Fetal and Adult Hematopoietic Stem Cells Give Rise to Distinct T Cell Lineages in Humans

Abstract

Lymphocytes Layer It On Cells of the immune system begin to develop from hematopoietic stem cells (HSCs) during fetal life. In the adult, HSCs continue to produce immune cells to replenish dying cells or in response to an infection. In mice and birds, immune cell development occurs in a “layered” manner, whereby distinct populations of HSCs that arise at different times during development generate distinct immune cell lineages. In contrast, development of human immune cells, and T lymphocytes in particular, is thought to be linear. Mold et al. (p. 1695 ; see the Perspective by Betz ) now show that T lymphocyte development in humans is also “layered,” and strategically so. T cells that arise from fetal HSCs are enriched in regulatory T cells, which promote immune tolerance, rather than classical T cells, which readily respond to foreign antigen. By favoring the development of regulatory T cell populations during fetal life, the immune system is perhaps better able to keep responses to maternal antigens in check. The development of large numbers of classical T cells is delayed until after birth when infectious agents represent a more imminent threat.