??2-Microglobulin gene mutations in human melanoma cells

Abstract

In recent years, the mechanisms underlying defects in the expression/function of human leukocyte antigen (HLA) class I antigens have been analyzed in an increasing number of melanoma cells, since these abnormalities are likely to have a negative impact on T-cell-based immunotherapy of melanoma. This article reviews the information about the molecular defects found in melanoma cell lines that do not express HLA class I antigens, following a concise description of the structure and assembly of HLA class I antigens. Distinct defects ranging from large deletions to point mutations in beta2-microglobulin genes have been found in melanoma cells. A mutation in an 8 base-pair CT repeat region of exon 1 has been found frequently in melanoma cell lines suggesting that this region of the beta2-microglobulin gene is a hot-spot for mutations. The effects of beta2-microglobulin mutations are mostly at the level of translation, emphasizing the importance of analyzing beta2-microglobulin expression at the protein level in melanoma lesions without detectable HLA class I antigen expression. Interestingly, many melanoma cell lines have additional defects that directly impact HLA class I antigen expression. Therefore, multiple mechanisms that affect the expression/function of HLA class I antigens appear to be available to melanoma cells to escape from immune recognition.