Systemic exposure to LPS initiates a complex sequence of events culminating in organ-specific leukocyte recruitment and end organ injury. We hypothesized that RANTES, a C-C chemokine with potent M phi (mononuclear phagocyte) chemotactic activity, is expressed in vivo in response to endotoxemia, and that this protein may play an important role in the recruitment of M phi to the lung. CD-1 mice were challenged with LPS (200 micrograms), resulting in a maximal fourfold increase in polymorphonuclear leukocyte (neutrophils) at 6 h post LPS, and a 2.4-fold increase in numbers of M phi within lung minces at 24 h. A time-dependent increase in RANTES mRNA was detected in lung after LPS treatment, whereas minimal quantities of RANTES mRNA were detected in blood buffy coats and liver. Furthermore, treatment with LPS resulted in time-dependent increase in RANTES protein within lung homogenates, with immunolocalization to alveolar epithelial cells. The pretreatment of mice with goat anti-RANTES Ab significantly inhibited the influx of lung M phi, but not polymorphonuclear leukocyte and lymphocytes, at 24 h post-LPS challenge. Lastly, the pretreatment of animals with soluble TNF receptor: Ig construct 2 h before LPS resulted in a 60% reduction in steady state levels of RANTES mRNA within lung homogenates at 4 h post-LPS. Our observations suggest that RANTES represents an important mediator of lung M phi recruitment in the setting of endotoxemia, and that the expression of RANTES in vivo is dependent upon the endogenous production of TNF.