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Molecular Targets in Autoimmune Polyendocrine Syndrome Type1 and Their Clinical ImplicationsAlimohammadi, Mohammad January 2009 (has links)
Autoimmune diseases occur when the immune system attacks and destroys healthy body tissue. Autoimmunity is known to cause a wide range of disorders, and is suspected to be responsible for many more. Most autoimmune disorders are chronic and cause severe morbidity for the patients, and are also costly for society. A majority of these disorders are today considered as complex diseases with incompletely known etiology. Hence, model systems for studying the pathogenesis of autoimmunity are important to unravel its causes. Autoimmune Polyendocrine Syndrome Type 1 (APS-1), (OMIM 240300), is a rare autoimmune disorder. Patients with APS-1 progressively develop multiple organ-specific autoimmune lesions involving both endocrine and non endocrine tissues. Typical autoimmune disease components in APS-1 are hypoparathyroidism, Addison’s disease, vitiligo, alopecia and type 1 diabetes. The gene preventing APS-1 has been identified and designated Autoimmune Regulator (AIRE). It has been shown that mutations of AIRE cause loss of tolerance to self-structures, resulting in organ-specific autoimmunity. Although APS-1 is a rare syndrome occurring mainly in genetically isolated populations, the disease components of APS-1 are, in isolated forms, not unusual in the general population and affect many patients. Hence, APS-1 is an attractive model disease for studies of molecular mechanisms underlying organ-specific autoimmunity. This thesis concerns investigations in which two novel autoantigens are identified in APS-1 and used in serological diagnosis of the disease. NALP5, is identified as a parathyroid autoantigen - an important finding since autoimmune hypoparathyroidism is one of the cardinal symptoms of APS-1. Additionally, KCNRG is identified as a bronchial autoantigen in APS-1 patients with respiratory symptoms. Finally, studies that compare the immune response in APS-1 patients and the mouse model for APS-1 are presented.
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Autoantibodies as markers of beta-cell autoimmunity in childrenHolmberg, Hanna January 2006 (has links)
Type 1 diabetes (T1D) is a chronic disease caused by destruction of the insulin producing beta-cells in the pancreas. The incidence of T1D has increased rapidly, especially in the Western world and among young children. The pathogenesis of T1D is not fully understood, but the beta-cells are believed to be destroyed by an autoimmune process initiated years before the onset of T1D. During this pre-clinical period, autoantibodies to insulin (IAA), glutamic acid decarboxylase (GADA) and the tyrosine phosphatase-like protein IA-2 (IA-2A) can be detected and are used to identify individuals at risk of T1D. The major genetic determinant for T1D is the HLA class II genes, but also polymorphism in the insulin gene and CTLA-4 gene are associated with T1D. The risk genes cannot explain the rapid increase in incidence of T1D, therefore a role for different environmental factors has been suggested. The aim was to study the prevalence of beta-cell autoantibodies in children from the general population in relation to known genetic and environmental risk factors, and in young patients with T1D in high and low incidence areas. Short duration of breast-feeding was associated with an increased risk of developing beta-cell autoantibodies in children from the general population at 5-6 years of age. We found an association between positivity for GADA and/or IAA at the age of 5-6 years and a short duration of total breastfeeding, and also between positivity for GADA, IA-2A and/or IAA and a short duration of exclusive breast-feeding. Our findings suggest that breast-feeding has a long term protective effect on the risk of beta-cell autoimmunity in children from the general population. The T1D related risk genes were not associated with beta-cell autoantibodies other than GADA in children from the general population at 5-6 years of age. Children with the DR4-DQ8 haplotype were more often positive for GADA than children without this haplotype. We found no association of GADA with DR3-DQ2 haplotype or between these two haplotypes and any of the other autoantibodies. Our results suggest that beta-cell autoimmunity in children from the general population is not strongly associated with any risk genes of T1D other than DR4-DQ8. In the non-diabetic children with allergic heredity GADA was detectable in almost all children, IA-2A in about half and IAA in 10% of the children. The levels low of these autoantibodies fluctuated with age and different patterns of fluctuations were seen for GADA and IA-2A, which may reflect differences in the immune response to the autoantigens. In patients with newly diagnosed T1D, we found some differences between patients from a high incidence country (Sweden) and a country with a lower incidence (Lithuania). Among the Swedish patients, the prevalence of IAA and GADA or multiple autoantibodies was higher than in Lithuanian patients. The risk genes DR4-DQ8 and the heterozygous high risk combination DR4-DQ8/DR3-DQ2 was more common among the Swedish patients than Lithuanian patients. Patients with low levels of IAA had higher levels of HbA1c and ketones, indicating that patients without IAA or with low levels of IAA have a more severe onset of T1D. Our findings indicate that beta-cell autoimmunity is more pronounced in a high incidence area compared to an area with a lower incidence. In conclusion, short duration of breast-feeding is a risk factor for beta-cell autoantibodies in children from the general population, and the beta-cell autoantibodies in these children are not associated with specific risk genes. Children with newly diagnosed T1D in a high incidence area carry risk genes and have autoantibodies more often than newly diagnosed children from an area with a lower incidence, perhaps indicating different disease phenotypes.
