Faculty Bibliography

INTRODUCTION: Interleukin 2 (IL-2) induces an essential signal for T regulatory (Treg) cells. Without a functional IL-2R, only immature CD4(+) Foxp3(low) CD25(neg) T cells develop, and these cells fail to suppress autoreactive T cells in the periphery. DISCUSSION: IL-2 functions during Treg cell development by upregulating Foxp3 and CD25 and by increasing the number of thymic Treg cells. Upon exiting the thymus during neonatal life, IL-2 is responsible for rapid amplification of the number of Treg cells in peripheral lymph nodes to insure suppression of autoreactive T cells that escape negative selection, thereby maintaining tolerance. The homeostasis of Treg cells in mature immunocompetent mice also depends on IL-2. However, there is an alternative mechanism for Treg cells homeostasis that may represent a minor IL-2-independent pathway or the consequence of weak and very transient IL-2R signaling. CONCLUSION: Thus, IL-2 provides importance signals for Treg cell development and for their homeostasis in peripheral immune tissues.

An important unresolved question with regard to T regulatory (Treg) cell specificity and suppressive activity is whether allogeneic Treg cells inhibit self-reactive T cells. In the present study, this issue was addressed using IL-2Rbeta-deficient mice that develop rapid lethal autoimmunity due to impaired production of Treg cells. We show that adoptive transfer of completely MHC-mismatched Treg cells into IL-2Rbeta(-/-) mice resulted in life-long engraftment of the donor cells, which exhibited skewed reactivity toward host alloantigens, and prevented autoimmunity. Thus, Treg cells that underwent thymic selection by peptide/MHC class II complexes distinct from those recognized by autoreactive T cells, still effectively suppress autoimmunity. Remarkably, when such animals were skin grafted, they exhibited dominant tolerance to those grafts bearing MHC molecules that were shared with donor Treg cells. Collectively, these data demonstrate that effective engraftment by allogeneic Treg cells controls autoimmunity and results in permissive conditions for long-term acceptance of allografts.

IL-2- and IL-2R-deficient mice readily develop T cell-dependent immune responses in vivo, but the relevance of this finding is complicated by severe concurrent autoimmunity. Furthermore, the detection of such responses does not address whether under normal circumstances IL-2 dominates T cell immunity. In the present report, we investigated the extent IL-2-independent T cell growth is mediated by other cytokines in the IL-2 family and compared such responses to those generated by IL-2/IL-2R-sufficient T cells. T cell expansion and contraction to the superantigen staphylococcal enterotoxin A (SEA) by autoimmune-free IL-2Rbeta-/- CD4 and CD8 T cells were comparable to normal control mice, although their CD8+ T cells did not optimally develop into IFNgamma-producing effector cells. The proliferation by these IL-2Rbeta-deficient T cells in vivo was independent of IL-2, IL-4 and IL-15 and not blocked by mAbs to the common gamma chain. However, in co-adoptive transfer experiments, wild-type T cells exhibited somewhat more extensive proliferation than IL-2Rbeta-deficient T cells to SEA and this difference was almost entirely accounted for by CD8+ T cells. Collectively, these data indicate that substantial T cell proliferation occurs in the absence of responsiveness to cytokines in the IL-2 family, although maximal T cell proliferation and development of IFNgamma-producing effector CD8+ T cells depend upon IL-2Rbeta.

Although many aspects of CD4(+)CD25(+) T regulatory (T(reg)) cell development remain largely unknown, signaling through the IL-2R represents one feature for the production of T(reg) cells. Therefore, the present study was undertaken to further define early developmental steps in the production of T(reg) cells, including a more precise view on the role of interleukin (IL)-2 in this process. After adoptive transfer of wild-type T(reg) cells into neonatal IL-2Rbeta(-/-) mice, only a small fraction of donor T(reg) cells selectively seeded the lymph node (LN). These donor T(reg) cells underwent rapid and extensive IL-2-dependent proliferation, followed by subsequent trafficking to the spleen. Thus, IL-2 is essential for T(reg) cell proliferation in neonatal LN. The number and distribution of T(reg) cells in the periphery of normal neonatal mice closely paralleled that seen for IL-2Rbeta(-/-) mice that received T(reg) cells. However, for normal neonates, blockade of IL-2 decreased T(reg) cells in both the thymus and LN. Therefore, two steps of T(reg) cell development depend upon IL-2 in neonatal mice, thymus production, and subsequent expansion in the LN.