in humans. In Chapter V, I measured in 90 recently vaccinated and 7 long-term vaccinia-immunized human donors the CD4+ T cell responses and antibody responses against four vaccinia viral proteins (A27L, A33R, B5R and L1R) known to be strongly targeted by cellular and humoral responses. We found that there is no direct linkage between antibody and CD4+ T cell responses against each protein. However, the presence of immune responses against these four proteins is linked together within donors. Taken together, our data indicated that individual viral proteins are not the primary recognition unit and CD4+ T cells provide intermolecular help to B cells to generate robust antibody responses against large and complicated vaccinia virus in humans. Histocompatibility Antigens Class II Antigen Presentation T-Lymphocyte Epitopes CD4-Positive T-Lymphocytes B-Lymphocytes Vaccinia virus Dissertations, UMMS Epitopes, T-Lymphocyte Immunity Immunology of Infectious Disease Virology
564	IRF4 Does the Balancing Act: A Dissertation Nayar, Ribhu 07 January 2015 (has links) CD8+ T cell differentiation is a complex process that requires integration of signals from the TCR, co-stimulatory molecules and cytokines. Ligation of the peptide-MHC complex with the cognate TCR initiates a downstream signaling cascade of which the IL-2 inducible T-cell kinase (ITK) is a key component. Loss of ITK results in a measured reduction in T cell activation. Consequently, Itk deficient mice have defects in thymic selection, CD8+ T cell expansion and differentiation in response to virus infections, and generate a unique population of innate-like CD8+ T cells. The mechanisms that translate TCR and ITK-derived signals into distinct gene transcription programs that regulate CD8+ T cell differentiation are not defined. Our microarray screen identified IRF4 as a potential transcription factor mediating the differentiation of innate-like T cells, and antiviral CD8+ T cell in response to acute and chronic LCMV infections. Innate-like CD8+ T cells are characterized by their high expression of CD44, CD122, CXCR3, and the transcription factor Eomesodermin (Eomes). One component of this altered development is a non-CD8+ T cell-intrinsic role for IL-4. We show that IRF4 expression is induced upon TCR signaling and is dependent on ITK activity. In contrast to WT cells, activation of IRF4-deficient CD8+ T cells leads to rapid and robust expression of Eomes, which is further enhanced by IL-4 stimulation. These data indicate that ITK signaling promotes IRF4 up-regulation following CD8+ T cell activation and that this signaling xii pathway normally suppresses Eomes expression, thereby regulating the differentiation pathway of CD8+ T cells. ITK deficient mice also have reduced expansion of CD8+ T cells in response to acute LCMV infections. We show that IRF4 is transiently upregulated to differing levels in murine CD8+ T cells, based on the strength of TCR signaling. In turn, IRF4 controls the magnitude of the CD8+ T cell response to acute virus infection in a dose-dependent manner. Furthermore, the expression of key transcription factors such as T cell factor 1 and Eomesodermin are highly sensitive to graded levels of IRF4. In contrast, T-bet expression is less dependent on IRF4 levels and is influenced by the nature of the infection. These data indicate that IRF4 is a key component that translates the strength of TCR signaling into a graded response of virus-specific CD8+ T cells. The data from these studies indicated a pivotal role of IRF4 in regulating the expression of T-bet and Eomes. During persistent LCMV infections, CD8+ T cells differentiate into T-bethi and Eomeshi subsets, both of which are required for efficient viral control. We show that TCR signal strength regulates the relative expression of T-bet and Eomes in antigen-specific CD8+ T cells by modulating levels of IRF4. Reduced IRF4 expression results in skewing of this ratio in favor of Eomes, leading to lower proportions and numbers of T-bet+ Eomes- precursors and poor control of LCMV Clone 13 infection. Altering this ratio in favor of T-bet xiii restores the differentiation of T-bet+ Eomes- precursors and the protective balance of T-bet to Eomes required for efficient viral control. These data highlight a critical role for IRF4 in regulating protective anti-viral CD8+ T cell responses by ensuring a balanced ratio of T-bet to Eomes, leading to the ultimate control of this chronic viral infection. Interferon Regulatory Factors CD8-Positive T-Lymphocytes Cell Differentiation Lymphocytic choriomeningitis virus T Cell Transcription Factor 1 Dissertations, UMMS Cellular and Molecular Physiology Immunity Immunology of Infectious Disease
