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Mechanisms of Peripheral T Cell Tolerance

2007; Wiley; Linguagem: Inglês

10.1002/9780470515525.ch2

1935-4657

Luk Van Parijs, Víctor Pérez, Abul K. Abbas,

Immunotherapy and Immune Responses

Peripheral tolerance to self proteins is induced because these antigens are presented to T lymphocytes under conditions that do not allow effective immune responses to develop, or because the responses of the specific T cells are tightly regulated. The two principal mechanisms of peripheral tolerance are activation-induced cell death (AICD) and anergy. In CD4+ T lymphocytes, AICD is induced by repeated stimulation, with high levels of interleukin (IL)-2 production. Under these conditions, the T cells co-express Fas (CD95) and Fas ligand (FasL), and engagement of Fas triggers apoptotic death of the T cells. Mice with defects in Fas, FasL, IL-2 or the IL-2Rα or β chain exhibit defects in AICD and develop autoimmune disease. The induction of T cell anergy is dependent on the recognition of B7 co-stimulators by the inhibitory T cell counter-receptor, CTLA-4. Failure of anergy is the likely basis for the fatal autoimmune disease of CTLA-4 knockout mice. The single-gene defects that result in autoimmunity are all defects in lymphocyte regulation, indicating that tolerance is often maintained by the control of lymphocyte responses to self antigen. The existence of distinct pathways of T cell tolerance suggests that different types of self antigens induce tolerance by distinct mechanisms.