Hapten-IgG-induced suppression of the in vitro antibody response : Role of hapten density and of antigenic challenge

Abstract

We have studied the suppression of the in vitro antibody response of mouse spleen cells to the trinitrophenyl (TNP) hapten by conjugates of TNP-human IgG (TNP-HGG). Normal mouse spleen cells were incubated with conjugates of HGG and of HGG fragments, with different hapten densities. They were then challenged with either a T-dependent or a T-independent antigen. Highly substituted (12 mol of TNP/mol of HGG) conjugates induced a dose-dependent suppression, apparent after short-term incubation at 4 °C, of both T-dependent and T-independent responses. Conjugates of Fab′ 2 and Fab′ were as suppressive as conjugates of IgG, whereas conjugates of albumin, aggregated IgG, and β2 microglobulin lacked suppressive activity. In contrast, the lightly substituted conjugates TNP 8-HGG and TNP 2-Fab′ 2 induced a time-dependent suppression, affecting only the T-dependent response. This suggests that the suppressive effect of hapten-IgG conjugates is mediated by two different mechanisms according to the density of hapten on the IgG carrier. When these conjugates are used as tolerogens in the in vivo situation, both mechanisms would operate to a variable extent, and this could account for the remarkable tolerogenic properties of hapten-IgG conjugates.