Highly purified fractions of isolated endometrial cells can be useful for investigating endometrial function. After a first collagenase digestion, normal human endometrial stromal and epithelial cells were separated by filtration. Glands were purified further by two collagenase digestion steps, filtration, differential sedimentations, and Ficoll gradient centrifugation. Epithelial cells were polyhedral and grew as islands in a whorl-like wavy pattern around glandular fragments. High cell culture purity was confirmed with the positive immunohistochemical reaction against cytokeratin 7,8,18,19. Isolated human glands had a similar distribution pattern of estrogen receptor (ER) and progesterone receptor (PR) as observed in vivo, suggesting that glands have a functional hormone receptor system at the time of plating. Using a specific monoclonal antibody against glycodelin A (GdA), a characteristic cyclical expression was demonstrated during the menstrual cycle. The GdA reaction was weak in the proliferative phase, increasing significantly till the late secretory phase, suggesting a similar GdA concentration in vitro as observed in vivo glands. In conclusion, this method could be a model for studying endometrial glandular cells from different menstrual phases, endometrial cell interactions, implantation mechanisms, GdA regulation mechanisms, and pharmacological or other influences on ER and PR alteration.