Lineage relationships and developmental kinetics of immature thymocytes: CD3, CD4, and CD8 acquisition in vivo and in vitro

T lymphocytes develop in the thymus from immunologically naive bone marrow precursors. Based on T cell receptor rearrangement and transcription, and thymic reconstitution potential, we have deduced a developmental sequence among immature thymocytes, before the acquisition of the lineage markers CD3, CD4, and CD8. In the current study, we have followed the ontogenic progression of the latter stages in this sequence, using two different systems: (a) in vivo, by direct injection into the thymus of nonirradiated, congenic recipients; and (b) in vitro, using culture medium without mitogens or cytokines. In vivo, the less mature Pgp-1- interleukin 2 receptor alpha-positive (IL- 2R alpha+) CD3-4-8- subset (also heat-stable antigen high) requires 3 d before becoming predominantly IL-2R alpha- CD3lo4+ 8+ typical cortical- type cells, and at least 5 d before the appearance of any mature single- positive cells (CD3hi4+ 8- or CD3hi4-8+). However, these Pgp-1- IL-2R alpha+ precursors do not differentiate further in unstimulated culture. The more mature Pgp-1- IL-2R alpha- CD3-4-8- subset becomes primarily CD3lo4+ 8+ within 1 d after transplantation, and some mature single- positive progeny are evident by day 3. By 5 d, most of these Pgp-1-IL- 2R alpha- precursor cells have become CD3hi, and have lost or are downregulating either CD4 or CD8. In culture, these Pgp-1- IL-2R alpha- cells also acquire high levels of CD4 and CD8 within 1 d, and low levels of CD3 by 2 d. However, they do not progress further to mature single positives in vitro, and most of them die by day 3. These experiments directly confirm our previously proposed developmental sequence, and demonstrate the kinetics of T lymphocyte production in a low-stress, steady-state environment.

[1]  M. Pearse,et al.  Development of immature thymocytes: initiation of CD3, CD4, and CD8 acquisition parallels down‐regulation of the interleukin 2 receptor α chain , 1990, European journal of immunology.

[2]  I. Weissman,et al.  T cell receptor-mediated negative selection of autoreactive T lymphocyte precursors occurs after commitment to the CD4 or CD8 lineages , 1990, The Journal of experimental medicine.

[3]  R. Boyd,et al.  Ontogeny of a novel CD4+CD8-CD3- thymocyte subpopulation: a comparison with CD4- CD8+ CD3- thymocytes. , 1990, International immunology.

[4]  H. Petrie,et al.  The acquisition of CD4 and CD8 during the differentiation of early thymocytes in short-term culture. , 1989, International immunology.

[5]  I. Weissman,et al.  Intrathymic maturation of murine T lymphocytes from CD8+ precursors. , 1989, Proceedings of the National Academy of Sciences of the United States of America.

[6]  M. Moore,et al.  T cell receptor expression on immature thymocytes with in vivo and in vitro precursor potential , 1989, European journal of immunology.

[7]  Mark M. Davis,et al.  Antigen/MHC-specific T cells are preferentially exported from the thymus in the presence of their MHC ligand , 1989, Cell.

[8]  H. Boehmer,et al.  The generation of mature T cells requires interaction of the αβ T-cell receptor with major histocompatibility antigens , 1989, Nature.

[9]  A. D'amico,et al.  Developmental Status and Reconstitution Potential of Subpopulations of Murine Thymocytes , 1988, Immunological reviews.

[10]  M. Egerton,et al.  Immature CD4- CD8+ murine thymocytes. , 1988, Cellular immunology.

[11]  H. Macdonald,et al.  A cd3− subset of cd4−8+ thymocytes: a rapidly cycling intermediate in the generation of cd4+8+ cells , 1988, European journal of immunology.

[12]  A. D'amico,et al.  Subpopulations of early thymocytes. A cross-correlation flow cytometric analysis of adult mouse Ly-2-L3T4-(CD8-CD4-) thymocytes using eight different surface markers. , 1988, Journal of immunology.

[13]  H. Macdonald,et al.  Heterogeneity of immature (Lyt-2-/L3T4-) thymocytes. Identification of four major phenotypically distinct subsets differing in cell cycle status and in vitro activation requirements. , 1988, Journal of immunology.

[14]  J. Bluestone,et al.  Characterization of murine thymocytes with CDS-associated T-cell receptor structures , 1987, Nature.

[15]  B. Fowlkes,et al.  Early T lymphocytes. Differentiation in vivo of adult intrathymic precursor cells , 1985, The Journal of experimental medicine.

[16]  K. Shortman,et al.  T Cell Development in the Adult Murine Thymus: Changes in the Expression of the Surface Antigens Ly2, L3T4 and B2A2 during Development from Early Precursor Cells to Emigrants , 1984, Immunological reviews.

[17]  H. Macdonald,et al.  Precursors of T cell growth factor producing cells in the thymus: ontogeny, frequency, and quantitative recovery in a subpopulation of phenotypically mature thymocytes defined by monoclonal antibody GK-1.5 , 1983, The Journal of experimental medicine.