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El microambiente y la autoinmunidad en la leucemia linfática crónicaFerrer Aguilar, Gerardo 04 July 2012 (has links)
La leucemia linfática crónica (LLC) es la leucemia más frecuente en los países occidentales. En esta enfermedad es frecuente hallar complicaciones autoinmunes. A pesar de que la relación entre LLC y trastornos autoinmunes se conoce desde hace prácticamente cinco décadas, los mecanismos responsables de la autoinmunidad en la LLC y sus repercusiones clínicas todavía no se conocen con precisión. Mientras la asociación entre citopenias autoinmunes y LLC está perfectamente demostrada, la relación entre trastornos inmunes no hemáticos y la LLC es controvertida. En esta tesis doctoral se analizó la relación entre citopenias autoinmunes con la LLC y sus características biológicas, así como implicaciones clínicas, y el papel de las moléculas BAFF y APRIL como vínculo de unión entre la autoinmunidad y la LLC. Los principales hallazgos de esta tesis se pueden resumir de la siguiente forma. En el primer lugar, la incidencia de citopenia autoinmune en una serie de 960 pacientes con LLC por nosotros seguidos fue del 7%, en concordancia con otras series. Los pacientes con LLC y citopenias autoinmunes presentaban datos de mal pronóstico, como un recuento linfocitario elevado, un tiempo de duplicación linfocitario rápido, y B2M sérica, ZAP-70 y CD38 elevadas. De forma sumamente importante, los enfermos con estadio avanzado atribuible a un origen inmune tenían un pronóstico mejor que aquellos en los que la fase avanzada de la enfermedad reflejaba una alta carga tumoral. Ello invita, de acuerdo con otro estudio de la Clínica Mayo, y de la Editorial en Blood que acompañó a nuestra publicación, a diferenciar dentro de los pacientes con LLC en estadio avanzado aquellos en los que la citopenia tiene un origen autoinmune (C “inmune”) y los que la anemia se debe al fallo de la medula ósea a causa de la infiltración linfocitaria (C “infiltrativo”). BAFF y APRIL dos miembros de la familia de proteínas TNF claves en la regulación del desarrollo y supervivencia de los linfocitos B, están implicadas en la patogénesis de la LLC y en la autoinmunidad por lo que pueden constituir un vínculo fisiopatológico entre los componentes neoplásico e inmune de la LLC. En esta tesis observamos que los pacientes con LLC presentaban niveles altos de APRIL y bajos de BAFF en comparación con sujetos sanos. Además, los niveles de BAFF se correlacionaban con el recuento linfocitario en sangre, el estadio avanzado de la enfermedad y la presencia de la anemia hemolítica autoinmune. Por último, la valoración conjunta de BAFF y APRIL ofreció mayor información pronóstica que ambas moléculas por separado. / Chronic lymphocytic leukemia (CLL) is the most common leukemia in Western countries. Although it is well documented that autoimmune complications are common in these patients, the clinical relevance and the biological basis of autoimmune phenomena in CLL have not yet been clearly established. Autoimmune cytopenias are clearly related to LLC, but no causal link between CLL and autoimmune diseases not targeting blood cells has been established. The results of this doctoral thesis can be summarized as follows. First, the incidence of autoimmune cytopenia in 960 patients with CLL from our institution was 7%, which is consistent with other reports. Although patients with autoimmune cytopenias presented poor prognostic factors, such as a high lymphocyte count, a rapid lymphocyte doubling time, and high levels of serum B2M, ZAP-70 and CD38, their prognosis was similar to that of other patients. In fact, the cohort of patients classified as in advanced due to autoimmune cytopenia had a better prognosis than those classified in advanced disease because of bone marrow failure related to the infiltration by the disease. Our results and similar findings from another study suggest that patients in advanced stage of disease should be separated according to the origin of the cytopenia ("autoimmunity" or "infiltration"). BAFF and APRIL, two members of the TNF family proteins, are key regulators of the development and survival of B lymphocytes. These molecules are involved in CLL pathogenesis and autoimmunity and can constitute a link between the neoplastic and the immune components of CLL. We found that patients with CLL had higher levels of APRIL and lower levels of BAFF as compared to healthy subjects. In addition, BAFF levels correlated with blood lymphocyte count, advanced clinical stage and autoimmune hemolytic anemia. Finally, the combination of serum levels of both BAFF and APRIL provided better prognostic information on disease progression than any of these molecules independently considered.
