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Abstract
Interactions with the extracellular matrix constitute basic steps in cervix carcinoma cell invasion. In this study, we examined the adhesion and migration profiles of two human papillomavirus (HPV) DNA-transfected keratinocyte-derived cell lines, EIL8 and 18-11 S3, and of the cervix adenocarcinoma SiHa cell line, towards laminin-1, and the selective effect of a 24-72 h treatment of 1000 U/ml interferon-γ (IFN-γ) and tumor necrosis factor-α (TNF-α), a treatment that significantly decreases cervix carcinoma cell proliferation and progression in nude mice, on these parameters. Compared to normal cervix keratinocytes (CK) and two HPV DNA-transfected keratinocyte cell lines, in basal conditions, the SiHa cell line was characterized by increased attachment (SiHa, 48.74 ± 4.02 vs. normal keratinocytes, 4.32 ± 0.40, EIL8,17.80 ± 3.03 and 18-11S3,17.82 ± 1.48% of attached cells after 30min) and marked directed chemotactic migration towards laminin-1. Interestingly, treatment of the cells with the cytokines (1000U/ml IFN-γ and TNF-α) did not modulate the adhesion properties of the cells, but chemotactic migration of SiHa cells to laminin-1 was significantly decreased, while migration towards type I collagen was increased. Similar results were obtained with the Ca Ski cervix carcinoma cell line. Our results emphasize the altered pattern of interactions of cervix carcinoma cells with extracellular matrix components such as laminin-1, compared to normal and preneoplastic cells, and contributes to the understanding of the effects of cytokine treatment on cervix carcinoma cells.