Mechanism of IL-10-Induced T Cell Inactivation in Allergic Inflammation and Normal Response to Allergens

Abstract

Background: Induction of specific unresponsiveness (tolerance/anergy) in peripheral T cells and recovery by cytokines from the tissue microenvironment represent two key steps in specific immunotherapy (SIT) with whole allergen or antigenic T cell peptides. Methods: Antigen-specific T cell responses and molecular mechanisms of T cell inactivation were investigated during conventional SIT, T cell epitope peptide immunotherapy and natural exposure to bee venom in allergic and hyperimmune individuals. Results: T cell unresponsiveness, initiated by autocrine action of IL-10, is characterized by suppressed proliferative and cytokine responses. The unresponsive T cells can be reactivated by different cytokines that may mimic the microenvironmental cytokine influence. IL-10 initiates peripheral tolerance by blocking the CD28 costimulatory signal in T cells. Coprecipitation experiments reveal that upon stimulation CD28 and IL-10 receptor are physically associated in T cells. Accordingly, IL-10 binding to its receptor inhibits CD28 tyrosine phosphorylation, the initial step of the CD28 signaling pathway. This leads to inhibition of phosphatidylinositol 3-kinase p85 binding to CD28. IL-10 only affects T cells that receive a stimulation with low numbers of triggered T cell receptors and that require costimulatory signals by CD28. Conclusion: These data demonstrate the pivotal role of autocrine IL-10 and the interaction of its receptor with CD28 in the induction of T cell tolerance as an immunoregulatory mechanism controlling antigen-specific T cell responses.