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Pathogenèse de l’hépatite autoimmune : influence des gènes, du sexe, de l’âge et de l’environnementLapierre, Pascal 07 1900 (has links)
L’hépatite autoimmune (HAI) résulte d’une perte de tolérance du système immunitaire envers des antigènes de l’hépatocyte. Elle peut se présenter sous forme d’hépatite aiguë, parfois fulminante, ou comme une maladie chronique menant progressivement à une cirrhose hépatique. En absence de traitement, cette maladie est fatale. La pathogenèse de l’HAI et les mécanismes responsables de sa progression restent inconnus à ce jour. L’objectif global de ce projet est d’examiner les facteurs prédisposants et les mécanismes immunologiques responsables de l’apparition et de la progression de l’HAI. Pour permettre l’étude de la pathogenèse de l’HAI, nous avons développé un modèle murin expérimental d’hépatite autoimmune de type 2. Celui-ci est basé sur la xénoimmunisation de souris C57BL/6 avec les deux antigènes ciblés dans l’HAI de type 2 chez l’homme (CYP2D6 et FTCD). Par mimétisme moléculaire, le système immunitaire de ces souris réagit contre les protéines murines homologues et une HAI s’ensuit. Ce modèle expérimental présente la plupart des caractéristiques histologiques, biochimiques et sérologiques d’une HAI de type 2. Les souris développent une inflammation autoimmune chronique avec présence d’hépatite d’interface et d’infiltrations intralobulaires, un infiltrat composé majoritairement de lymphocytes T CD4+ mais aussi de lymphocytes T CD8+ et B, d’une élévation des ALT sériques, des niveaux d’immunoglobulines G circulantes augmentés ainsi que d’autoanticorps anti-LKM1 et anti-LC1. L’étude de l’influence du bagage génétique a permis de définir l’importance relative des gènes du CMH et des gènes non-CMH sur le développement d’une HAI. Les gènes du locus CMH sont essentiels mais insuffisants pour mener au développement d’une HAI et donc, la susceptibilité génétique à l’HAI est comme chez l’homme, multigénique. Les patients atteints d’HAI de type 2 sont généralement des jeunes filles. L’étude des influences de l’âge et du sexe dans ce modèle a permis de montrer que les souris femelles avant et au début de leur maturité sexuelle sont plus susceptibles au développement d’une HAI de type 2. De plus, les femelles ont un nombre réduit de lymphocytes T régulateurs, ce qui leur confère une susceptibilité accrue comparé aux mâles. L’ensemble de ces travaux nous a conduits à proposer un mécanisme où le développement d’une HAI chez les femelles d’un âge particulier résulterait de l’activation de cellules T CD4+ autoréactives ayant échappé aux mécanismes de tolérance centrale, via un mécanisme de mimétisme moléculaire avec un antigène exogène. En présence d’une tolérance périphérique réduite due à un faible nombre de cellules T régulatrices, les cellules T autoréactives proliféreraient et activeraient des cellules B autoréactives entraînant la sécrétion d’autoanticorps. L’activation subséquente de cellules T CD8+ cytotoxiques spécifiques amènerait la lyse des hépatocytes et la relâche d’autoantigènes permettant la perpétuation de l’autoimmunité. / Autoimmune hepatitis (AIH) is an autoimmune disease resulting from a loss of immunological tolerance against hepatocyte antigens. It can present itself as an acute hepatitis, sometime fulminant, or as a chronic disease leading to progressive liver cirrhosis. In absence of treatment, this disease is fatal. The pathogenesis of AIH and the mechanisms responsible for its progression remain unknown. The overall objective of this project is to examine predisposing factors and immunological mechanisms responsible for the onset and progression of HAI. To study the pathogenesis of AIH, we developed a mouse model of experimental autoimmune hepatitis type 2. This model is based on xenoimmunization of C57BL/6 wild type mice with human type 2 AIH autoantigens (CYP2D6 and FTCD). Molecular mimicry between the xenoantigens and their homologous murine proteins results in the development of an autoimmune response followed by liver inflammation. This experimental mouse model shows most histological, biochemical and serological features of human type 2 AIH. Mice develop autoimmune chronic liver inflammation characterized by the presence of interface hepatitis and intralobular inflammation, infiltrates composed predominantly of CD4+ but also of CD8+ T and B cells, elevated ALT serum levels, increased serum immunoglobulin G and circulating anti-LC1 and anti-LKM1 autoantibodies. Studies of the influence of genetic background on AIH susceptibility have defined the relative importance of MHC and non-MHC genes. Specific MHC haplotype are necessary but not sufficient to lead to the development