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Immunity and immunosuppression in the tumor-host interaction /Petersson, Max, January 1900 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 8 uppsatser.
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Caracterização fenotípica e funcional de linfócitos T de memória de indivíduos infectados pelo HIV reativos a epitopos T CD4+ derivados de sequências do consenso B do HIV-1 / Phenotypic and functional characterization of memory T lymphocytes from HIV infected individuals reactive to CD4-T epitopes derived from sequences of the HIV-1 B consensusBorgo, Adriana Coutinho 01 March 2010 (has links)
A persistência de células T de memória funcionais é importante para garantir uma imunidade protetora na infecção pelo Vírus da Imunodeficiência Humana (HIV). As células T de memória têm sido subdivididas em memória central (TCM), memória efetora (TEM) e memória efetora altamente diferenciada (TEMRA) com base na expressão de moléculas de superfície como CCR7 e CD45RA, e na capacidade de produzir citocinas e proliferar. Recentemente, identificamos 18 peptídeos derivados de seqüências do consenso B do HIV-1, ligadores de múltiplas moléculas HLA-DR e amplamente reconhecidos por linfócitos T de sangue periférico de pacientes infectados pelo HIV. Diante disso e considerando a importância das células T de memória na manutenção da resposta imune específica, nosso objetivo foi caracterizar fenotípica e funcionalmente as subpopulações de células T de memória de indivíduos infectados pelo HIV envolvidas no reconhecimento in vitro desses epitopos. Foram incluídos 14 indivíduos controles sadios e 61 pacientes HIV+ com contagem de linfócitos T CD4+ maior que 250 células/mm3. Os pacientes HIV+ foram divididos em seis diferentes grupos clínicos de acordo com o estágio da infecção, carga viral (CV) plasmática e uso de terapia anti-retroviral (ART): não progressores por longo tempo (LTNP), avirêmicos em uso de ART (AV-ART), virêmicos em uso de ART (VI-ART), virêmicos sem uso de ART (VI sem ART), virêmicos recéminfectados sem uso de ART (VI-RI) e controladores. Células mononucleares do sangue periférico dos indivíduos do estudo foram estimuladas com o conjunto de peptídeos do HIV-1 e com um conjunto de peptídeos do Citomegalovírus (CMV). A freqüência de células de memória produtoras de IFN- e IL-2 e a proliferação celular antígeno-específica foram detectadas por citometria de fluxo de multiparâmetros. Nossos resultados mostraram que o conjunto de peptídeos do HIV-1 foi capaz de ativar subpopulações funcionais de memória TCM, TEM e TEMRA secretoras de IFN- e IL-2 em 100% dos pacientes HIV+ dos diferentes grupos clínicos. O conjunto de peptídeos do HIV-1 também induziu proliferação das subpopulações de linfócitos T de memória. As freqüências de TEMRA CD4+IFN-+, TEMRA CD4+IFN-+ total, TCM CD8+IFN-+, TCM CD8+IFN-+ total, TEM CD8+IFN-+, TEM CD8+IFN-+ total e TEMRA CD8+IFN-+ correlacionaram-se negativamente com a carga viral do HIV em pacientes virêmicos. Esses dados sugerem que essas subpopulações de memória funcionais são importantes no controle da viremia. Comparando as respostas HIV e CMVespecíficas observamos freqüências mais elevadas de células T de memória produtoras de IL-2, IFN-/IL-2 e IFN- em respostas ao pool de peptídeos do HIV. Esses dados sugerem que esse conjunto de peptídeos derivados de seqüências do HIV-1 ativa respostas polifuncionais de subpopulações de linfócitos T de memória. Nossos resultados mostraram que o conjunto de peptídeos do HIV-1 foi capaz de estimular diferentes subpopulações distintas de linfócitos T de memória produtores de IFN-, IFN-,/IL-2 e IL-2 de indivíduos em diferentes estágios da infecção pelo HIV e sugerem o envolvimento de subpopulações de memória funcionais no controle da viremia. Estes achados fortalecem a possibilidade de uso desses peptídeos em uma formulação vacinal bem-sucedida em humanos / The persistence of functional memory T cell is important to ensure a protective immunity to Human Immunodeficiency Virus (HIV) infection. Memory T cells have been subdivided into central memory (TCM), effector memory (TEM) and highly differentiated effector memory (TEMRA) based on the expression of surface molecules such as CCR7 and CD45RA, and