Rapid loss of feedback suppressor T-cell activity after priming in vivo.

T cells from antigen-primed mice have a diminished capacity to mediate feedback suppression when compared to T cells from unprimed mice. This was demonstrated using an in vitro model of B-cell induced feedback suppression in which spleen cells from mice primed with sheep erythrocytes (SRBC) activate feedback suppressor T-cell precursors to mediate suppression of the primed spleen cell response. The addition of splenic T cells from unprimed mice to cultures of spleen cells from SRBC-primed mice resulted in suppression of the secondary IgM and IgG anti-SRBC response. In contrast, no suppression was detected when T cells from mice primed with SRBC were added to the primed spleen cell cultures. The loss of suppression by T cells from primed mice was antigen-specific and was detectable by 24 hr after priming, coinciding with the appearance after priming of T-cell enhancing activity. The reduced suppressive activity could be due to changes in the active T-cell subset itself or to the appearance of cells or factors within the T-cell population that block or mask detection of feedback suppression. In either case, the present finding suggests that priming of a host not only activates feedback suppression induction mechanisms, but also rapidly affects the ability of the T-cell population to develop effective feedback suppression.