Recently, Pregnancy-Associated Plasma Protein-A (PAPP-A) in human follicular fluid was identified as an insulin-like growth factor binding protein-4 protease (IGFBP-4ase). The ability of IGFBP-4ase to inactivate the FSH antagonist, IGFBP-4, has suggested a possible role for PAPP-A in regulating FSH action. Despite growing interest in this protease, the question of whether the PAPP-A gene is expressed in ovaries of normal cycling women is unknown. To fill this basic gap in our knowledge, we have identified the cellular sites of PAPP-A gene expression in normal human ovaries by in situ hybridization. PAPP-A mRNA was low or undetectable in preantral follicles, small (1-2 mm) healthy and atretic antral follicles, larger atretic antral follicles, surface epithelium, tunica albuginea and connective tissue cells. In contrast, an intense PAPP-A hybridization signal was evident in the healthy antral follicles examined from 5 mm to the preovulatory stage. In these follicles, the signal was restricted to the granulosa cells (GC). An intense signal for PAPP-A mRNA was also present in healthy corpora lutea (CL), being localized to a subset of large luteal cells. Collectively, these results provide the first evidence that the gene encoding PAPP-A is expressed in ovaries of normal cycling women and show that the gene is expressed almost exclusively in healthy GC and CL cells. The restricted pattern of PAPP-A expression in normal human ovaries suggests that PAPP-A may be a functional marker of the dominant follicle and its product, the CL. Although the physiological function of ovarian PAPP-A remains to be identified, we hypothesize it might play a role in controlling survival, growth, and/or differentiation of the dominant follicle and CL by inactivating the gonadotropin antagonist, IGFBP-4.