the ability to produce cytokines and proliferate. Recently, we identified 18 peptides derived from B consensus sequences of HIV-1 that bind to multiple HLA-DR molecules and are widely recognized by peripheral blood T lymphocytes from HIV-infected patients. Given this and considering the importance of memory T cells in the maintenance of specific immune response, our objective was to characterize phenotypic and functionally memory T cell subsets from HIV-infected individuals involved in the recognition of these epitopes in vitro. The study included 14 healthy control subjects and 61 HIV+ patients with CD4+ lymphocytes counts higher than 250 cells/mm3. The HIV+ patients were divided into six different clinical groups according to the stage of infection, plasma viral load (VL) and antiretroviral therapy use (ART): long-term non-progressors (LTNP), aviremic under ART (AV-ART), viremic under ART (VI-ART), viremic without using ART (VI without ART), recently infected viremic without using ART (VI-RI) and controllers. Peripheral blood mononuclear cells from study subjects were stimulated with HIV-1 peptide pool and with a cytomegalovirus (CMV) peptide pool. The frequencies of IFN- and IL-2 producing memory cells and antigenspecific cell proliferation were detected by multiparametric flow cytometry. Our results showed that the HIV-1 set of peptides was able to activate TCM, TEM and TEMRA functional memory subsets that secrete IFN- and IL-2 in 100% of the HIV patients from the different clinical groups. The HIV-1 set of peptides also induced memory T lymphocyte subsets proliferation. TEMRA CD4+IFN-+, total TEMRA CD4+IFN-+, TCM CD8+IFN-+, total TCM CD8+IFN-+, total TEM CD8+IFN-+, TEM CD8+IFN-+ and TEMRA CD8+IFN- + frequencies negatively correlated with HIV viral load in viremic patients. These data suggest that these functional memory subsets are important to control the viremia. When comparing the HIV and CMV-specific responses we observed higher frequencies of IL-2, IFN-/IL-2 and IFN- producing memory T cells in response to HIV peptide pool. These data suggest that this set of HIV sequence derived peptides activates polyfunctional response of memory T lymphocyte subsets. Our results showed that the HIV-1 peptide set was able to stimulate different IFN-, IFN-/IL-2 e IL-2 producing memory T lymphocytes from individuals in different stages of HIV infection and suggest the involvement of functional memory subsets in the control of viremia. These findings strengthen the possibility of using these peptides in a successful vaccine formulation in humans
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Identification of T cell epitopes in the major shrimp allergen, Met e 1.January 2008 (has links)
Kung, Wing Yee. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2008. / Includes bibliographical references (leaves 92-115). / Abstracts in English and Chinese. / Abstract --- p.ii / Acknowledgements --- p.vii / Table of contents --- p.ix / List of Tables --- p.xii / List of Figures --- p.xiii / List of Abbreviations --- p.xv / Chapter Chapter 1. --- General introduction --- p.1 / Chapter Chapter 2. --- Literature review --- p.4 / Chapter 2.1 --- Food allergy and its prevalence --- p.4 / Chapter 2.2 --- Mechanism and clinical symptoms of food allergy --- p.6 / Chapter 2.3 --- Tropomyosin as the major allergen in shellfish --- p.15 / Chapter 2.4 --- Cross reactivity and epitope mapping of tropomyosin --- p.21 / Chapter 2.5 --- Novel approaches for the treatment of food allergy --- p.29 / Chapter Chapter 3. --- Expression of shrimp recombinant tropomyosin and sensitization of mice --- p.36 / Chapter 3.1 --- Introduction --- p.36 / Chapter 3.2 --- Materials and Methods --- p.40 / Chapter 3.2.1 --- "Recovery of E, coli with tropomyosin-carrying plasmid" --- p.40 / Chapter 3.2.2 --- Preparation of tropomyosin-carrying plasmid --- p.41 / Chapter 3.2.3 --- Confirmation of DNA sequence of the tropomyosin --- p.41 / Chapter 3.2.4 --- Identification of the recombinant protein --- p.43 / Chapter 3.2.5 --- Purification of the recombinant protein --- p.43 / Chapter 3.2.6 --- Sodium dedecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) --- p.44 / Chapter 3.2.7 --- Concentration measurement of the recombinant tropomyosin --- p.45 / Chapter 3.2.8 --- Mice --- p.46 / Chapter 3.2.9 --- Mice sensitization and challenging --- p.46 / Chapter 3.2.10 --- Tropomyosin-specific IgE level in blood --- p.47 / Chapter 3.2.11 --- Statistical analysis --- p.49 / Chapter 3.3 --- Results --- p.52 / Chapter 3.3.1 --- DNA sequence of the cloned tropomyosin --- p.52 / Chapter 3.3.2 --- Expression and purification of tropomyosin --- p.52 / Chapter 3.3.3 --- Hypersensitivity symptoms after challenge --- p.53 / Chapter 3.3.4 --- Blood tropomyosin-specific IgE level --- p.53 / Chapter 3.4 --- Discussion --- p.62 / Chapter Chapter 4. --- Identification of T cell epitopes --- p.67 / Chapter 4.1 --- Introduction --- p.67 / Chapter 4.2 --- Materials and methods --- p.67 / Chapter 4.2.1 --- Soluble epitope peptide synthesis --- p.68 / Chapter 4.2.2 --- Isolation of spleen cells from mice --- p.69 / Chapter 4.2.3 --- T cell proliferation assay --- p.70 / Chapter 4.3 --- Results --- p.71 / Chapter 4.3.1 --- Splenocyte proliferation to synthetic peptide --- p.72 / Chapter 4.3.2 --- Splenocyte proliferation to synthetic peptides pool --- p.72 / Chapter 4.4 --- Discussion --- p.77 / Chapter Chapter5 --- General conclusion --- p.89 / References --- p.92
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Relating TCR-peptide-MHC affinity to immunogenicity for the design of tumor vaccines /McMahan, Rachel H. January 2007 (has links)
Thesis (Ph.D. in Immunology) -- University of Colorado Denver, 2007. / Typescript. Includes bibliographical references (leaves 133-156). Free to UCD affiliates. Online version available via ProQuest Digital Dissertations;
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Caracterização fenotípica e funcional de linfócitos T de memória de indivíduos infectados pelo HIV reativos a epitopos T CD4+ derivados de sequências do consenso B do HIV-1 / Phenotypic and functional characterization of memory T lymphocytes from HIV infected individuals reactive to CD4-T epitopes derived from sequences of the HIV-1 B consensusAdriana Coutinho Borgo 01 March 2010 (has links)
A persistência de células T de memória funcionais é importante para garantir uma imunidade protetora na infecção pelo Vírus da Imunodeficiência Humana (HIV). As células T de memória têm sido subdivididas em memória central (TCM), memória efetora (TEM) e memória efetora altamente diferenciada (TEMRA) com base na expressão de moléculas de superfície como CCR7 e CD45RA, e na capacidade de produzir citocinas e proliferar. Recentemente, identificamos 18 peptídeos derivados de seqüências do consenso B do HIV-1, ligadores de múltiplas moléculas HLA-DR e amplamente reconhecidos por linfócitos T de sangue periférico de pacientes infectados pelo HIV. Diante disso e considerando a importância das células T de memória na manutenção da resposta imune específica, nosso objetivo foi caracterizar fenotípica e funcionalmente as subpopulações de células T de memória de indivíduos infectados pelo HIV envolvidas no reconhecimento in vitro desses epitopos. Foram incluídos 14 indivíduos controles sadios e 61 pacientes HIV+ com contagem de linfócitos T CD4+ maior que 250 células/mm3. Os pacientes HIV+ foram divididos em seis diferentes grupos clínicos de acordo com o estágio da infecção, carga viral (CV) plasmática e uso de terapia anti-retroviral (ART): não progressores por longo tempo (LTNP), avirêmicos em uso de ART (AV-ART), virêmicos em uso de ART (VI-ART), virêmicos sem uso de ART (VI sem ART), virêmicos recéminfectados sem uso de ART (VI-RI) e controladores. Células mononucleares do sangue periférico dos indivíduos do estudo foram estimuladas com o conjunto de peptídeos do HIV-1 e com um conjunto de peptídeos do Citomegalovírus (CMV). A freqüência de células de memória produtoras de IFN- e IL-2 e a proliferação celular antígeno-específica foram detectadas por citometria de fluxo de multiparâmetros. Nossos resultados mostraram que o conjunto de peptídeos do HIV-1 foi capaz de ativar subpopulações funcionais de memória TCM, TEM e TEMRA secretoras de IFN- e IL-2 em 100% dos pacientes HIV+ dos diferentes grupos clínicos. O conjunto de peptídeos do HIV-1 também induziu proliferação das subpopulações de linfócitos T de memória. As freqüências de TEMRA CD4+IFN-+, TEMRA CD4+IFN-+ total, TCM