Differential expression of activation markers during tolerance induction by superantigens in T-cell receptor (beta-chain) transgenic mice.

To investigate the process of tolerance induction we have developed an in vivo model using TCR beta-chain transgenic mice tolerized with the superantigen staphylococcal enterotoxin B. We have previously demonstrated that tolerized peripheral T cells were anergic when stimulated in vitro with immunogenic peptides, superantigens, mitogens, and immobilized anti-TCR mAb. However, the development of anergy is preceded by an induction phase which produces expansion followed by contraction of the peripheral T cell population presumably due to proliferation and programmed cell death, respectively. The current experiments focus on the induction phase of tolerance. A kinetic functional analysis showed that the inhibition of proliferation was apparent 2-3 days post-tolerization. Interestingly, the inhibition of proliferation correlated with the loss of IL-2R alpha expression, which occurred 2 days post-tolerization following an initial increase in IL-2R alpha expression. In addition, the expression of multiple activation markers including CD44, Ly-6A/E, and very early activation marker H1.2F3 is induced, whereas the expression of CD45RB is decreased during tolerance induction. Elevated expression of Ly-6A/E persists up to 28 days post-tolerization; however, altered expression of the other markers does not persist and near baseline levels of the other markers are noted 7 to 28 days post-tolerization. These results show that tolerance induction is an active process which has functional and phenotypic similarities to antigen-specific immunity. However, tolerance induction in our system differs from immunity in terms of the early loss of IL-2R alpha expression, the persistent increased expression of Ly-6A/E, and the lack of development of CD45RBlo memory-type T cells.