Development and function of T cells in T cell antigen receptor/CD3 ζ knockout mice reconstituted with FcɛRI γ

Engagement of α–β T cell receptors (TCRs) induces many events in the T cells bearing them. The proteins that transduce these signals to the inside of cells are the TCR-associated CD3 polypeptides and ζ–ζ or ζ–η dimers. Previous experiments using knockout (KO) mice that lacked ζ (ζKO) showed that ζ is required for good surface expression of TCRs on almost all T cells and for normal T cell development. Surprisingly, however, in ζKO mice, a subset of T cells in the gut of both ζKO and normal mice bore nearly normal levels of TCR on its surface. This was because ζ was replaced by the FcɛRI γ (FcRγ). These cells were relatively nonreactive to stimuli via their TCRs. In addition, a previous report showed that ζ replacement by the FcRγ chain also might occur on T cells in mice bearing tumors long term. Again, these T cells were nonreactive. To understand the consequences of ζ substitution by FcRγ for T cell development and functionin vivo , we produced ζKO mice expressing FcRγ in all of their T cells (FcRγTG ζKO mice). In these mice, TCR expression on immature thymocytes was only slightly reduced compared with controls, and thymocyte selection occurred normally and gave rise to functional, mature T cells. Therefore, the nonreactivity of the FcRγ+ lymphocytes in the gut or in tumor-bearing mice must be caused by some other phenomenon. Unexpectedly, the TCR levels of mature T cells in FcRγTG ζKO mice were lower than those of controls. This was particularly true for the CD4+ T cells. We conclude that FcRγ can replace the functions of ζ in T cell developmentin vivo but that TCR/CD3 complexes associated with FcRγ rather than ζ are less well expressed on cells. Also, these results revealed a difference in the regulation of expression of the TCR/CD3 complex on CD4+ and CD8+ T cells.