Macrophages in resistance to rickettsial infection: susceptibility to lethal effects of Rickettsia akari infection in mouse strains with defective macrophage function

We have confirmed the requirement of macrophages in the antigen-induced T-lymphocyte proliferative response and in the generation of migration inhibition factor (MIF) by immune lymphocytes. Extending these observations, we have found that autologous and non-syngeneic, oil-induced peritoneal exudate macrophages were equally effective in restoring the proliferative response and MIF production by column-purified lymph node T cells. MIF activity was optimally restored when T cells were reconstituted with 1 to 40% exudate-derived macrophages whereas 10 to 30% macrophages were needed to optimally restore the T-cell proliferative response. Normal resident macrophages from the peritoneal cavity were also capable of restoring T-cell reactivity as were normal or BCG-activated pulmonary alveolar macrophages. It was also found that the addition of as few as 1.0% glycogen-elicited peritoneal exudate cells restored the production of MIF by T cells. Quantitative considerations demonstrated that the responsible cells in these preparations were polymorphonuclear cells rather than macrophages. In contrast, neither MIF production nor the proliferative response by T cells were restored by the addition of red blood cells. In these studies we were able to demonstrate that freeze-thawed macrophages could restore antigen-induced MIF production, but not antigen-induced cellular proliferation. The ability of freeze-thawed macrophages to stimulate T cells to produce MIF was apparently associated with the macrophage membranes and not with a soluble factor in the macrophage extracts. These results demonstrate that multiple sources of phagocytic cells may interact cooperatively with lymphocytes in reactions of cell-mediated immunity. Further, at least in the case of MIF production, this interaction involves a membrane-bound determinant that is effective even in the absence of viable macrophages.