of AIH and therefore, the genetic susceptibility to HAI is, as in humans, multigenic. In humans type 2 AIH is found predominantly in young women. In our experimental models, female mice before or at beginning of sexual maturity are more susceptible to AIH. Females at this age have reduced numbers of regulatory T cells, conferring an increased susceptibility compared to males. Based on these results, we propose a mechanism in which the development of AIH results from the activation, through a mechanism of molecular mimicry with an exogenous antigen, of autoreactive CD4+ T cells that have escaped central tolerance. In presence of reduced peripheral tolerance due to low number of regulatory T cells, autoreactive T cells proliferate and activate autoreactive B cells leading to secretion of autoantibodies. The subsequent activation of specific cytotoxic CD8+T cells results in hepatocytes lysis and autoantigens release, leading to perpetuation of autoimmunity.
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Immunological Studies using Human and Canine Model Disorders / Immunologiska studier av modellsjukdomar i människa och hundAhlgren, Kerstin M. January 2011 (has links)
The studies presented in this thesis focus on human and canine models for autoimmune disease, with the main aim to gain new knowledge about disease mechanisms and to further evaluate the dog as a model for autoimmune disease. Autoimmune Polyendocrine Syndrome type 1 (APS-1) is a hereditary human multiorgan disease caused by mutations in the autoimmune regulator (AIRE) gene. Hallmarks of APS-1 are chronic mucocutaneous candidiasis caused by Candida albicans, together with the autoimmune endocrine disorders hypoparathyroidism and adrenocortical failure. Many human diseases have an equivalent disease in dogs. Because humans share environment, and in part life style with the dogs they provide an interesting model for further genetic studies. Immune responses to Candida albicans in APS-1 patients displayed an increased secretion of the proinflammatory cytokine IL-17A and similar results were also found in AIRE deficient mice. Anticytokine autoantibodies to IL-17A, IL-17F and IL-22 were detected in APS-1 patients, and a radioligand binding assay for measuring these autoantibodies was developed and evaluated. In the canine studies we investigated whether canine diabetes mellitus could serve as a model for human autoimmune diabetes mellitus. Furthermore, we investigated type I IFN responses in Nova Scotia duck tolling retriever dogs with a systemic autoimmune disease resembling human SLE. Four assays were used in search for signs of humoral autoimmunity in diabetic dogs. However, no evidence for a type 1 diabetes-like phenotype in dogs was found. Sera from Nova Scotia duck tolling retrievers suffering from steroid-responsive meningitis arteritis elicited an increased expression of IFN-inducible genes in the canine MDCK cell line. This suggests that these dogs have an IFN signature, as seen in human SLE.
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Studies of cellular pathogenesis in experimental autoimmune encephalomyelitis /Wefer, Judit, January 2004 (has links)
Diss. (sammanfattning) Stockholm : Karol. inst., 2004. / Härtill 5 uppsatser.
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Acyloxyacyl hydrolase : studies on its regulation and function in mus musculusLu, Mingfang. January 2003 (has links) (PDF)
Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2003. / Vita. Bibliography: 162-207.
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Multiple toll-like receptor agonists act as potent adjuvants in the induction of autoimmunityHansen, Baranda Santeri. January 2005 (has links) (PDF)
Thesis (M.S.) -- University of Texas Southwestern Medical Center at Dallas, 2005. / Not embargoed. Vita. Bibliography: 58-64.
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Desenvolvimento de peptideo bioativo modulador da resposta immuneVaz, Emília Rezende 30 July 2014 (has links)
Autoimmune diseases are a group of different diseases which are characterized by an immune disorder leading to decreased tolerance to components of the body itself. These diseases have many factors that trigger such as a decrease of the share or percentage of regulatory T cells (Tregs). The Transforming Growth Factor-beta 1 (TGF-β1) is involved in the suppression of the inflammatory response during the pathogenesis of autoimmune diseases (juvenile idiopathic arthritis, multiple sclerosis, diabetes), through the activation of this cell type. This cytokine is also associated with modulation of an inflammatory response either by increasing Treg cells and by modulating proinflammatory cytokines such as tumor necrosis factor alpha (TNF-α).