CD8+IFN-+, TCM CD8+IFN-+ total, TEM CD8+IFN-+, TEM CD8+IFN-+ total e TEMRA CD8+IFN-+ correlacionaram-se negativamente com a carga viral do HIV em pacientes virêmicos. Esses dados sugerem que essas subpopulações de memória funcionais são importantes no controle da viremia. Comparando as respostas HIV e CMVespecíficas observamos freqüências mais elevadas de células T de memória produtoras de IL-2, IFN-/IL-2 e IFN- em respostas ao pool de peptídeos do HIV. Esses dados sugerem que esse conjunto de peptídeos derivados de seqüências do HIV-1 ativa respostas polifuncionais de subpopulações de linfócitos T de memória. Nossos resultados mostraram que o conjunto de peptídeos do HIV-1 foi capaz de estimular diferentes subpopulações distintas de linfócitos T de memória produtores de IFN-, IFN-,/IL-2 e IL-2 de indivíduos em diferentes estágios da infecção pelo HIV e sugerem o envolvimento de subpopulações de memória funcionais no controle da viremia. Estes achados fortalecem a possibilidade de uso desses peptídeos em uma formulação vacinal bem-sucedida em humanos / The persistence of functional memory T cell is important to ensure a protective immunity to Human Immunodeficiency Virus (HIV) infection. Memory T cells have been subdivided into central memory (TCM), effector memory (TEM) and highly differentiated effector memory (TEMRA) based on the expression of surface molecules such as CCR7 and CD45RA, and the ability to produce cytokines and proliferate. Recently, we identified 18 peptides derived from B consensus sequences of HIV-1 that bind to multiple HLA-DR molecules and are widely recognized by peripheral blood T lymphocytes from HIV-infected patients. Given this and considering the importance of memory T cells in the maintenance of specific immune response, our objective was to characterize phenotypic and functionally memory T cell subsets from HIV-infected individuals involved in the recognition of these epitopes in vitro. The study included 14 healthy control subjects and 61 HIV+ patients with CD4+ lymphocytes counts higher than 250 cells/mm3. The HIV+ patients were divided into six different clinical groups according to the stage of infection, plasma viral load (VL) and antiretroviral therapy use (ART): long-term non-progressors (LTNP), aviremic under ART (AV-ART), viremic under ART (VI-ART), viremic without using ART (VI without ART), recently infected viremic without using ART (VI-RI) and controllers. Peripheral blood mononuclear cells from study subjects were stimulated with HIV-1 peptide pool and with a cytomegalovirus (CMV) peptide pool. The frequencies of IFN- and IL-2 producing memory cells and antigenspecific cell proliferation were detected by multiparametric flow cytometry. Our results showed that the HIV-1 set of peptides was able to activate TCM, TEM and TEMRA functional memory subsets that secrete IFN- and IL-2 in 100% of the HIV patients from the different clinical groups. The HIV-1 set of peptides also induced memory T lymphocyte subsets proliferation. TEMRA CD4+IFN-+, total TEMRA CD4+IFN-+, TCM CD8+IFN-+, total TCM CD8+IFN-+, total TEM CD8+IFN-+, TEM CD8+IFN-+ and TEMRA CD8+IFN- + frequencies negatively correlated with HIV viral load in viremic patients. These data suggest that these functional memory subsets are important to control the viremia. When comparing the HIV and CMV-specific responses we observed higher frequencies of IL-2, IFN-/IL-2 and IFN- producing memory T cells in response to HIV peptide pool. These data suggest that this set of HIV sequence derived peptides activates polyfunctional response of memory T lymphocyte subsets. Our results showed that the HIV-1 peptide set was able to stimulate different IFN-, IFN-/IL-2 e IL-2 producing memory T lymphocytes from individuals in different stages of HIV infection and suggest the involvement of functional memory subsets in the control of viremia. These findings strengthen the possibility of using these peptides in a successful vaccine formulation in humans
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Tracking antigen-specific immune responses in human infection and disease /Novak, Erik Joseph, January 2001 (has links)
Thesis (Ph. D.)--University of Washington, 2001. / Vita. Includes bibliographical references (leaves 131-153).
