While there is considerable evidence that both interleukin-1 (IL-1) and tumor necrosis factor (TNF) are central mediators of inflammation caused by gram-negative bacteria and endotoxin, the roles of these two mediators in gram-positive infection are unknown. Pneumococcal infections are characterized by an intense inflammatory reaction in infected tissues. Current evidence suggests that the component of the pneumococcus which causes this inflammation in many body sites is the cell wall. We determined the ability of native pneumococcal cell wall, lipoteichoic acid, and cell wall subcomponents to stimulate secretion of IL-1 and TNF from human monocytes. Each pneumococcal cell surface component was found to have a different specific activity for induction of IL-1. Teichoication was an important determinant of this activity: teichoicated species were at least 10,000-fold more potent than endotoxin and 100-fold more potent than teichoic acid-free peptidoglycan. IL-1-inducing activity was greatly reduced by chemical alteration of the teichoic acid. In contrast to endotoxin, cell wall did not induce production of TNF. This dissociation of the production of IL-1 and TNF during the response of the human monocyte to pneumococcal surface components suggests that, in at least some circumstances, the mechanisms for generation of an inflammatory response to infection may be fundamentally different between gram-positive and gram-negative disease.