The components found in both innate immune responses as adaptive must be considered potential targets for developing new drugs immune modulators. Thus, manipulation of Tregs is an attractive strategy for immunotherapy and hence, the use of mimetic peptide to TGF-β1 can be adopted to reduce the effects of severe autologous response, then creating an additional therapy for autoimmunity as well as for the treatment of inflammatory diseases.
Our results show that we can select TGF-β1 mimetic peptides since we can prove by bioinformatics both bind to this receptor molecule. Thus, the peptides can be used as immunomodulators to combat inflammation and in the treatment of autoimmune diseases since they can modulate the production of TNF-α and IL-10. / Doenças autoimunes são um grupo de doenças distintas que se caracterizam por uma desordem imunológica levando a diminuição da tolerância aos componentes do próprio organismo. Essas doenças possuem vários fatores que as desencadeiam como a diminuição da ação ou porcentagem de células T regulatórias (Tregs). O Fator Transformante de Crescimento-beta 1 (TGF-β1) está envolvido na supressão da resposta inflamatória durante a patogênese de doenças autoimunes (artrite idiopática juvenil, esclerose múltipla, diabetes), por meio da ativação desse tipo celular. Esta citocina também está associada a modulação de uma resposta inflamatória, seja pelo aumento de células Tregs como pela modulação de citocinas pro-inflamatórias como o Fator de necrose tumoral alfa (TNF-α).
Os componentes encontrados em respostas tanto imune inatas quanto adaptativas devem ser considerados potenciais alvos para o desenvolvimento de novos fármacos imuno moduladores. Assim, a manipulação de Tregs é uma estratégia atraente para a imunoterapia e, desta forma, o uso de peptídeos miméticos ao TGF-β1 poderá ser adotado para diminuir as consequências de uma resposta autóloga severa, criando, então, uma terapia complementar para a autoimunidade bem como para o tratamento de doenças inflamatórias.
Nossos resultados mostram que conseguimos selecionar peptídeos miméticos a molécula do TGF- β1, uma vez que conseguimos provar por bioinformática que ambos se ligam ao receptor desta molécula. Assim, os peptídeos podem ser utilizados como imunomoduladores para o combate de inflamação e no tratamento de doenças autoimune já que conseguem modular a produção de TNF- α e IL-10. Experimentos in vivo realizados também demonstraram a sua capacidade de diminuir inflamação modulação a migração de neutrófilos e leucócitos. / Mestre em Genética e Bioquímica
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Avaliação fenotípica das células T reguladoras CD4+CD25+CD127LOW em pacientes com lúpus eritematoso sistêmico / Phenotypic evaluation of CD4+CD25+CD127low Regulatory T cells on patients with Systemic Lupus ErythematosusMesquita Júnior, Danilo [UNIFESP] 29 April 2009 (has links) (PDF)
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Previous issue date: 2009-04-29 / O Lúpus Eritematoso Sistêmico (LES) é uma doença inflamatória crônica pertencente ao grupo das doenças reumáticas autoimunes sistêmicas, caracterizando- se por apresentar as mais variadas manifestações clínicas e laboratoriais. Seu mecanismo exato de etiopatogenia ainda permanece obscuro. Observações prévias avaliando o papel das células TREG CD4+ CD25+ nas doenças autoimunes, em que se tem detectado tanto alterações de freqüência como alterações funcionas e fenotípicas em modelos murinos e humanos, sugerem o papel significante dessa população celular na etiopatogenia da autoimunidade. No LES podemos observar a existência de uma complexa rede de interações que caracterizam a doença, em que muitos alvos para intervenção terapêutica podem ser considerados. Atualmente tem-se voltado bastante a atenção para o estudo das células TREG CD4+CD25+, a fim de que possam ser usadas como alvos potenciais para terapia imunomoduladora. Os dados sobre a freqüência e fenótipo das células TREG publicados ate o momento são controversos devido à heterogeneidade de marcadores fenotípicos e estratégias de análises utilizadas. Um alto nível de células efetoras ativadas contaminam as amostras de células selecionadas de acordo com as estratégias clássicas de identificação de células TREG no LES e este fenômeno é ainda mais acentuado quanto maior o grau de atividade da doença. Assim, o presente projeto pretendeu inicialmente validar uma estratégia de análise capaz de identificar e quantificar células TREG utilizando a