Growth and characterization of epithelial cells from normal human uterine ectocervix and endocervix.

The human uterine cervix consists of an endocervical canal lined with a single layer of columnar mucus-secreting cells and an outer ectocervix covered by a stratified squamous epithelium. We report here the culture of human endocervical epithelial cells (HEnE) and human ectocervical epithelial cells (HEcE) in serum-free medium (KGM). Both HEnE and HEcE cultures were composed of keratinocytelike cells which formed desmosomal contacts and stratified in the presence of high concentrations of calcium ions. Cells with a pleomorphic epithelial morphology were observed in HEnE cultures, but not in HEcE cultures. Keratin 18, which is characteristic of endocervix in vivo, was detected by indirect immunofluorescent staining in all HEnE cells but was never detected in cultured HEcE. HEcE expressed keratin 13 which is characteristic of ectocervix in vivo. Although keratin 13 was never detected in primary HEnE cultures, it was expressed in passaged HEnE cultures grown in medium with high concentrations of calcium and in late passage HEnE cultures. HEnE underwent an average of 15.1 population doublings during serial culture. Mean colony-forming efficiency during Passages 2 to 3 was 14.7% and mean population doubling time was 17.8 h. HEcE cultures underwent significantly more population doublings (29.0) than HEnE cultures, whereas colony-forming efficiencies and doubling times were similar to those determined for HEnE. HEnE and HEcE cells may be useful in developing in vitro models of cervical squamous metaplasia and for exploring the interactions between target cell differentiation, carcinogens, and papillomaviruses in the development of cervical neoplasia.