Mecanismos de activación de las células T asesinas naturales invariantes (iNKT) / Mecanismos de ativação das células T assassinas naturais invariantes (iNKT) / Activation mechanisms of invariant natural killer T cells (iNKTs)

Aunque se ha logrado un conocimiento amplio acerca de las células T asesinas naturales (iNKT), aún no existe consenso sobre sus mecanismos de activación. Dichas células reconocen diferentes antígenos glicolipídicos presentados por medio de la molécula CD1d, los cuales pueden ser endógenos, exógenos derivados de organismos como bacterias y sintéticos desarrollados para aplicaciones clínicas. Existe mucho interés en entender cómo estas distintas variantes glicolipídicas inducen diferentes tipos de polarización, pero ha sido muy difícil llegar a un consenso, debido a que la respuesta depende de varios factores como la naturaleza, la internalización y el procesamiento de los glicolípidos. Además, la activación de las células iNKT la determinan el tipo y estado de activación de la célula presentadora de antígeno, las moléculas coestimuladoras, los mecanismos de transactivación y la localización de los complejos CD1d-glicolípido en distintas microrregiones de la membrana plasmática, como las balsas lipídicas. Esta revisión explora la evidencia sobre los factores que afectan la activación de las células iNKT con el fin de entender su potencial inmunomodulador.

A great amount of knowledge on natural killer T cells (iNKTs) is now available, but a consensus about their activation mechanisms has not been reached. These cells recognize different glycolipid antigens through the CD1d molecule. Such antigens may be endogenous, derived from bacteria (foreign) and synthetic, the latter have been developed for clinical applications. There exists much interest in understanding how these different glycolipid compounds induce different types of polarization, but it has been difficult to reach a consensus due to the fact that responses depend on different factors such as: the nature of the molecule, the internalization process and the presentation of the glycolipids. Moreover, activation of iNKT cells is determined by the type and state of the antigen presenting cell, the co-stimulatory molecules, the transactivation mechanisms and the location of the glycolipid-CD1d complexes on the plasma membrane, such as the lipid rafts. This review explores the evidence about the factors that affect activation of iNKT cells in order to understand their immune-modulatory potential.

Ainda que se conseguiu um conhecimento amplo a respeito das células T assassinas naturais (iNKT), ainda não existe consenso sobre seus mecanismos de ativação. Ditas células reconhecem diferentes antígenos glicolipídicos apresentados por meio da molécula CD1d, os quais pode ser: endógenos, exógenos derivados de organismos como bactérias e sintéticos desenvolvidos para aplicações clínicas. Existe muito interesse em entender como estas diferentes variantes glicolipídicas induzem diferentes tipos de polarização, mas foi muito difícil chegar a um consenso, devido a que a resposta depende de vários fatores como a natureza, a internalização e o processamento dos glicolípidos. Ademais, a ativação das células iNKT a determinam o tipo e estado de ativação da célula apresentadora de antígeno, as moléculas co-estimuladoras, os mecanismos de transativação e a localização dos complexos CD1d-glicolípido em diferentes microrregiões da membrana plasmática, como as balsas lipídicas. Esta revisão explora a evidência sobre os fatores que afetam a ativação das células iNKT com o fim de entender seu potencial imunomodulador.

Contribution of dendritic cell/T cell interactions to triggering and maintaining autoimmunity

Under healthy conditions, there is a balance between tolerance to self-tissue constituents and immunity against foreign antigens. Autoimmunity diseases (AD) take place when that equilibrium is disrupted and the immune response is directed to self-antigens, leading to injury or destruction of host tissues. The mechanisms conducing to the loss of immune tolerance remain largely unknown. The recent appearance of biological therapies has contributed to significant reduction in morbidity. However, currently available therapies are associated with important side effects and work only as palliative treatments. Dendritic cells (DCs) have emerged as key players in developing and maintaining adaptive immunity due to their capacity to prime and modulate T cell function. Therefore, because DCs work as central modulators of immune tolerance, it is likely that alterations in their function can lead to the onset of autoimmune-inflammatory diseases. By modulating DC function, novel pathways in antigen-specific tolerance could be established. In this article, the possible contribution of altered DC-T cell interactions to the onset of autoimmunity are discussed. In addition, we expand on the notion that some of the functions of these cells could be relevant targets for intervening therapies aimed to restore the balance or even prevent the loss of tolerance.