Primary human oral keratinocytes were transformed by transfection with recombinant human papillomavirus type 16 (HPV-16) DNA, and two transformed cell lines named human oral keratinocytes-16A and -16B (HOK-16A and HOK-16B) were established. While normal cells and cells transfected with vector only exhibited a limited lifespan, the HOK-16A and HOK-16B lines demonstrated immortality and altered morphology from their normal counterpart. The HOK-16A and HOK-16B lines contained approximately 40 and approximately 25 copies of intact HPV-16 DNA as integrated form per cell respectively, and both cell lines expressed several viral specific poly(A+) RNAs. Notably these cell lines also overexpressed cellular myc proto-oncogene in comparison with the normal counterpart. However, the immortalized cell lines were not able to produce tumors in nude mice, indicating that the cells are partially transformed. The HOK-16A and HOK-16B lines are, therefore, useful for investigating the multistep molecular events of oral carcinogenesis.
Human keratinocytes and fibroblasts isolated from foreskin were transformed by transfection with recombinant human papillomavirus type 16 (HPV16) DNA. The transformed cells exhibited an extended (fibroblasts) or indefinite (keratinocytes) lifespan compared with that of normal controls. In addition, HS27, a human fibroblast cell line previously transfected with origin-defective simian virus 40, was successfully transfected. HPV16 sequences were stably maintained in the cells, and extensive amplification and rearrangements occurred with continuous culturing. Moreover, both fibroblasts and keratinocytes expressed several specific HPV16 mRNAs. Because HPV16-transfected cells had viral transcripts and because transfection with the vector alone did not extend the lifespan of the cells, it is likely that the virus was responsible for the indefinite lifespan. Transfected fibroblast and keratinocyte lines will be useful for investigating the molecular biology of HPV16 and the interactions between the viral DNA and the human genome. Moreover, transfected keratinocytes provide a model for analyzing the effects of HPV16 on the differentiation properties of human epithelial cells.
Immortalization of human keratinocytes (HKc) by human papillomavirus type 16 (HPV16) is reproducible at a high frequency, is due directly to the presence of the viral sequences in the cells, and occurs independently from the genetic characteristics of the host cells. Ten human keratinocyte strains, each derived from a different individual, were transfected with pMHPV16d and selected with G418. Eight became established lines. Two strains, which failed to grow shortly after successful G418 selection, were negative for HPV16 DNA. No lines were established following transfection of the same HKc strains with vector sequences only. The immortalized lines maintained a constant number of copies of the viral genome integrated into the cellular DNA. Each line showed a unique integration pattern of HPV16 sequences into the cellular genome, but expressed similar patterns of viral messages. Sublines able to grow in the absence of growth factors (epidermal growth factor and bovine pituitary extract), and others which became resistant to differentiation stimuli (serum and calcium) were obtained by selection in growth factor-free medium and serum-supplemented medium, respectively. The establishment of continuous cell lines is a direct consequence of the presence of viral sequences; however, because none of these lines formed tumors in nude mice, additional events must be necessary for progression of malignancy. HPV16-immortalized human keratinocyte lines can be used to investigate and identify the viral factors involved with the modification of growth and differentiation control by HPV16.
Normal human foreskin keratinocytes cotransfected with the neomycin resistance gene and recombinant human papillomavirus (HPV) DNAs (types 16, 18, 31, and 33) that have a high or moderate association with cervical malignancy acquired immortality and contained integrated and transcriptionally active viral genomes. Only transcripts from the intact E6 and E7 genes were detected in at least one cell line, suggesting that one or both of these genes are responsible for immortalization. Recombinant HPV DNAs with low or no oncogenic potential for cervical cancer (HPVla,-5,-6b, and-11) induced small G418-resistant colonies that senesced as did the nontransfected cells. These colonies contained only episomal virus DNA; therefore, integration of HPV sequences is important for immortalization of keratinocytes. This study suggests that the virus-encoded inmortalization function contributes to the pathogenesis of cervical carcinoma.
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