IgE Immune Complexes Research Articles

Characteristics of macrophage cytotoxicity induced by IgE immune complexes

In earlier studies, the specific adherence of normal rat macrophages to Schistosoma mansoni schistosomula, followed by macrophage cytotoxicity against the larvae, was shown to be induced by incubation of the macrophages with serum from infected rats containing complexes of IgE antibody and circulating schistosome antigens. By the use of a chromium-51 release assay, it is pointed out that this cytotoxic process is a two-step phenomenon. The first step, i.e., activation of normal unstimulated macrophages induced by incubation of the cell with IgE complexes in immune rat serum, is a nonspecific mechanism which may also be elicited by various other macrophage activators. The second step, i.e., immune adherence and cytotoxicity of activated macrophages against S. mansoni schistosomula, is a specific process which imperatively needs the presence of S. mansoni IgE immune complexes. Aggregated myeloma IgE does not activate adherent peritoneal cells into cytotoxic effector cells unless the further participation of these specific IgE immune complexes is provided. The necessary preincubation of macrophages with immune rat serum before adding schistosomula accounts for the inefficiency of the incubation of the target itself with serum to elicit macrophage cytotoxicity. Serum dilution also appears as a critical factor since immune rat serum is inefficient when diluted more than 1 25 . Aggregated rat IgG neither induces macrophage activation nor inhibits the activation by IgE immune complexes. Though the binding of IgE to the macrophage appears to be isotype specific, homologous immune complexes of IgE antibody and schistosome antigens are required to induce killing of S. mansoni larvae. The possible mechanism of this new model of macrophage activation and cytotoxicity is discussed.