Methylation status of the E2 binding sites of HPV16 in cervical lesions determined with the Luminex® xMAP™ system.

Cervical carcinogenesis is driven by deregulated E6/E7 expression in dividing cells. A potential deregulating mechanism is methylation of E2 binding sites in the viral long control region, thereby prohibiting HPVE2-mediated transcription regulation. Here the frequency of HPV16E2BS methylation in cervical lesions (SCC, n=29; CIN3, n=17) and scrapes (controls, n=17; CIN3, n=21) was investigated.

hTERT promoter activity and CpG methylation in HPV-induced carcinogenesis.

Background: Activation of telomerase resulting from deregulated hTERT expression is a key event during high-risk human papillomavirus (hrHPV)-induced cervical carcinogenesis. In the present study we examined hTERT promoter activity and its relation to DNA methylation as one of the potential mechanisms underlying deregulated hTERT transcription in hrHPV-transformed cells.

Methods: Using luciferase reporter assays we analyzed hTERT promoter activity in primary keratinocytes, HPV16- and HPV18-immortalized keratinocyte cell lines and cervical cancer cell lines.

Association between dense CADM1 promoter methylation and reduced protein expression in high-grade CIN and cervical SCC.

We previously showed that silencing of TSLC1, recently renamed CADM1, is functionally involved in high-risk HPV-mediated cervical carcinogenesis. CADM1 silencing often results from promoter methylation. Here, we determined the extent of CADM1 promoter methylation in cervical (pre)malignant lesions and its relation to anchorage-independent growth and gene silencing to select a CADM1-based methylation marker for identification of women at risk of cervical cancer.