In vivo cyclophosphamide-mediated augmentation and aqueous HGG-induced suppression of murine delayed hypersensitivity to HGG are reflected by in vitro HGG-stimulated proliferation of lymph node cells from equivalent mice

Abstract

The question addressed in this report was whether immunological processes which culminate in in vivo expression and augmentation as well as suppression of delayed effector cell activity are mirrored by events that can be quantified in vitro. For this purpose the previously characterized murine model of delayed hypersensitivity (DHS), which employs SJL/J mice immunized with aggregated human γ-globulin (AHGG) in complete Freund's adjuvant (CFA) was employed. The results indicated that lymph node cells (LNC) from cyclophosphamide (CY)-pretreated, AHGG-CFA immunized mice expressed increased proliferation in the presence of HGG and concanavalin A (Con A) but decreased LPS responsiveness compared with LNC from equivalently immunized but non-CY-treated animals. It was also found that LNC from CY-treated, AHGG-CFA immunized mice that were pretreated with aqueous HGG (aqHGG), but not aqueous bovine serum albumin (aqBSA), evidenced a markedly decreased capacity to proliferate in the presence of HGG compared with LNC from equivalent animals that were not pretreated with aqHGG. This suppressive effect was not attributable to antibody production. These findings support the conclusion that in vitro quantitation of antigen-induced proliferation by LNC from HGG-DHS mice appears to correlate with modulatory effects which are observed in in vivo expression of DHS responses.