Positive selection of CD8+ T cells induced by major histocompatibility complex binding peptides in fetal thymic organ culture.

Abstract

DNA recombination of the immunoglobulin (Ig) or T cell receptor (TCR) gene loci is an essential step in the production of lymphocytes bearing antigen-specific receptors. Mice that lack the ability to rearrange their Ig and TCR gene loci are devoid of mature B and T cells. Complete rearrangement and expression of the TCR-beta chain has been suggested to allow immature thymocytes to switch from the CD4-/CD8- to the CD4+/CD8+ stage of thymic development. Thus, thymocytes from severe combined immune deficient (SCID) mice or mice deficient in recombinase activation genes (RAG), which do not undergo proper DNA rearrangement, are arrested at the early CD4-/CD8- stage of development. B cell precursors in SCID or RAG mice do not progress from the B220+/sIgM-/heat stable antigen (HSA)+/CD43+ to the B220+/sIgM-/HSA+/CD43- stage. In an attempt to reconstitute RAG-2-/- mice with bone marrow- or fetal liver-derived progenitor cells, we subjected these mice to sublethal doses of gamma-radiation. It is surprising that in the absence of donor cells, irradiated RAG-2-/- mice revealed a dramatic change in their lymphoid phenotype. 14 d after irradiation, the majority of thymocytes had advanced to the CD4+/CD8+ stage of T cell development and a small number of bone marrow precursors had progressed to the CD43-, HSAhi stage of B cell development. Analysis of the resulting CD4+/CD8+ thymocytes revealed no surface expression of the TCR/CD3 complex and no V-D-J rearrangement of the TCR-beta gene locus. Our findings provide evidence for a novel pathway that allows the transition of thymocytes from the CD4-/CD8- to the CD4+/CD8+ stage and that does not appear to require TCR-beta chain rearrangement.