ENDOGENOUS IL-1 IS REQUIRED FOR NEUTROPHIL RECRUITMENT AND MACROPHAGEACTIVATION DURING MURINE LISTERIOSIS

By using a mixture of neutralizing mAbs to IL-1 alpha, IL-1 beta, and to the type I IL-1R, we previously documented a regulatory role for IL -1 in the development of anti-Listeria responses in mice. Both normal C.B-17 and severe combined immunodeficiency (SCID) mice injected with this mixture of Abs exhibit decreased resistance to Listeria. In this study, we demonstrate that the neutralization of IL-1 activity in SCID mice results in a major defect in neutrophil migration to the periton eum, in response to Listeria infection. Moreover, anti-IL-1 treatment also inhibits Listeria-induced peripheral blood leukocytosis at all ti me points examined. We also show that mice injected with anti-IL-1 Abs failed to elaborate class II MHC-positive peritoneal macrophages in v ivo at any time during Listeria infection. Even though peritoneal macr ophages from anti-IL-1-treated Listeria-infected mice are not activate d to express MHC class II molecules, IFN-gamma production in vivo is n ormal. Moreover, the macrophages are unresponsive to IFN-gamma in vitr o, as assayed by MHC class II expression, even when rIL-1 is added. rI L-1 also is unable to increase the expression of IFN-gamma-induced sur face class II MHC molecules on resident peritoneal macrophages in vitr o. These results indicate that endogenously produced IL-1 plays an imp ortant role in Listeria-dependent neutrophil migration, increase in bl ood leukocyte number, generation of MHC class II-positive macrophages in vivo, and macrophage responsiveness to IFN-gamma.