We have established two distinct human cervical cell lines, NCC16 and NCE16, after transfecting human papillomavirus type 16 (HPV16) DNA into normal human ecto-cervical and endo-cervical epithelial cells, respectively. Both lines expressed HPV16 E6 and E7 as detected by reverse transcriptase-polymerase chain reaction and northern blot hybridization. These cells have been passaged for over 100 population doublings and express strong telomerase activity. Neither cell line was tumorigenic in athymic nu/nu mice. However, both NCC16 and NCE16 developed abnormally stratified architectures following implantation with a silicon membrane sheet in the back of athymic nude mice. The former cells were pathohistologically similar to carcinoma, while the latter produced Alcian-blue positive cells, suggesting the occurrence of metaplastic changes. These distinct cell lines offer a useful model system for the study of cervical carcinogenesis and of its regulatory mechanism after HPV infection in different regions of the uterine cervix.