The Ah receptor is a ligand-activated transcription factor that mediates many of the biological actions of a large class of environmental compounds. Support for a role of the Ah receptor in normal physiology also has been reported, but an endogenous regulating ligand has not been identified. We have examined candidate endogenous lipophilic substances and report here the ability of the arachidonic acid metabolite, lipoxin A4, to bind to and activate the Ah receptor in Hepa-1 cells. Lipoxin A4 produced a concentration-dependent response in a DRE-driven CAT reporter construct, with a greater than 10-fold increase in CAT activity at 0. 3 microM. Lipoxin A4 transformed the Ah receptor to an active DRE-binding form in a concentration-dependent manner as indicated by gel mobility shift analysis. Results of Ah receptor competitive binding experiments indicated that at a concentration of 100 nM, lipoxin A4 produced a half-maximum displacement (EC50) of [3H]TCDD binding. Results of Northern blot analyses indicated a transient increase in mRNA levels of the Ah receptor-responsive gene CYP1A1, which peaked at 4 h, consistent with the kinetics observed for lipoxin A4-induced CYP1A1 enzyme activity. Further, lipoxin A4 was found to be a competitive inhibitor for the CYP1A1 enzyme, with a calculated Ki = 1.1 microM. These results establish lipoxin A4 as a new class of Ah receptor ligand, one that differs dramatically from classical Ah receptor ligands.