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Identificação de epitopos da protease de HIV-1 alvos de respostas de células T CD4+ em pacientes infectados pelo HIV-1 / Identification of HIV-1 protease epitopes target of CD4+ T cell responses in HIV-1 infected patientsNatalie Guida Muller 18 December 2009 (has links)
Introdução: Uma proporção significante de pacientes infectados por HIV-1 (pacientes HIV-1+) tratados com inibidores de protease (IPs) desenvolve mutações de resistência. Estudos recentes têm mostrado que células T CD8+ de pacientes HIV- 1+ reconhecem epitopos de Pol incluindo mutações selecionadas por drogas. Nenhum epitopo CD4+ da protease foi descrito na base de dados de Los Alamos. Objetivo: Considerando que a protease de HIV-1 é alvo de terapia antiretroviral e que essa pressão pode selecionar mutações, nós investigamos se mutações selecionadas por IPs afetariam o reconhecimento de epitopos da protease de HIV-1 por células T CD4+ em pacientes tratados com IPs. Nós investigamos o reconhecimento de três regiões da protease preditas de conter epitopos de células T CD4+ bem como mutações induzidas por IPs por células T CD4+ em pacientes HIV- 1+ tratados com IPs. Materiais e Métodos: Quarenta pacientes HIV-1+ tratados com IPs foram incluídos (30 em uso de Lopinavir/ritonavir, 9 em uso de Atazanavir/Ritonavir e 1 em uso exclusivo de Atazanavir). Para cada paciente determinou-se a seqüência endógena da protease de HIV-1, genotipagem viral e tipagem HLA classe II. Utilizamos o algoritmo TEPITOPE para selecionar peptídeos promíscuos, ligadores de múltiplas moléculas HLA-DR, codificando as três regiões da protease de HIV-1 cepa HXB2 (HXB2 4-23, 45-64, e 76-95) e 32 peptídeos adicionais contidos nas mesmas regiões incorporando as mutações induzidas por IPs mais freqüentes no Brasil. Os 35 peptídeos foram sintetizados. Respostas proliferativas de células T CD4+ e CD8+ aos peptídeos foram determinadas por ensaios de proliferação com diluição do corante CFSE. Ensaios de ligação a alelos HLA classe II foram realizados para confirmar a promiscuidade desses peptídeos e avaliar a habilidade de se ligarem a moléculas HLA presentes em cada paciente. Resultados: Todos os peptídeos foram reconhecidos por pelo menos um paciente e respostas proliferativas de células T CD4+ e CD8+ a pelo menos um peptídeo da protease de HIV-1 foram encontradas em 78% e 75% dos pacientes, respectivamente. A terceira região (Protease 76 95) foi a mais freqüentemente reconhecida. Ao compararmos as respostas de células T às seqüências da protease do HIV-1 endógeno, observamos que a maioria dos pacientes não foi capaz de reconhecer peptídeos idênticos às essas seqüências, porém reconheceram peptídeos variantes diferentes das mesmas regiões. Apenas sete pacientes responderam às seqüências endógenas. Verificamos que diversos peptídeos endógenos que não foram reconhecidos apresentaram ausência de ligação a alelos HLA portados por estes pacientes, sugerindo que mutações selecionadas por pressão imune tenham levado ao escape de apresentação de antígeno e evasão de resposta de linfócitos T CD4+. Alternativamente, isso poderia ser explicado pela presença de um vírus replicante distinto presente no plasma uma vez que somente foram obtidas seqüências provirais. Conclusão: Epitopos selvagens e mutantes da protease do HIV-1 reconhecidos por células T CD4+ foram identificados. Também verificamos que a maior parte dos pacientes não reconheceu as seqüências da protease endógena enquanto que reconheceram seqüências variantes. O reconhecimento de seqüências não-endógenas poderia ser hipoteticamente conseqüência de alvo de populações HIV-1 minoritárias; protease de HERV que contém regiões de similaridade com a protease do HIV-1; ou seqüências de HIV-1 presentes apenas em parceiros virêmicos. A falha de reconhecimento de seqüências endógenas seria mais provável devido ao escape imune, do que ao nível de apresentação ou reconhecimento por células T. Isso implica em uma conseqüência patofisiológica na evasão de respostas de células T contra a protease de HIV-1 e no fato de ser tradicionalmente considerada uma proteína pouco antigênica / Introduction: A significant proportion of protease inhibitor (PI)-treated HIV-1 infected (HIV-1+) patients develop resistance mutations. Recent studies have shown that CD8+ T cells from HIV-1 patients can recognize antiretroviral drug-induced mutant Pol epitopes. No HIV-1 protease CD4 epitopes are described in the Los Alamos database. Aims: Given that the protease of HIV-1 is a target of antiretroviral therapy and this pressure may lead to the selection of mutations, we investigated whether PI-induced mutations affect the recognition of HIV-1 protease epitopes by CD4 + T cells in PI-treated patients. We investigated the recognition of three protease