SummaryThe objective of this study was to evaluate the frequency of CD4 1 T cell subsets in peripheral blood mononuclear cells (PBMC), urine and renal tissue from patients with lupus nephritis (LN). PBMC and urinary cells were collected from 17 patients with active LN, 20 disease controls (DC) with primary glomerulonephritis and 10 healthy controls (HC) and were analysed by flow cytometry with markers for T helper type 1 (Th1), Th2, Th17 and regulatory T cells (T reg ) cells. T cell subsets were assessed by immunohistochemistry from LN biopsy specimens from 12 LN patients. T cell subtypes in PBMC were re-evaluated at 6 months of therapy. CD4 1 T cells were decreased in PBMC in LN compared with DC and HC (P 5 0Á0001). No differences were observed in urinary CD4 1 T cell subsets between LN and DC. The frequency of urinary Th17 cells was higher in patients with non-proliferative than in proliferative LN (P 5 0Á041). CD3 1 and T-box 21 (T 1 bet ) cells were found in glomeruli and interstitium of LN patients, while forkhead box protein 3 (FoxP3), retinoid-related orphan receptor gamma (ROR-g) and GATA binding protein 3 (GATA-3) were present only in glomeruli. Th1 cells in PBMC were correlated negatively with urinary Th1 cells (Rho 5 -0Á531; P 5 0Á028) and with T bet in renal interstitium (Rho 5 -0Á782; P 5 0Á004). At 6 months, LN patients showed an increase in Th17 cells in PBMC. In conclusion, the inverse association between Th1 cells from PBMC and urinary/renal tissue indicate a role for Th1 in LN pathophysiology. Urinary Th17 cells were associated with less severe LN, and Th17 increased in PBMC during therapy. Urinary CD4 1 T cells were not different between LN and DC.
The traditional concept that effector T helper (Th) responses are mediated by Th1/Th2 cell subtypes has been broadened by the recent demonstration of two new effector T helper cells, the IL-17 producing cells (Th17) and the follicular helper T cells (Tfh). These new subsets have many features in common, such as the ability to produce IL-21 and to express the IL-23 receptor (IL23R), the inducible co-stimulatory molecule ICOS, and the transcription factor c-Maf, all of them essential for expansion and establishment of the final pool of both subsets. Tfh cells differ from Th17 by their ability to home to B cell areas in secondary lymphoid tissue through interactions mediated by the chemokine receptor CXCR5 and its ligand CXCL13. These CXCR5+ CD4+ T cells are considered an effector T cell type specialized in B cell help, with a transcriptional profile distinct from Th1 and Th2 cells. The role of Tfh cells and its primary product, IL-21, on B-cell activation and differentiation is essential for humoral immunity against infectious agents. However, when deregulated, Tfh cells could represent an important mechanism contributing to exacerbated humoral response and autoantibody production in autoimmune diseases. This review highlights the importance of Tfh cells by focusing on their biology and differentiation processes in the context of normal immune response to infectious microorganisms and their role in the pathogenesis of autoimmune diseases.
Systemic lupus erythematosus exhibits a dynamic and continuum spectrum of effector/regulatory T cells
The present study has provided data supporting normal Treg cell frequency in A-SLE and I-SLE as well as increased frequency of Teff cells in A-SLE. This scenario reflects a Treg/Teff ratio imbalance that may favour the inflammatory phenotype of the disease. In addition, the increased frequency of T cells with putative intermediate phenotypes may be compatible with a highly dynamic immune system in SLE.
A new subtype of CD4 + T lymphocytes characterized by the production of interleukin 17, i.e., TH17 cells, has been recently described. This novel T cell subset is distinct from type 1 and type 2 T helper cells. The major feature of this subpopulation is to generate significant amounts of pro-inflammatory cytokines, therefore appearing to be critically involved in protection against infection caused by extracellular microorganisms, and in the pathogenesis of autoimmune diseases and allergy. The dynamic balance among subsets of T cells is important for the modulation of several steps of the immune response. Disturbances in this balance may cause a shift from normal immunologic physiology to the development of immune-mediated disorders. In autoimmune diseases, the fine balance between the proportion and degree of activation of the various T lymphocyte subsets can contribute to persistent undesirable inflammatory responses and tissue replacement by fibrosis. This review highlights the importance of TH17 cells in this process by providing an update on the biology of these cells and focusing on their biology and differentiation processes in the context of immune-mediated chronic inflammatory diseases.
RESUMOO sistema imune sadio deve manter o balanço entre a capacidade de responder a agentes infecciosos e de sustentar a autotolerância. A ausência de resposta adequada submete o indivíduo aos efeitos deletérios da invasão por patógenos, ao passo que o sistema respondendo de modo exacerbado pode gerar respostas inflamatórias prejudiciais. Acreditava-se que os mecanismos de deleção clonal e anergia fossem os mecanismos essenciais no controle de clones de linfócitos T auto-reativos. Apesar das evidências funcionais a favor da existência de células T supressoras, por muitos anos a imunologia falhou em identificar suas características fenotípicas e confirmar sua existência, motivo pelo qual o tema passou por longo período de descrédito. A recente demonstração de diferentes fenótipos de células, agora chamadas células T regulatórias, reintroduziu o paradigma de que a auto-reatividade é ativamente regulada também por subtipos particulares de linfócitos. Este tema é de grande interesse contemporâneo e a literatura está repleta de estudos descrevendo novos subtipos de células regulatórias, bem como a função, o fenótipo e a freqüência em condições fisiológicas e patológicas. Nesse universo, destaca-se o subtipo mais importante de células com função imunorregulatória, conhecido como células T regulatórias naturais (T REGS ). Representando cerca de 5% dos linfócitos T CD4 do sangue periférico, são células caracterizadas pela expressão constitutiva das moléculas FOXP3, GITR, CTLA-4 e altos níveis de CD25. As alterações deletérias nesta população resultam o desencadeamento de doenças auto-imunes em camundongos, muito semelhantes às doenças auto-imunes humanas. A presente revisão aborda os conhecimentos básicos sobre as T REGS e seu estudo em doenças reumáticas de classificação auto-imune, abrindo perspectivas para o entendimento dos mecanismos de regulação periférica e sobre a fisiopatologia dessas enfermidades. Apresenta, ainda, a perspectiva de futuras abordagens terapêuticas fundamentadas na manipulação dessas células.Palavras-chave: células T regulatórias, T REGS , CD4 + CD25 + , Foxp3, doenças auto-imunes, tolerância imunológica. ABSTRACTThe healthy immune system must keep the delicate balance between the capacity to respond to exogenous antigens and to keep the tolerance to endogenous antigens. In the absence of an adequate response to exogenous agents the individual is subjected to the deleterious effect of the invasion for pathogens. On the other hand, if the immune system responds in an unwary exacerbated way harmful inflammatory consequences may result. Well-established mechanisms of maintaining selftolerance include clonal deletion and anergy. Despite the functional evidence in favor of the existence of suppressor T cells, for many years immunologists failed to identify the phenotypic characteristics and to confirm the existence of these lymphocytes. The recent demonstration of different phenotypes of cells, now designated regulatory T cells, reintroduced the paradigm of active regulation of auto-reactivity by part...
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