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Mechanisms of T cell tolerance to the RNA-binding nuclear autoantigen human La/SS-BYaciuk, Jane Cherie. January 2008 (has links) (PDF)
Thesis (Ph. D.)--University of Oklahoma. / Bibliography: leaves 122-140.
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Studies of HLA-DM in Antigen Presentation and CD4+ T Cell Epitope Selection: A DissertationYin, 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.
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Influência da imunização inicial com a vacina codificando epítopos para linfócitos T CD4 + do HIV na resposta imune direcionada a proteína env / Influence of an HIV derived CD4+ T cell epitopes DNA vaccine priming in the immune responses against env proteinApostolico, Juliana de Souza 11 November 2013 (has links)
A epidemia causada pelo vírus da imunodeficiência humana (HIV) é a mais importante das ultimas décadas. A despeito dos avanços no conhecimento da patogenia do vírus e da resposta imune à infecção, até o momento não existe uma vacina eficaz contra a aquisição do HIV. Diversas linhas de evidência indicam que anticorpos neutralizantes ou ligadores, linfócitos T CD4+ e T CD8+ desempenham um papel importante na imunidade contra o HIV. Os anticorpos que são capazes de neutralizar o HIV são direcionados principalmente à glicoproteína do envelope do vírus (env), mas os candidatos vacinais baseados na proteína de envelope gp120 monomérica testados até hoje falharam em induzir proteção nos ensaios de eficácia. Avanços no entendimento da estrutura e função da glicoproteína env tem facilitado o desenvolvimento de uma nova geração de imunógenos baseada em trímeros mais estáveis e solúveis da glicoproteína gp140. Em uma formulação vacinal além da escolha do antígeno, os adjuvantes desempenham um papel fundamental. Os adjuvantes são conhecidos por aumentar a imunogenicidade das vacinas, e nos últimos anos vários compostos, incluindo agonistas de receptores do tipo Toll (TLR) e NOD (NLR) têm demonstrado eficácia em ensaios clínicos. Em estudos prévios, nosso grupo demonstrou que a imunização de camundongos com uma vacina de DNA codificando 18 epítopos para linfócitos T CD4+ do HIV-1 (HIVBr18), foi capaz de induzir resposta específica e ampla de linfócitos T CD4+ e T CD8+. Devido ao importante papel do efeito auxiliar de linfócitos T CD4+ na resposta humoral nas imunizações assistidas por diversos adjuvantes, o objetivo central do trabalho foi verificar se a imunização inicial com a vacina de DNA HIVBr18 seria capaz de aumentar a magnitude/qualidade de resposta imune humoral e celular induzida pelo trímero de gp140 na presença de diferentes adjuvantes. Para tal, camundongos BALB/c foram imunizados inicialmente com a vacina HIVBr18 ou com o vetor vazio e posteriormente com a proteína gp140 na presença dos adjuvantes: completo de Freund (ACF), poly IC, CpG ODN 1826, Monofosforil lipídeo A (MPL), Muramildipeptídeo (MDP), Imiquimod (R837), e Resiquimod (R848). Observamos que a imunização inicial com HIVBr18 foi capaz de fornecer um auxílio cognato para a proliferação específica de linfócitos T CD4+ e T CD8+ e também para a produção da citocina IFNy. A análise da xx resposta humoral mostrou que a imunização inicial com a vacina HIVBr18, foi capaz de influenciar a produção das subclasses de imunoglobulinas, independente do adjuvante testado. No presente trabalho, também analisamos a influência dos adjuvantes na imunogenicidade da gp140. Os animais que receberam os adjuvantes MPL, poly IC e CpG ODN 1826 apresentaram títulos de anticorpos estatisticamente superiores quando comparados aos animais que receberam os adjuvantes Alum, MDP, R837 e R848. Observamos que os animais imunizados com a gp140 na presença dos diferentes adjuvantes desenvolveram células B do centro germinativo