Proliferation Kinetics Associated with T Cell Receptor-β Chain Selection of Fetal Murine Thymocytes

After productive rearrangement of a TCRβ chain gene, CD4(−)8(−) double negative (DN) thymocytes express TCRβ polypeptide chains on the cell surface together with pre-Tα and the CD3 complex forming the pre-TCR. Signals transmitted through the pre-TCR select TCRβ(+) DN thymocytes for further maturation to the CD4(+)8(+) double positive stage, whereas DN cells that fail to generate a productive TCRβ gene rearrangement do not continue in development. This process is termed TCRβ chain selection. Although it is likely that differences between proliferation dynamics of TCRβ(+) and TCRβ(−) cells may play a role, the exact mechanisms of TCRβ chain selection have not been elucidated. We therefore studied the proliferation dynamics of TCRβ(+) and TCRβ(−) thymocytes during fetal development, i.e., when TCRβ chain selection takes place for the first time. We analyzed in situ accumulation of TCRβ(+) thymocytes by confocal microscopy, and determined cell cycle and division parameters of TCRβ(+) and TCRβ(−) populations by flow cytometry. About 600 TCRβ(+) cells/thymic lobe are generated by independent induction events between days of gestation (dg) 13.5. and 15.5. As of dg 14.5, most TCRβ(+) cells have entered S/G2 phase of cell cycle, followed by seven to eight rapid cell divisions in fetal thymic organ culture, suggesting a corresponding burst of nine cell divisions within 4 d in vivo. By dg 18.5, the division rate of TCRβ(+) cells has slowed down to less than 1/d. About three quarters of TCRβ(−) cells divide at a slow rate of 1/d on dg 14.5, the proportion of nondividing cells increasing to 50% within the following four d. From dg 16.5 onwards, TCRβ(−) cells, but not TCRβ(+) cells, contain a significant proportion of apoptotic cells. The results suggest that failure to become selected results in shutdown of proliferation and eventual programmed cell death of fetal TCRβ(−) cells. Positive selection of fetal TCRβ(+) cells is achieved by an increased rate of cell divisions lasting for approximately 4 d.