The Role of Dendritic Cells in Central Tolerance

Dendritic cells (DCs) play a significant role in establishing self-tolerance through their ability to present self-antigens to developing T cells in the thymus. DCs are predominantly localized in the medullary region of thymus and present a broad range of self-antigens, which include tissue-restricted antigens expressed and transferred from medullary thymic epithelial cells, circulating antigens directly captured by thymic DCs through coticomedullary junction blood vessels, and peripheral tissue antigens captured and transported by peripheral tissue DCs homing to the thymus. When antigen-presenting DCs make a high affinity interaction with antigen-specific thymocytes, this interaction drives the interacting thymocytes to death, a process often referred to as negative selection, which fundamentally blocks the self-reactive thymocytes from differentiating into mature T cells. Alternatively, the interacting thymocytes differentiate into the regulatory T (Treg) cells, a distinct T cell subset with potent immune suppressive activities. The specific mechanisms by which thymic DCs differentiate Treg cells have been proposed by several laboratories. Here, we review the literatures that elucidate the contribution of thymic DCs to negative selection and Treg cell differentiation, and discusses its potential mechanisms and future directions.

Inmunopatogenia de las enfermedades autoinmunes / Immunophat ogenesis of aut oimmune diseases

Las enfermedades autoinmunes son patologías de gran complejidad clínica, difícil diagnóstico y complejo tratamiento cuya etiología permanece aún desconocida pese a los múltiples avances realizados en los últimos años. En la génesis de estas enfermedades participan múltiples factores que conflyen entre sí para dar origen a cada una de las patologías autoinmunes conocidas, sean estas órgano-específicas o sistémicas. Entre estos elementos se incluyen la pérdida de los mecanismos de tolerancia, factores de susceptibilidad genética (polimorfismos HLA, genes no HLA y mecanismos epigenéticos), factores ambientales (agentes vivos de enfermedad, agentes inorgánicos, hormonas y otros) y factores inmunológicos (linfocitos reguladores, citoquinas y moléculas coestimulatorias, entre otros). La identificación de estos factores permitirá mejorar el conocimiento de los variados mecanismos que median estas complejas enfermedades, facilitando no sólo el entendimiento de su etiología sino también perfeccionar las herramientas terapéuticas para enfrentarlas.

Autoimmune diseases are pathologies of great clinical complexity, difficult diagnosis and treatment complex which etiology still remains unknowns despite the many advances made in recent years. In the genesis of these diseases involves multiple factors that converge together to give rise to each of the autoimmune diseases knows, whether organ specific or systemic. These elements include loss of tolerance mechanisms, genetic susceptibility factors (HLA polymorphisms, genes non-HLA and epigenetic mechanisms), environmental factors (living agents of disease, inorganic agents, hormones, etc.) and immunologic factors (regulators lymphocyte, cytokines, costimulatory molecules and others). Identifying these factors will improve the knowledge of the various mechanisms that mediate these complex diseases facilitating not only the understanding of the etiology but also improve the therapeutic tools to address them.

Autoimmunity / 소아과

Self/non-self discrimination and unresponsiveness to self is the fundamental properties of the immune system. Self-tolerance is a state in which the individual is incapable of developing an immune response to an individual's own antigens and it underlies the ability to remain tolerant of individual's own tissue components. Several mechanisms have been postulated to explain the tolerant state. They can be broadly classified into two groups: central tolerance and peripheral tolerance. Several mechanisms exist, some of which are shared between T cells and B cells. In central tolerance, the recognition of self-antigen by lymphocytes in bone marrow or thymus during development is required, resulting in receptor editing (revision), clonal deletion, anergy or generation of regulatory T cells. Not all self-reactive B or T cells are centrally purged from the repertoire. Additional mechanisms of peripheral tolerance are required, such as anergy, suppression, deletion or clonal ignorance. Tolerance is antigen specific. Generating and maintaining the self-tolerance for T cells and B cells are complex. Failure of self-tolerance results in immune responses against self-antigens. Such reactions are called autoimmunity and may give rise to autoimmune diseases. Development of autoimmune disease is affected by properties of the genes of the individual and the environment, both infectious and non-infectious. The host's genes affect its susceptibility to autoimmunity and the environmental factors promote the activation of self-reactive lymphocytes, developing the autoimmunity. The changes in participating antigens (epitope spreading), cells, cytokines or other inflammatory mediators contribute to the progress from initial activation to a chronic state of autoimmune diseases.