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Abstract

Local administration of high-dose r-TNFα with IFNγ in the limbs of melanoma patients has proved to be a very promising treatment. To understand the role played by the effect of TNF on melanoma cells in tumor destruction, we have investigated the expression of TNF-receptors in melanoma cells using monoclonal antibodies specific for the type-A (75-kDa) and the type-B (55-kDa) TNF receptors. Flow cytometric analysis of cultured melanoma cells indicated the presence of both types of receptor. Quantificative differences in the relative levels of receptors were observed for different cells lines, although the type-B receptor was generally more strongly expressed. Similar results were obtained by immunohistochemistry on cryosections from tumor samples. Positive staining of variable intensity was observed for the type-B TNF-receptor in a high percentage of tumor cells. The type-A TNF-receptor was also detected, but with a weaker staining. The total TNF-binding activity of cultured melanoma cells, as measured by binding of 125l-labeled TNFα, was up-regulated between 2- and 4-fold by incubation of cells with activators of protein kinase A or IFNγ. Treatment of cultured melanoma cells with dbc-AMP resulted in a selective induction of type-A TNF-receptors, without affecting the type-B receptor level. In contrast, IFN-y was able to induce either type of receptor in a cell-line-dependent fashion. Addition of TNFγ to melanoma cells induced the activation of the nuclear transcription factor KB, as measured in an electrophoretic mobility shift assay, thus indicating the biological significance of the TNF-receptors on these cells. © 1995 Wiley-Liss Inc.