Dynamics of cytochemically distinct subpopulations of macrophages in elicited rat peritoneal exudates.

Qualitative and quantitative changes in rat peritoneal macrophage (M phi) subpopulations, differing in their ultrastructural peroxidatic staining characteristics were followed over the course of a thioglycollate (TG) broth-induced inflammatory response. In addition, selected functional features of the normal steady-state and 4-day TG-induced populations of M phi were compared. The steady-state population consisted primarily of M phi with peroxidatic staining limited to the nuclear envelope (NE) and rough endoplasmic reticulum (RER); such cells are called resident M phi. Within hours of TG injection, there was an influx of monocyte-derived exudate M phi, the number of which reached a maximum, by 24 hr. During the next 24 hr, the proportion of exudate M phi decreased with a concomitant increase in peroxidatic activity (PA)-negative M phi. These two cell types continued to predominate for the next 48 hr during which there was a gradual increase in resident M phi and so-called "exudate-resident" M phi, the latter of which exhibits both exudate and resident PA patterns. Thus, the 4-day TG-induced population consisted of four cytochemically distinct M phi subpopulations: approximately 50% PA-negative M phi, approximately 25% exudate M phi, approximately 15% resident M phi, and approximately 10% exudate-resident M phi. Differences in Fc receptors and complement receptors 1 and 3 were noted between the two populations in the presence of progenitors that give rise to colonies of M phi in liquid culture in response to murine-derived colony-stimulating factor 1. The implications of these results in regard to the origin(s) of M phi diversity are discussed.