Signal transduction in CD4+CD25+ regulatory T cells: CD25 and IL-2

Abstract

IL-2 was originally identified as a growth factor critical for T cell proliferation in vitro. Although the early studies of IL-2 strongly implied an obligate role of IL-2 in T cell growth, it was later shown that mice deficient in IL-2 or in IL-2R developed an unexpected lymphocytic hyperproliferation and subsequent autoimmune disease. In separate studies of autoimmunity, it was observed that a population of CD4+ T cells suppressed the induction of autoimmunity in several in vivo models of autoimmune disease. It was not until the characterization of this subpopulation of CD4+ T cells demonstrated that they coexpressed the IL-2R-alpha chain (CD25) that the puzzling phenotype observed in IL-2 deficient mice began to be truly explained. The constitutive expression of the IL-2R-alpha chain on CD4+CD25 + T cells led to the obvious speculation that IL-2 signaling in CD4+CD25+ T cells was important to these cells. Recent studies have examined the role of IL-2 in the generation, the expansion, the survival and the effector function of CD4+CD25+ T cells. It is now evident that IL-2 is critical for the development of CD4 +CD25+ T cells and the phenotype observed in IL-2 and IL-2R deficient mice is most readily explained by the absence of these potent suppressors.