Specifically sensitized lymphocytes have a focusing influence on mononuclear phagocytes that is expressed in the local accumulation and division of macrophages in bacteria-induced exudates. This was demonstrated by injecting Listeria monocytogenes into the peritoneal cavity of normal rats immediately before the animals were transfused with thoracic duct lymphocytes from either Listeria-immune donors or donors that had been infected with the unrelated parasite, Francisella tularensis. Sensitized lymphocytes originally present in the intravenous inocula were found later in the exudates. The arrival in the inflamed peritoneal cavity of specifically sensitized lymphocytes was associated with an exuberant influx of newly formed host cells and a local proliferative response that involved both immunoblasts and macrophages. These cytokinetic observations provide a plausible explanation of the delayed inflammatory response induced by the parasite, and imply that sensitized lymphocytes contribute to the host's defence by encouraging the prompt and purposeful deployment of monocyte-derived macrophages in centers of infection. In addition to their focusing influence on mononuclear phagocytes, specifically sensitized lymphocytes or their products can enhance the metabolic and microbicidal activity of macrophages. This activation process was revealed in the ability of rats infected with L. monocytogenes or BCG to control the growth of F. tularensis at a challenge site in the testis. But resistance was expressed only when the challenge organisms were injected with killed bacteria against which the recipients had been specifically immunized. The results accord with the view that macrophages are functionally activated by an immunological mechanism, and imply that the process is triggered locally by sensitized lymphocytes which are recruited from the blood.