Abstract
Epigenetic inactivation of tumor-related genes is an important characteristic in the pathology of human cancers, including melanomagenesis. We analyzed the epigenetic inactivation of Claudin 11 (CLDN11) in malignant melanoma (MM) of the skin, including six melanoma cell lines, 39 primary melanoma, 41 metastases of MM and 52 nevus cell nevi (NCN). CLDN11 promoter hypermethylation was found in 19 out of 39 (49%) of the primary MM and in 21 out of 41 (51%) of the MM metastases, but only in eight out of 52 (15%) of NCN (p = 0.001 and p = 0.0003, respectively). Moreover, a significant increase in the methylation level of CLDN11 from primary melanomas to MM metastases was revealed (p = 0.003). Methylation of CLDN11 was significantly more frequent in skin metastases (79%) compared to brain metastases (31%; p = 0.007). CLDN11 methylation was also found in five out of six MM cell lines (83%) and its promoter hypermethylation correlated with a reduced expression. Treatment of MM cell lines with a DNA methylation inhibitor reactivated CLDN11 transcription by its promoter demethylation. In summary, CLDN11 proved to be an epigenetically inactivated tumor related gene in melanomagenesis, and analysis of CLDN11 methylation level represents a potential tool for assisting in the discrimination between malignant melanoma and nevus cell nevi.
Highlights
Malignant melanoma is a malignant skin cancer showing a rising incidence worldwide [1]
Hypermethylation of Claudin 11 (CLDN11) has been reported in primary melanomas [9], its epigenetic regulation was not analyzed in detail
To reveal the epigenetic status of CLDN11 in malignant melanoma (MM) cell lines, we have analyzed its aberrant methylation in buf1280, C8161, IGR1, MeWo, SKMEL13, SKMEL28, lung cancer (A549), cervix cancer (HeLa) and human fibroblast (HF) by COBRA (Figure 1b)
Summary
Malignant melanoma is a malignant skin cancer showing a rising incidence worldwide [1]. Several molecular pathways have been found altered in melanocytic tumors including the MAPK pathway, the p16INK4a /RB pathway and the Hippo/Ras Association Domain Family (RASSF) pathway [2,3,4] Aberrant regulation of these pathways is accomplished through inactivation of tumor suppressor genes (e.g., RASSF10) and activation of proto-oncogenes (e.g., BRAF) [5,6]. Apart from mutation, the epigenetic silencing of tumor suppressor genes is a frequent and fundamental event in the pathogenesis of cancer, including melanomagenesis [7,8]. This inactivation is achieved by hypermethylation of CpG island promoters in malignant melanoma.
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