Abstract

Unlike IL-7, which is known to be critical for T cell thymic development, the role of IL-21 in this process is still controversial. IL-21 has been shown to accelerate thymic recovery in mice treated with glucocorticoids and revives the peripheral T cell pool in aged animals. However, mice with a defect in IL-21 signaling exhibit normal thymic cellularity, challenging the importance of this cytokine in the thymic developmental process. Using mixed bone marrow chimeric mice, our studies describe a multilayered role for IL-21 in thymopoiesis. In this system, IL-21R-deficient cells are unable to compete with wild-type populations at different stages of the thymic development. Using a mixed bone marrow chimeric animal model, IL-21 seems to be involved as early as the double-negative 1 stage, and the cells from the knockout compartment have problems transitioning to subsequent double-negative stages. Also, similar to IL-7, IL-21 seems to be involved in the positive selection of double-positive lymphocytes and appears to play a role in the migration of single-positive T cells to the periphery. Although not as critical as IL-7, based on our studies, IL-21 plays an important complementary role in thymic T cell development, which, to date, has been underrecognized.

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