e células TCD4+ auxiliar foliculares. Estes resultados nos permitem concluir que a imunização inicial com HIVBr18 é capaz de alterar a qualidade da resposta humoral e celular gp140- específica. Assim, essa formulação poderia ser utilizada para auxiliar e/ou direcionar a resposta imune induzida por outros imunógenos como por exemplo o trímero de gp140. Podemos concluir também que diferentes formulações de adjuvantes que se encontram em ensaios clínicos como poly IC, CpG ODN e MPL podem ser capazes de induzir um resposta imune humoral e celular tão ou mais potente que aquela induzida pelo ACF / The epidemic caused by the human immunodeficiency virus (HIV) is the most important in the last decades. Despite advances in the knowledge about virus pathogenesis and immune response to infection, until now there is not an effective vaccine against HIV acquisition. Several evidences indicate that neutralizing or binding antibodies, CD4+ and CD8+ T lymphocytes play an important role in immunity against HIV. The antibodies that are able to neutralize HIV are primarily directed against the virus envelope glycoprotein (env), but the vaccine candidates based on monomeric gp120 envelope protein tested so far failed to induce protection in efficacy trials. Advances in understanding the structure and function of the env glycoprotein have facilitated the development of a new generation of immunogens based on trimers, a more stable and soluble form of gp140 glycoprotein. In a vaccine formulation, in addition to the antigen, adjuvants play a pivotal role. Adjuvants are known to increase the immunogenicity of vaccines and, in the last years, several compounds, including agonists of Toll-like receptors (TLR) and NOD (NLR), have presented efficacy in clinical trials. In previous work, our group demonstrated that immunization of mice with a DNA vaccine (HIVBr18) encoding 18 CD4+ T cells epitopes from HIV-1 was able to induce a broad CD4+ T and CD8+ T cells specific response.. Given the important role of CD4+ T cells in the humoral response after adjuvant-assisted immunization, the aim of the study was to verify whether an initial immunization with the DNA vaccine HIVBr18 could increase the magnitude/quality of humoral and cellular immune response induced by gp140 trimer in the presence of different adjuvants. Therefore, BALB/c mice were initially immunized with the vaccine HIVBr18 or empty vector and then with gp140 in the presence of the following adjuvants: Freund\'s complete (CFA), poly IC, CpG ODN 1826, monophosphoryl lipid A (MPL), Muramyl dipeptide (MDP), Imiquimod (R837), and Resiquimod (R848). We observed that initial immunization with HIVBr18 was able to provide cognate help for specific CD4+ and CD8+ T cells proliferation and also for IFN-y production. Analysis of humoral response showed that initial immunization with the HIVBr18 vaccine was able to alter the production of immunoglobulin subclasses independent of the adjuvant tested. This work also analyzed the influence of adjuvants on the immunogenicity of gp140. Mice that received the adjuvant MPL, poly IC and CpG ODN 1826 presented higher antibody titers when compared to animals that received Alum, MDP, R837 and R848. We observed that mice immunized with gp140 in the presence of all adjuvants tested developed germinal center B cells and follicular helper T cells (TFH). We conclude that initial immunization with HIVBr18 is able to alter the quality of specific humoral and cellular immune responses.. Therefore, this formulation could be used in combination with other immunogens, such as gp140, to help/redirect the immune response. We also conclude that the adjuvants that are in clinical trials such as poly IC, MPL and CpG ODN 1826 may be able to induce stronger humoral and cellular response than CFA
