Oviduct and uterus are key female reproductive organs lined by ciliated simple columnar epithelia, which are the first line of maternal contact with gametes and the developing embryo during reproduction and which warrant the optimal developmental environment for the conceptus. A major challenge for modeling these epithelia in vitro is the preservation of apical-basal polarization and cilia formation. The air-liquid interface (ALI) culture approach is a technology originally invented for modeling epidermal and airway epithelia. It has recently been shown that it also allows the establishment of highly differentiated in vitro models of epithelia that do not have access to ambient air in vivo. In this chapter, we present a comprehensive ALI procedure to model female reproductive tract (FRT) epithelia of different mammalian species in vitro over extended time periods. As a working example, the protocol focuses on primary oviductal epithelial cells (OEC) isolated from domestic pig. Hints on protocol variations for the culture of OEC from other species are provided in the Subheading 4.
Keywords: Air–liquid interface; Apical–basal polarization; Cilia; Differentiation; Epithelium; Female reproductive tract; In vitro model; Oviduct.