Chemically pure preparations of three structurally unrelated components of the cell wall of gram-negative bacteria (BCWC), lipid A, outer-membrane lipoprotein, and murein, were tested for lymphocyte mitogenicity and the ability to induce colony-stimulating activity (CSA) in various serum-free tissue-culture systems. All three components were B-cell mitogens and induced CSA in spleen-cell cultures. However, in lymphnode-cell cultures the concentrations of these agents required for either mitogenicity or CSA induction differed markedly. Moreover, in contrast to thymidine incorporation, CSA induction was not influenced by pre-irradiation of the cells. Conversely, after removal of phagocytic cells with the iron-magnet technique, CSA was no longer inducible by BCWC, while lymphocyte proliferation was barely impaired. All three BCWC readily induced CSA release in cultures of adherent peritoneal cells without influencing the release of a cytoplasmic enzyme. BCWC-dependent CSA release from adherent peritoneal cells was not influenced by pretratment of the cultures with anti-immunoglobulin, but completely suppressed by preincubation with anti-macrophage-1.2 alloantiserum and complement. CSA induction in macrophage cultures was also achieved with a low-molecular-weight synthetic muramyldipeptide and degradation products of lipoprotein. The results suggest that the induction of CSA is not directly related to the mitogenic, immunogenic, or antigenic properties of the BCWC, but that BCWC-mediated CSA production is caused by a direct “hormone-like” interaction of the agents with mature macrophages.