Abstract
Melanotropin is a peptide having several functions, including the stimulation of melanogenesis and the modulation of proliferation of melanocytes and melanoma cells. It acts through binding to high-affinity receptors of the melanocortin-1 subtype, exclusively expressed in cells of the melanocytic lineage. Elevated levels of immunoreactive alpha-melanotropin were previously reported in melanoma cell lines, tumours and plasma from patients with melanoma. Here, we show that this high ectopic production of melanotropin is restricted to melanoma and non-pituitary tumours with the same neuroectodermic origin. The occurrence of a melanotropin-specific autocrine loop was further investigated in human melanoma cells. Immunoreactive alpha-melanotropin was spontaneously released from a melanoma cell line (HBL) expressing melanotropin receptors on the cell surface. This release was significantly increased in the presence of melanotropin-related peptides such as corticotropin-(4-10)-peptide and beta-melanotropin, competing for binding to the melanotropin receptor and was directly correlated to the displacement potential of these peptides. Both spontaneous and induced releases of immunoreactive alpha-melanotropin could be blocked at low temperatures, suggesting the involvement of intracellular protein movement in the release mechanism. The release of immunoreactive alpha-melanotropin was not significant in melanoma cells expressing very low levels of melanotropin receptors (IGR3) or in non-melanoma cells (SCC1). However, upon expression of the melanocortin-1 receptor cDNA into IGR3 cells, spontaneous and competition-induced releases of immunoreactive alpha-melanotropin were both increased and also blocked at low temperatures. This observation further underlines a role for the melanotropin receptor in the release of immunoreactive alpha-melanotropin. These experiments indicate that an autocrine loop between the melanocortin-1 receptor and immunoreactive alpha-melanotropin may be functional in human melanoma cells.
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