combinação dos marcadores CD25 e CD127 associados à expressão de Foxp3 em pacientes com LES em atividade ou fora de atividade. Concluiu-se pelo painel CD4+CD25+/highCD127Æ/low como melhor marcador de células TREG em virtude de sua alta associação com Foxp3 tanto em sadios como em pacientes com LES. Num segundo momento avaliamos a freqüência de células TREG e células Tconvonde observamos níveis normais de células TREG e níveis elevados de células Tconv ativadas em pacientes com doença em atividade. Foi nosso objetivo, também, avaliar a expressão de marcadores fenotípicos importantes para biologia das células TREG. Foi avaliada a expressão dos marcadores: CTLA-4, GITR, PD-1, OX40, HLA-DR, CD95, CD45Ra, CD28, CD40L nas células CD4+CD25+/hiCD127Æ/low, em pacientes com LES em fase ativa e inativa. Avaliamos também a relação entre o balanço de células TREG versus células Tconv expressando estes marcadores mediante o calculo da razão de equilíbrio fenotípico TREG/Tconv. Em pacientes com doença ativa observamos níveis diminuídos de células TREG positivas para as moléculas CTLA-4 e CD28 e níveis elevados de células TREG CD40L+. Quando avaliada a razão TREG/Tconv observamos uma alteração no balanço TREG/Tconv positivas para GITR, HLA-DR, OX40, CD40L e CD45RO. Houve queda na razão TREG/Tconv para os marcadores GITR, HLADR, OX40 e CD45RO e ganho para o marcador CD40L em pacientes com LES quando comparado a controles sadios. Além da caracterização fenotípica ampla, o presente estudo tem um ponto original extra, que consiste na definição da população de células TREG a partir do fenótipo CD4+CD127lowCD25+, que tem se mostrado mais específico que o tradicional fenótipo CD4+CD25high altamente contaminado por células Teff. Estas informações, no futuro, poderiam levar a pistas importantes na busca de alternativas mais eficazes de imunoterapia, capazes de restabelecer os mecanismos normais de tolerância imunológica, evitando ou minimizando assim os danos causados pela resposta autoimune. / Systemic lupus erythematosus (SLE) is a chronic inflammatory disease that is part of the group of rheumatic autoimmune inflammatory diseases, being characterized by heterogeneous clinical and laboratory manifestations. The exact etiopathogenic mechanism underlying SLE still remains obscure. Previousr observations evaluating CD4+ CD25+ TREG cell function in auto-immune diseases detected alterations on frequency and on phenotypic and functional features in murine and human models that support the significant activity of this cell population on autoimmune pathophysiology. In SLE we can observe the existence of a complex interaction network that characterizes the disease, in which many targets for therapeutic intervention may be considered. The present study has focused on TREG cells, since they may represent putative targets for immunomodulatory therapy in this disease. Published data on frequency and phenotype of TREG cells is controversial due to heterogeneity of phenotypic markers and analytic strategies used. The present project aimed to validate an appropriate strategy to identify and quantify TREG in SLE. The CD4+CD25highCD127 low/- panel was validated as an appropriate strategy for identification of Foxp3+ TREG cells in healthy and in SLE patients. The frequency of TREG cells presented normal frequency in active and inactive SLE. In contrast, the frequency of conventional non-regulatory T cells was increased in patients with active disease. We also evaluated the expression of important phenotypic markers for TREG cells biology, including CTLA-4, GITR, PD-1, OX40, HLA-DR, CD95, CD45RO, CD28 and CD40L in patients with active and inactive disease. In addition we evaluated the relationship between the balance of TREG cells versus conventional non-regulatory T cells expressing these markers by means of deriving the TREG/Tconv rate for each surface marker. In patients with active disease we observe reduced levels of TREG cells expressing CTLA-4 and CD28 molecules, and elevated levels of CD40L+ TREG cells. There was an imbalance in TREG/Tconv for GITR, HLA-DR, OX40, CD40L and CD45RO: samples from active SLE patients depicted a decreased TREG/Tconv ratio for GITR, HLA-DR, OX40 and CD45RO and an increased ratto for CD40L when compared with healthy controls. The knowledge on the role of TREG cells in SLE may bring important contribution in devising therapeutic alternatives for this disease. / TEDE / BV UNIFESP: Teses e dissertações
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