Modulation of the Antigenic Phenotype of Human Melanoma Cells by Differentiation-inducing and Growth-suppressing Agents

Summary Tumor cells often display alterations in their normal program of cellular differentiation. A promising approach for the treatment of cancer involves the induction of terminal differentiation and a loss of proliferative capacity in cancer cells. In human melanoma cells, the combination of mezerein (MEZ) and fibroblast interferon (IFN-β), results in a rapid and irreversible suppression of cell growth with a concomitant increase in the synthesis of melanin. The induction of terminal differentiation is associated with alterations in the expression of several cellular genes, including fibronectin, ISG-15 and ISG-54, and changes in the expression of specific cell surface antigens, including intercellular adhesion molecule-1 (ICAM-1) and HLA Class I antigens. In the HO-1 human melanoma cell line, induction of terminal differentiation by MEZ plus IFN-β results in an induction and/or increased expression of ICAM-1. HLA Class I antigens and HLA Class II antigens. IFN-β and MEZ alone can modulate expression of these antigens to a lower extent than does the combination of compounds. Induction of terminal differentiation and the irreversible suppression of cell growth is not a prerequisite for antigenic modulation in HO-1 cells. This is indicated by the inability of immune interferon (IFN-γ), a strong inducer of ICAM-1, HLA Class I antigens and HLA Class II antigens synthesis, or the combination of IFN-β plus IFN-γ which synergistically but reversibly suppresses HO-1 growth. to induce melanin synthesis or terminal differentiation in HO-1 cells. The inhibitor of protein kinase C, H-7, only marginally alters 72 hr growth suppression induced by MEZ or the interferons, used alone or in combination. In several experiments, H-7 only partially and variably inhibited the enhanced expression of ICAM-1, HLA Class I antigens and HLA Class II antigens in HO-1 cells treated with MEZ. IFN-β or IFN-γ, used alone or in various combinations. This model system will be useful in defining the biochemical, genomic and antigenic changes associated with the chemical induction of terminal differentiation and the loss of proliferative capacity in human melanoma cells.