regions predicted to harbor CD4+ T cell epitopes as well as PI-induced mutations by CD4+ T cells of PI-treated HIV-1+ patients. Methods: Forty PI-treated HIV-1+ patients were included (30 undergoing Lopinavir/ritonavir, 9 undergoing Atazanavir/ritonavir and 1 undergoing exclusively Atazanavir treatment). For each patients, the endogenous HIV-1 protease sequence, viral genotype and HLA class II typing were determined. We used the TEPITOPE algorithm to select promiscuous, multiple HLA-DR-binding peptides encoding 3 regions of HIV-1 HXB2 strain protease (HXB2 4-23, 45-64, and 76-95) and 32 additional peptides contained in the same regions, but encompassing the most frequent PI-induced mutations in Brazil. The 35 peptides were thus synthesized. Proliferative responses of CD4+ and CD8+ T cells against peptides were determined by the CFSE dilution assay. HLA class II binding assays were made to confirm the promiscuity of these peptides and evaluate their ability to bind the HLA molecules carried by each patient. Results: All tested peptides were recognized by at least one patient and proliferative responses of CD4+ and CD8+ T cells against at least one HIV-1 protease peptide were found in 78% and 75% patients, respectively. The third region (Protease 76-95) was the most frequently recognized. By comparing T-cell responses to HIV-1 endogenous protease sequences, we found that most patients failed to recognize identical peptides of those sequences, but recognized different variant peptides of the same region. Only seven patients responded to endogenous sequences. We found that several endogenous peptides that failed to be recognized showed no binding to the HLA alleles carried by that given patient, suggesting that mutations selected by immune pressure have led to escape of antigen presentation, as well as direct escape of the CD4+ T cell response. Alternatively, it could have been due to the presence of a different replicating virus in the plasma-since we only obtained proviral sequences. Conclusion: Wild-type and mutant HIV-1 protease epitopes recognized by CD4+ T cells were identified. We also found that most patients failed to recognize their endogenous protease sequences, while they recognized variant sequences. The recognition of non-endogenous sequences could hypothetically be a consequence of targeting a minor HIV-1 population; HERV protease, that contains regions of similarity with HIV-1 protease; or HIV-1 sequences present only in viremic partners. The failure to recognize endogenous sequences is most likely due to immune escape, either at the level of presentation or direct T cell recognition. This may have a pathophysiological consequence on evasion of T cell responses against protease and the fact that it has been considered traditionally a poorly antigenic HIV-1 protein.
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Reconstituição e preservação imune em crianças e adolescentes infectados pelo vírus da imunodeficiência humana sob terapia antirretroviral combinada / Immune reconstitution and preservation in children and adolescents infected with human immunodeficiency virus in highly active antiretroviral therapyFerreira, Josiane Francisca, 1979- 21 August 2018 (has links)
Orientadores: Marcos Tadeu Nolasco da Silva, Maria Marluce dos Santos Vilela / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-21T12:56:55Z (GMT). No. of bitstreams: 1
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Previous issue date: 2012 / Resumo: INTRODUÇÃO: A adoção da Terapia Antirretroviral Combinada (TARC), proporcionou uma dramática melhora na sobrevida, na qualidade de vida e no controle clínico da infecção por HIV em pediatria. Em consequência do controle efetivo da replicação viral, observa-se reconstituição do sistema imune, que contribui para a redução da incidência dos quadros infecciosos. Neste contexto, a determinação da reconstituição imune em estudos observacionais pode fornecer marcadores para a avaliação da resposta à TARC. OBJETIVOS: Determinar a prevalência de recuperação imunológica associada à introdução da TARC em uma população pediátrica acompanhada em serviço de referência, bem como fatores associados à obtenção desta meta. MÉTODO: Estudo observacional, analítico, do tipo coorte histórico. Em 127 pacientes em TARC pelo período mínimo de 1 ano, avaliou-se a reconstituição imune, caracterizada por uma porcentagem de linfócitos T CD4+ 'maior ou igual' 25% ou valor absoluto considerado normal para a idade. RESULTADOS: Dos 127 pacientes avaliados, 117 (92,12%) obtiveram reconstituição ou preservação imune. Nos indivíduos com reconstituição ou preservação imune, a idade ao início da TARC foi significativamente inferior (p = 0,007), e os escores-z de peso e IMC foram significativamente superiores (p = 0,028 e 