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Estudo do reconhecimento de epitopos das proteínas Gag e Nef do HIV-1 por linfócitos T em indivíduos cronicamente infectados pelo HIV-1 não progressores por longo tempo / Study of the recognition of HIV-1 Gag and Nef epitopes by T lymphocytes in chronically infected HIV-1 Long-Term Non-ProgressorsSilva, Bosco Christiano Maciel da 03 June 2008 (has links)
Os linfócitos T têm um papel central no controle da infecção pelo HIV-1. As respostas mediadas por esses linfócitos contra epitopos do HIV-1 restritos a moléculas HLA de classe I podem estar associadas à proteção natural em indivíduos LTNP. Relatos sugerem que determinados alelos HLA apresentamse mais representados entre os LTNP. Para avaliar esses aspectos na coorte francesa ALT, coletamos células mononucleares de sangue periférico (CMSP) de 24 indivíduos LTNP e verificamos a freqüência de respostas específicas para o HIV-1. Para isso, utilizamos pools de peptídeos sobrepostos de Gag e regiões imunodominantes da RT e Nef, e identificamos epitopos do HIV-1 restritos a moléculas HLA de classe I, associados ou não à proteção, através do ensaio de ELISPOT IFN-?. Todos os indivíduos apresentaram respostas específicas aos pools testados, com uma mediana de 5 (2-12). Todas as proteínas do HIV-1 foram reconhecidas, sendo que Gag-p24 e Nef foram as mais freqüentemente reconhecidas pelas CMSP dos indivíduos avaliados. A intensidade total de resposta de linfócitos T específicos aos pools de Gag, RT e Nef do HIV-1 em cada indivíduo variou de 160 a 12307 SFC/106 CMSP (mediana: 2025). Observamos o reconhecimento de 22 epitopos já descritos na literatura, contidos nas proteínas Gag-p17, Gag-p24 e Nef do HIV-1, restritos a moléculas HLA de classe I, a maioria descrita como protetoras da progressão para a doença. Quatro novos epitopos ainda não descritos na literatura também foram observados. Concluímos que: respostas específicas mediadas por linfócitos T, eficazes e dirigidas contra um amplo painel de epitopos do HIV-1, estão presentes nos indivíduos LTNP; a presença de moléculas HLA de classe I associadas à proteção favorece o reconhecimento preferencial de epitopos do HIV-1 restritos por elas na maioria dos indivíduos LTNP; esses aspectos devem ser levados em conta na perspectiva do desenvolvimento de uma vacina candidata contra o HIV-1. / T lymphocytes (T-L) have a paramount role in the control of HIV-1 infection. The responses mediated by these cells against HLA class I epitopes may be associated to the natural protection in long-term non-progressors (LTNP). The literature suggests that some HLA alleles relate to the protection against the immune dysfunction. The aim of this research is to study the recognition of HIV-1 Gag, Nef and RT epitopes by T-L through an ELISPOT IFN-? assay in the peripheral blood mononuclear cells (PBMC) of 24 LTNP selected from French ALT study group. We evaluated the frequency of anti-HIV-1 responses and identified HLA class I epitopes. All individuals presented specific responses to the pools of peptides tested with a median of 5 (2-12). Gag-p24 and Nef were the most frequently recognized proteins. The magnitude of the responses varied from 160 to 12307 SFC/106 PBMC (median=2025). We observed the recognition of 22 epitopes already described in HIV-1 Gag-p17, Gag-p24 and Nef, restricted to HLA class I molecules reported as protective. We have also observed four new epitopes not already described in the literature. Our results suggest that: HIV-1 responses by T-L are present in LTNP; the presence of HLA class I molecules associated with protection in the majority of LTNP are related to the recognition of MHC restricted HIV-1 epitopes; these aspects must be taken into account in the development of a candidate vaccine against HIV-1.
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