Nerve growth factor (NGF) is a potent mediator of inflammatory hyperalgesia, in addition to roles in the development and maintenance of neurons. We provide evidence for the novel concept that microvascular endothelial cells play a critical primary role in NGF-mediated events that lead to inflammatory hyperalgesia in rat skin. We show that, surprisingly, neutrophils are not directly activated by NGF, although local administration of NGF mediates thermal hyperalgesia via mechanisms involving concomitant neutrophil accumulation. The co-administration of actinomycin D with NGF negated both neutrophil accumulation and thermal hyperalgesia, indicating the dependence of NGF on local de novo protein synthesis. More significantly, an antibody against the endothelial-derived adhesion molecule ICAM-1 also blocked neutrophil accumulation and thermal hyperalgesia. Finally the ability of NGF to stimulate ICAM-1 in human cultured umbilical vein endothelial cells is shown. We propose that NGF acts primarily to activate endothelial cells and that this response is essential for the ensuing neutrophil accumulation and hyperalgesia. The findings reveal a central role of the endothelial cell in initiating NGF-dependent inflammatory hyperalgesia and emphasize the importance of further investigations aimed at examining the feasibility of new therapeutic strategies that target NGF.