565	Multifaceted Regulation of Peripheral T Cell Tolerance and Autoimmunity by FOXP3+ T Regulatory Cells: A Dissertation Jain, Nitya 15 January 2009 (has links) Adaptive immunity requires T cell responses to foreign pathogens to be counterbalanced with the need to limit collateral destruction of the host’s own tissues. Further, the presence of a substantial pool of lymphocytes capable of recognizing selfantigen in the periphery poses a threat to the maintenance of peripheral tolerance and prevention of autoimmunity. Regulatory T cells (Treg) that can suppress potentially self-reactive T cells are critical regulators of peripheral tolerance as well as initiation of immune responses. Treg cells employ several context-dependent mechanisms to establish regulation. In this thesis, we describe two distinct pathways of regulation used by Treg cells involving negative costimulation by CTLA-4 and immunomodulation by the morphogen, TGFβ. CTLA-4 is a co-inhibitory receptor on T cells essential for maintaining T cell homeostasis and tolerance to self. CTLA-4 expression is induced in conventional T cells following activation, whereas it is constitutively expressed in regulatory FOXP3+CD4+ regulatory T cells. Mice lacking CTLA-4 develop an early onset, fatal breakdown in T cell tolerance. Whether this autoimmune disease occurs because of the loss of CTLA-4 function in regulatory T cells, conventional T cells, or both, is not known. We present evidence here that in addition to a critical CTLA-4 function in regulatory T cells, CTLA-4 in conventional T cells is also necessary for controlling the consequences of abnormal T cell activation. CTLA-4 expression in activated conventional T cells only in vivois unable to compensate for the impaired function of CTLA-4-less regulatory T cells that results in systemic lymphoproliferation, but it can prevent the aberrantly activated T cells from infiltrating and fatally damaging non-lymphoid tissues. These results demonstrate that CTLA-4 has a dual function in maintaining T cell homeostasis: CTLA-4 in regulatory T cells inhibits inappropriate naïve T cell activation and CTLA-4 in conventional T cells can prevent the harmful accumulation of inappropriately activated pathogenic T cells in vital organs. In addition, we have identified Disabled-2 (Dab2), a TGFβ signaling intermediate, as a FOXP3 target gene that is expressed exclusively in Treg cells and is critical for in vitro and in vivo regulation by Treg cells. During T cell development, DAB2 is also expressed in a Foxp3-independent manner in thymic precursor cells, and acts as a sensor of TGFβ signals that is required for programming normal TGFβ responsiveness in T cell progenies. Naïve CD4+ T cells that differentiate from Dab2-deficient precursors favor Th17 cell generation at the expense of FOXP3+ Treg cells as a result of altered sensitivity to TGFβ. Importantly, retinoic acid can restore TGFβ signaling capacity of naïve CD4+ T cells generated from Dab2-deficient precursors, emphasizing the cooperative nature of retinoic acid and TGFβ signaling pathways in promoting Treg cell development and maintenance. Self Tolerance Forkhead Transcription Factors Autoimmunity T-Lymphocytes Regulatory Homeostasis Adaptor Proteins Signal Transducing Amino Acids, Peptides, and Proteins Biological Factors Cells Hemic and Immune Systems Organic Chemicals
566	The Role of Late Antigen in CD4 Memory T Cell Formation during Influena [i.e. Influenza] Infection: A Dissertation Bautista, Bianca L. 18 October 2016 (has links) While memory CD4 T cells are critical for effective immunity to pathogens, the mechanisms underlying their generation are poorly defined. Although extensive work has been done to examine the role of antigen (Ag) in shaping memory formation, most studies focus on the requirements during the first few days of the response known as the priming phase. Little is known about whether or not Ag re-encounter by effector T cells (late Ag) alters CD4 memory T cell formation. Since influenza infection produces a large, heterogeneous, protective CD4 memory T cell population, I used this model to examine the role of late Ag in promoting CD4 memory T cell formation. In the experiments presented in this thesis, I demonstrate that late Ag is required to rescue responding CD4 T cells from default apoptosis and to program the transition to long-lived memory. Responding cells that failed to re-encounter Ag had decreased memory marker expression and failed to produce multiple cytokines upon re-stimulation. Ag recognition is required at a defined stage, as short-term Ag presentation provided 6 days after infection is able to restore canonical memory formation even in the absence of viral infection. Finally, I find that memory CD4 T cell formation following cold-adapted influenza vaccination is boosted when Ag is administered at this stage. These findings imply that persistence of viral Ag presentation into the effector phase is the key factor that determines the efficiency of memory generation. They also suggest that administering Ag during the effector stage may improve vaccine efficacy. Antigens CD4-Positive T-Lymphocytes Human Influenza Influenza A virus Dissertations, UMMS Influenza, Human Immunology of Infectious Disease Immunoprophylaxis and Therapy Influenza Virus Vaccines Virus Diseases
