Electrokinetic study of the reactions of peritoneal macrophages and eosinophils with IgG immune complexes.

Electrophoretic light scattering (laser Doppler electrophoresis) has been employed to study the effects of guinea pig IgG immune complexes on the electrophoretic mobility distributions of guinea pig resident peritoneal cells. The resident population of cells is composed of macrophages (approximately 75%) and eosinophils (approximately 25%). These cells were separated according to the well-established method of Boyum. Populations of resident macrophages, eosinophils, and the unfractionated samples were incubated with soluble immune complexes, antigen alone, or antibody alone. The mean mobility of the resident macrophages decreased approximately 60% when incubated in the presence of immune complexes, although no effect could be discerned in the presence of antigen or antibody alone. The width of the resulting macrophage mobility distribution was larger than that of the control distributions, with a broad shoulder on the high-mobility side, indicating a heterogeneous response of the macrophages to the immune complexes. Eosinophils react in two distinct fashions. One population of eosinophils is present near the control experiments. The second population reacts in a manner very similar to that of macrophages. This suggests that at least two populations of eosinophils are present in the unstimulated guinea pig peritoneal cavity. Results that are intermediate between these two cases are found when unfractionated samples are studied.