Identification and initial characterization of concanavalin A- and interferon-induced human suppressor factors: evidence for a human equivalent of murine soluble immune response suppressor (SIRS).

Abstract

Human suppressor T cells activated by leukocyte interferon have properties similar to murine suppressor cells activated by interferon or by concanavalin A. Murine suppressor cells release a soluble mediator, soluble immune response suppressor (SIRS), which accounts, at least in part, for suppressive activity in murine systems. To compare and contrast murine and human suppressor pathways, we evaluated the suppression of human polyclonal plaque-forming cell responses by concanavalin A, by leukocyte interferon, and by immune interferon, or by suppressor cells activated by these agents. In each instance, suppressive activity was prevented by levamisole, ascorbic acid, catalase, or 2-mercaptoethanol, agents known to interfere with murine SIRS activity. Furthermore, concanavalin A, immune interferon, and leukocyte interferon induced T lymphocytes to release 110,000 to 150,000 m.w. proteins which suppressed responses only when added early in the culture period. As with murine SIRS, suppression by each of these human factors was inhibited by 2-mercaptoethanol, ascorbic acid, catalase, or levamisole. The reaction of human suppressor factors with H2O2 (10(-6) M) activated suppressor factors so that they suppress responses when added late in the culture period. Human suppressor factors were protease- and acid (pH 2)-sensitive. The similarities between these human suppressor factors and murine SIRS show the existence of a human SIRS pathway.