567	Expressão gênica do PD-1/PD-L1 e do FoxP3 na Gengivoestomatite Crônica Felina / Duarte, Roberta Picciuto. January 2019 (has links) Orientador: Gisele Fabrino Machado / Resumo: O principal objetivo do presente estudo foi avaliar a expressão gênica do PD-1 e seu ligante PD-L1, e do FoxP3 em felinos com gengivoestomatite crônica (GCF). Adicionalmente, foi feita uma caracterização do perfil dos indivíduos acometidos com a enfermidade a fim de se verificar a associação entre os resultados encontrados com os aspectos clínicos das lesões e com as análises histopatológicas das lesões. Para tal, após avaliação clínica, foram colhidas amostras da mucosa oral de sete gatos acometidos por gengivoestomatite crônica e de sete gatos aparentemente saudáveis para controle. Também foi feita a coleta de sangue para extração do soro e swab orofaríngeo para triagem das principais viroses felinas como Calicivirus (FCV), Herpesvirus (FHV-1), Vírus da Imunodeficiência Felina (FIV), Vírus da Leucemia Felina (FeLV) e Coronavirus (FCoV), assim como avaliação da função renal desses animais. O fragmento colhido foi dividido em duas partes, uma para processamento histopatológico e outra para PCR em tempo real. Foi realizada imuno-histoquímica para detecção do FCoV em específico nas lesões dos gatos com GCF. Como resultado, verificou-se que cinco dos sete gatos com a doença incluídos no estudo, eram machos, adultos, sem raça definida, castrados, viviam em ambiente com superlotação de animais, tinham acesso livre para a rua, se alimentavam de uma dieta mista composta por ração e comida caseira, e recebiam reforços anuais de vacinação. Cinco gatos com GCF eram negativos para FCV, ... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The main objective of the present study was to evaluate the gene expression of PD-1 and its ligand PD-L1, and FoxP3, as immune response modulators, in cats diagnosed with feline chronic gingivostomatitis (FCGS). Additionally, it was performed a characterization of the feline profile with FCGS the association between the results found with clinical evalution of oral cavity as well as histopathological analysis. For this, oral mucosa samples were collected from seven cats with FCGS and seven from healthy cats. Previously, clinical evalution was done and oral lesion severety was scored by a system. Blood samples and oropharyngeal swabs were collected for major feline viruses screening, such as Calicivirus (FCV), Herpesvirus (FHV-1), Feline Immunodeficiency Virus (FIV), Feline Leukemia Virus (FeLV) and Coronavirus. (FCoV), and also, renal function evaluation. The oral mucosa fragment was divided into two parts, one for histopathological processing and another for RTPCR. Immunohistochemistry was performed to detect FCoV in lesions of cats with FCGS. As result, it was found that five of seven cats with FCGS included in the study were males, adults and mixed breed. All cats were neutered, lived in a multi-cat household, had an outdoor lyifestyle, received a mixed diet, and received routine booster immunizations. Five cats were negative for FCV, FHV- 1, FIV and FeLV infection, no one was positive for FCoV at immunohistochemistry. At histopathological evaluation, it was observed minim... (Complete abstract click electronic access below) / Doutor Cavidade oral Gatos Inflamação. Celulas T. Cats Inflammation Oral cavity T-Lymphocytes Real-Time Polymerase Chain Reaction.
568	Mycobacterial Heartbreak: Up in Inflammation & The Redox Opera of Mitochondria in Aged Lymphocytes Headley, Colwyn Ansel January 2020 (has links) No description available. Immunology Medicine Microbiology Molecular Biology Immunology T lymphocytes Mitochondria Metabolism Oxidative Stress ROS Aging Infectious Diseases Mycobacteria Cardiovascular Dysfunction Sepsis Inflammation
569	Long term non progressors : clues for defining immune correlates of protection from HIV disease progression Peretz, Yoav. January 2007 (has links) No description available. Interferon Type II -- immunology. HIV Long-Term Survivors. HIV -- immunology. Interleukin-2 -- immunology. HIV Infections -- immunology.
570	Pathogenesis of HIV-1 nef in adult mice Rahim, Mir Munir Ahmed, 1975- January 2008 (has links) No description available. Disease Models, Animal. HIV-1 -- growth & development. Mice. Mice, Transgenic.

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