0,032, respectivamente). Em relação às categorias clínicas, observou-se uma proporção significativamente superior de indivíduos nas categorias N, A e B no grupo com reconstituição ou preservação imune (p = 0,05). As porcentagens de linfócitos T CD4+ e a relação CD4 / CD8, bem como a proporção de indivíduos nas categorias imunológicas 1 e 2, foram superiores no grupo com reconstituição ou preservação imune (p = 0,019, 0,018 e 0,005, respectivamente). CONCLUSÃO: Pudemos observar que, em crianças e adolescentes infectados por HIV em TARC, a reconstituição ou preservação imune estiveram associadas a uma idade mais jovem e à maior preservação imunológica e clínica ao início da terapia / Abstract: INTRODUCTION: The adoption of Highly Active Antiretroviral Therapy (HAART) provided a dramatic improvement in survival, quality of life and clinical management of HIV infection in children. As a result the effective control of viral replication, it is observed immune reconstitution, which contributes to reducing the incidence of infectious. In this context, the determination of immune reconstitution in observational studies can provide markers for assessing response to HAART. Objective: To determine the prevalence of immune recovery or preservation associated with the introduction of HAART in a pediatric population followed in a reference service, as well as factors associated with the attainment of this goal. Methods: Observational study, analytic, historical cohort. In 127 patients on HAART for at least one year, we evaluated the immune reconstitution or preservation, characterized by a of CD4+ cell percentage 'more or equal' 25% or absolute values considered normal for their age. Results: Of the 127 patients evaluated, 117 (92.12%) had immune reconstitution or preservation. In individuals with immune reconstitution or preservation, the age at first HAART was significantly lower (p = 0.007), and weight and BMI z-scores for age were significantly higher (p = 0.028 and 0.032, respectively). With respect to clinical categories, there was a significantly higher proportion of individuals in N, A and B categories in the immune reconstitution or preservation group (p = 0.05). The CD4+ cell percentages and CD4/CD8 ratios and the proportion of individuals in immunological categories 1 and 2, were higher in the group with immune reconstitution or preservation (p = 0.019, 0.018 and 0.005, respectively). Conclusion: In our cohort of HIV-infected children and adolescents, on HAART, the preservation of immunocompetence or immune reconstitution were associated to an earlier age and better immune and clinical preservation at the beginning of therapy / Mestrado / Saude da Criança e do Adolescente / Mestra em Saúde da Criança e do Adolescente
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The Function of the Tyrosine Kinase, Itk, in CD4+ T Cell Differentiation and Death: a DissertationMiller, Andrew Todd 31 July 2003 (has links)
The Tec family tyrosine kinase, Itk, plays an important role in signal transduction following T cell receptor engagement. Several prior studies have established the importance of Itk in immune system processes, such as T cell development and T cell activation. Additional biochemical studies have found that Itk specifically functions within a multi-molecular signalosome complex, which ultimately functions to provide a platform by which Itk can phosphorylate and activate PLC-γ1, a crucial step in T cell activation. To further study how Itk regulates distinct immune outcomes via T cell effector processes within the peripheral immune system, and to further understand how Itk functions in T cells in response to a physiological ligand-receptor interaction, I crossed Itk-deficient mice to mice transgenic for a TCR specific for a moth cytochrome C peptide. My studies have established a unique role for Itk in several important aspects of T cell function. Following T cell activation, I identified an imperative role for Itk in activation-induced cell death via FasL, a mechanism of immune homeostasis. Furthermore, I found Itk plays a unique role in the process of T cell differentiation, where Itk positively regulates the induction of cytokine genes, such as IL-4, while negatively regulating the induction of T-bet, a transcription factor important for Th1 differentiation. Lastly, following T cell differentiation, I found that Itk mRNA and protein are up-regulated during Th2 differentiation, while Rlk, a related Tec kinase, disappears rapidly from Th2 cells, indicating a critical role for Itk in Th2 cell function. Collectively, my thesis work has more clearly defined an important function for Itk not only in TCR signaling, but also in immune processes such as T cell differentiation and activation-induced cell death that are required for proper immune function.
