Abstract: | In addition to the effector T-cells subsets, T-cells can also differentiate into cells that play a suppressive or regulatory role in adaptive immune responses. The cell types currently identified as regulatory T-cells (Tregs) include natural or thymic-derived Tregs, T-cells which express Foxp3+CD25+CD4+ and can suppress immune responses to autoreactive T-cells, as well as inducible Tregs, that are generated from naïve T-cells in the periphery after interaction with antigens presented by dendritic cells. Inducible Tregs include TH3 cells, Tr1 cells, and Foxp3+-inducible Tregs. Tregs have been shown to be critical in the maintenance of immune responses and T-cell homeostasis. These cells play an important role in suppressing responses to self-antigens and in controlling inappropriate responses to non-self-antigens, such as commensal bacteria or food in the gut. For example, depletion of CD4+CD25+ Tregs from mice resulted in the development of multi-organ autoimmune diseases. CD4+CD25+ Tregs and/or IL-10-producing Tr1 cells are capable of suppressing or attenuating TH2 responses to allergens. Moreover, adoptive transfer of CD4+CD25+ Tregs from healthy to diseased animals resulted in the prevention or cure of certain autoimmune diseases, and was able to induce transplantation tolerance. Clinical improvement seen after allergen immunotherapy for allergic diseases such as rhinitis and asthma is associated with the induction of IL-10- and TGFβ-producing Tr1 cells as well as FoxP3-expressing IL-10 T-cells, with resulting suppression of the TH2 cytokine milieu. Activation, expansion, or suppression of CD4+CD25+ Tregs in vivo by xenobiotics, including drugs, may therefore represent a relevant mechanism underlying immunotoxicity, including immunosuppression, allergic asthma, and autoimmune diseases. |