Two inhibitors of neutrophil chemotaxis are produced by hyperimmunoglobulin E recurrent infection syndrome mononuclear cells exposed to heat-killed staphylococci

Abstract

Mononuclear cells from normal volunteers and from patients with the hyperimmunoglobulin E recurrent infection syndrome (HIE) were cultured for 18 h with and without opsonized, heat-killed Staphylococcus aureus (OS). The supernatants from normal mononuclear cell cultures without OS revealed no inhibitory activity for neutrophil chemotaxis, whereas those from HIE patients revealed the previously reported 61,000 factor. However, when normal cells were cultured with OS, they produced a proteinaceous, 56°C-stable, 30,000- to 45,000-dalton factor which preferentially inhibited neutrophil versus monocyte chemotaxis. When HIE cells were exposed to OS, they produced the same 30,000- to 45,000-dalton factor as normal cells, as well as the 61,000-dalton factor that they produced spontaneously. Assay of 1,000-fold dilutions of supernatants from cultures of normal mononuclear cells with OS revealed a mean production of 7.8 ± 5.4% inhibition of chemotaxis, whereas assay of 1,000-fold dilutions of supernatants from cultures of HIE mononuclear cells (spontaneously producing the 61,000-dalton factor) with OS revealed a 26.6 ± 3.6% inhibition (P < 0.02). The data indicate that in short-term culture both normal and HIE mononuclear cells produce an inhibitor of neutrophil chemotaxis when exposed to particulate heat-killed staphylococci but that HIE cells produce qualitatively and quantitatively more inhibitory activity.