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The Role of ITK and RLK in CD8+ T Cell Development and Function: a DissertationAtherly, Luana O 26 July 2004 (has links)
Itk and Rlk are members of the Tec kinase family of non-receptor protein tyrosine kinases that are preferentially expressed in T cells. Numerous previous studies have demonstrated that these proteins play an important a role in the regulation of signalling processes downstream of TCR activation in CD4+ T cells, particularly in the phosphorylation of PLCγl. In addition, Itk and Rlk have both been shown to be important for CD4+ T cell development, differentiation, function and homeostasis following TCR activation. In the absence of Itk and Rlk, CD8+ SP thymocytes and T cells develop a memory/previously activated phenotypic profile, however, very little is known about the influence of Itk and Rlk on CD8+ T cell development and function. This study illustrates a previously unappreciated role for Itk and Rlk in the regulation of cytokine signals during CD8+ SP thymocyte maturation, and in the development of the memory CD44hi profile of Itk -/- and Itk -/- Rlk -/- CD8+ SP thymocytes and CD8+ T cells. This study also provides the first detailed study of the role of loss of Itk and particularly both Itk and Rlk in CD8+ signalling and function and shows that these Tec kinase family members play an important role in the maintenance of CD8+ T cell fitness and function, particularly in the ability of CD8+ T cells to accumulate in response to infection. Collectively, my studies demonstrate a critical role for Itk and Rlk in the generation of optimal CD8+ T cell responses. They also raise the novel observation that these proteins may be involved on the regulation of cytokine signals in T cells.
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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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The Role of Late Antigen in CD4 Memory T Cell Formation during Influena [i.e. Influenza] Infection: A DissertationBautista, 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.
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Long term non progressors : clues for defining immune correlates of protection from HIV disease progressionPeretz, Yoav. January 2007 (has links)
No description available.
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Pathogenesis of HIV-1 nef in adult miceRahim, Mir Munir Ahmed, 1975- January 2008 (has links)
No description available.
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CD4⁺ and CD8⁺ naïve T-cell homeostasis in primary progressive multiple sclerosisHackenbroch, Jessica. January 2007 (has links)
No description available.
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Aumento de células T CD4+CD69+ e redução de células T reguladoras CD4+CD25+FoxP3+ em camundongos com Lúpus Eritematoso Sistêmico (LES) induzido por pristane / Increase of CD4+CD69+ T cells and reduction of CD4+CD25+FoxP3+ regulatory T cells in pristane-induced mice with systemic lupus erythematosus (SLE)Peixoto, Tatiana Vasconcelos 25 September 2015 (has links)
Introdução: O Lúpus Eritematoso Sistêmico (LES) é uma doença autoimune multissistêmica de etiologia complexa que envolve fatores ambientais, genéticos e hormonais. É caracterizada pela produção de autoanticorpos e mediadores inflamatórios, ativação e proliferação de células T autorreativas e perda da autotolerância imunológica. Em pacientes com LES, a expressão do receptor primário de ativação CD69 é aumentada e a de células T supressoras/reguladoras (Treg) CD4+CD25+FoxP3+ é reduzida. O CD69 é essencial para ativação de células T CD4 autorreativas enquanto que as células Treg são importantes na manutenção da autotolerância. Desta forma, células T tem um papel central na patogênese do LES, mas os mecanismos implicados na falência da autotolerância ainda não são elucidados, destacando a importância de estudos em modelos experimentais da doença, como o de LES-induzido por pristane. Objetivo: Quantificar células T CD4+CD69+ ativadas e Treg CD4+CD25+FoxP3+ no sangue, baço e LP de camundongos Balb/c LESinduzido por pristane no sentido de avaliar a falência de autotolerância neste modelo. Métodos: Analisamos 84 camundongos Balb/c fêmeas: 52 receberam por via intraperitoneal uma dose única de 0,5 ml de pristane e 32 a mesma dose de salina. Amostras de sangue, baço e LP dos camundongos eutanasiados foram coletadas 90, 120, 180 e 300 (T90, T120, T180 e T300) dias após a inoculação de pristane ou salina. Células mononucleares do sangue periférico (CMSP), do LP (CMLP) e esplenócitos foram obtidos por lise