In Vivo Neutrophil Emigration in Response to Interleukin-1 and Tumor Necrosis Factor-Alpha

Abstract

The migration of polymorphonuclear leukocytes (PMN) in response to recombinant interleukin-1 (IL-1), tumor necrosis factor-alpha (TNF), C5a, and f-met-leu-phe-lys (FMLPL) in vivo was studied using a mouse subcutaneous sponge implantation model. In this model sponges were implanted in C3H/OUJ mice, and 2 days later they were injected with the test sample. After varying times, sponges were removed and digested with collagenase, and total cell counts and differentials were enumerated. IL-1 was found to stimulate a significant influx of PMN, which peaked at 6 hr and declined to near baseline levels by 24 hr. This response was dose-dependent, with the greatest response observed when 5 units of IL-1 were injected. When the IL-1 concentration was increased to 10 U, the total number of PMN migrating into the sponge was decreased, compared with that observed with 5 U of IL-1. The overall number of PMN migrating into the sponge 6 hr after injecting 5 U of IL-1 averaged 269% of the number of PMN migrating randomly into the sponge. No difference in the total number of macrophages or lymphocytes in control or IL-1-injected sponges was observed in this time frame. Heat treatment of the IL-1 at 90°C for 30 min ablated the response. Similar studies with TNF and C5a showed that both of these agents also stimulated an influx of PMN that peaked 6 hr postinjection. In contrast, FMLPL did not stimulate a PMN response. When IL-1 and TNF were injected simultaneously, an additive response was observed. These data indicate that IL-1, TNF, and C5a can all stimulate a PMN response in vivo and support the hypothesis that these substances are actively involved in the mobilization of PMN to inflammatory sites in vivo.