CAJ | 학술논문

The non-classical HLA class I antigen HLA-G is an immune modulator which inhibits the functions of T cells,NK cells,and the Dendritic cells (DC).As a result,HLA-G expression in malignant cells may provide them with a mechanism to escape the immune surveillance.In melanoma,HLA-G antigen expression has been found in 30% of surgically removed lesions but in less than 1% of established cell lines.One possible mechanism underlying the differential HLAG expression in vivo and in vitro is that the HLA-G gene is epigenetically repressed in melanoma cells in vitro.To test this hypothesis,we treated the HLA-G negative melanoma cell line OCM-1A with the DNA methyltransferase inhibitor 5-aza-2'-deoxycytidine (5-AC) and analyzed whether HLA-G expression can be restored.Our data strongly suggest that HLA-G is silenced as a result of CpG hypermethylation within a 5' regulatory region encompassing 220 bp upstream of the start codon.After treatment,HLA-G mRNA expression was dramatically increased.Western blot and flow cytometry showed that HLA-G protein was induced.Interestingly,HLA-G cell surface expression on the 5-AC treated OCM-1A cells is much less than that on the HLA-G positive JEG-3 cells while a similar amount of total HLA-G was observed.Possible mechanisms for the difference were analyzed in the study such as cell cold-treatment,peptide loading and antigen processing machinery components (APM) as well as β2 microglobulin (β2-m) expression.Data revealed that the APM component calreticulin might be involved in the lower HLA-G surface expression on OCM-1A cells.Taken together,our results indicated that DNA methylation is an important epigenetic mechanism by which HLA-G antigen expression is modulated in melanoma cells in vitro. Furthermore,to the first time, we hypothesized that the deficiency of calreticulin might be involved in the low HLA-G surface expression on the 5-AC treated OCM-lA cells.