das hemácias seguida de lavagens com RPMI medium 1640 e centrifugação, e posteriormente criopreservadas até a avaliação por citometria de fluxo usando o aparelho Guava EasyCyteTM HT (Millipore). Para esta etapa, as células foram descongeladas, lavadas com RPMI medium 1640 e incubadas com anticorpos monoclonais dirigidos contra CD3, CD4, CD25, CD28, CD69, CTLA-4, FoxP3, CD14 e Ly6C (BD PharmingenTM). Os resultados foram expressos como média ± DP e teste de Mann-Whitney foi utilizado para análises estatísticas, sendo p<0,05 considerado significante. Resultados: Comparados aos animais controles, animais com LES-induzido por pristane apresentaram aumento de células T CD4+CD69+ no sangue nos T90, T120 e T180 (p < 0,022, p=0,008 e p=0,010, respectivamente) e no baço no T120 (p=0,049), enquanto que, no LP, houve redução destas células nos T120, T180 e T300 (p=0,001, p=0,001 e p < 0,001, respectivamente). A porcentagem de células Treg CD4+CD25+FoxP3+ foi menor no sangue nos T90, T120 e T180 (p=0,018, p=0,012, p < 0,046, respectivamente), no baço, nos T120 e T180 (p=0,018 e p=0,013), e no LP nos T90 e T300 (p=0,008 e p=0,005). Conclusão: Aumento da expressão de células T CD4+CD69+ e redução da expressão de Treg CD4+CD25+FoxP3+ sugerem células T CD4 ativadas e perda da autotolerância periférica em camundongos com LES-induzido por pristane. Estas alterações são semelhantes às observadas no lúpus humano, de modo que demonstramos que este modelo também pode ser útil na avaliação de mecanismos de ativação celular, tolerância periférica desequilíbrio imune homeostático envolvidos no LES / Introduction: Systemic Lupus Erythematosus (SLE) is multisystemic autoimmune disease with complex etiology that involves environmental, genetic and hormonal factors. Is characterized by auto-antibodies and inflammatory mediators production, autoreactive T cells activation and proliferation and loss of immunogenic autotolerance. In patients with SLE, expression of CD69 activation primary receptor is increased and the CD4+CD25+FoxP3+ suppressor/regulatory T cell (Treg) is reduced. CD69 is essential for activation of autoreactive CD4 T cells while Treg cells are important in autotolerance maintenance. In this way, T cells have a central role in the pathogenesis of SLE however, the mechanisms implied in the autotolerance failure are still not elucidated, highlighting the importance of studies in this disease\'s experimental models, such as pristane-induced SLE. Objective: Quantify activated CD4+CD69+ T cells and CD4+CD25+FoxP3+ Treg in blood, spleen and peritoneal lavage (PL) of Balb/c mice with pristane-induced SLE in order to evaluate autotolerance failure in this model. Methods: 84 female Balb/c mice were analyzed: 52 received a single intraperitoneal 0,5 ml dose of pristane and 32 the same dose of saline. Euthanized mice samples of blood, spleen and peritoneal lavage were collected 90, 120, 180 and 300 (T90, T120, T180 and T300) days after inoculation of pristane or saline. Mononuclear cells from peripheral blood (PBMC), PL (PLMC) and splenocytes were obtained by lysis of erythrocytes followed by washings with RPMI medium 1640 and centrifugation, subsequently criopreserved until evaluation by flow cytometry using the appliance GuavaEasyCyteTM HT (Millipore). For this step, cells were unfrozen, washed with RPMI medium 1640 and incubated with monoclonal antibodies against CD3, CD4, CD25, CD28, CD69, CTLA-4, FoxP3, CD14 and Ly6C (BD PharmingenTM). The results were expressed as mean ± SD and Mann-Whitney 11 test was used for statistical analysis, being considered significant p < 0,05. Results: Compared to control animals, SLE pristane-induced animals presented increase of CD4+CD69+ T cells in blood on T90, T120 and T180 (p=0.022, p=0.008 and p=0.010, respectively) and in spleen on T120 (p=0.049), while, in PL, there was reduction of these cells on T120, T180 and T300 (p=0.001, p=0.001 and p < 0.001, respectively). The porcentage of Treg CD4+CD25+FoxP3+ was smaller in blood on T90, T120 and T180 (p=0.018, p=0.012 and p < 0.046, respectively), in spleen on T120 and T180 (p=0.018 and p=0.013), and in PL on T90 and T300 (p=0.008 and p=0.005). Conclusion: Increase of CD4+CD69+ T cell and reduction of CD4+CD25+FoxP3+ Treg expression suggests activated T CD4 cells and loss of peripheral autotolerance in pristane-induced SLE mice. These alterations are similar to observed in human lupus, in order we showed that this model can also be useful in evaluating the mechanisms of cellular activation, peripheral tolerance and homeostatic immune imbalance involved in the LES
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