Journal
EXPERIMENTAL DERMATOLOGY
Volume 18, Issue 11, Pages 934-938Publisher
WILEY
DOI: 10.1111/j.1600-0625.2009.00933.x
Keywords
beta 1; 6-branched oligosaccharides; glycosylation; invasion and metastasis; melanoma; melanoma-macrophage fusion; pigmentation
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Funding
- Amway Corporation
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Cutaneous malignant melanomas often exhibit pigmented regions that are darker than the surrounding skin. While melanoma cells are the original source of the melanin, keratinocytes and melanophages also contribute to the tumor colour because they contain melanin obtained from melanoma cells. However, little is known of the origin of darkly pigmented melanoma cells or of the molecular pathways regulating their melanin production. Here we discuss observations that dark melanoma cells emerge from within populations of melanoma in situ and that, in addition to producing abundant dark pigment, they appear to be undergoing autophagy. Moreover, autophagy appears to be a common trait of invasive melanoma cells in the dermis. The underlying cause of this phenomenon may stem from aberrant production of glycosylation structures known as beta 1,6-branched oligosaccharides. Our studies of dark cutaneous melanomas were prompted by analyses of experimental mouse macrophage-melanoma hybrids fused in the laboratory. Like melanoma cells in cutaneous malignant melanoma, experimental hybrids also displayed abundant dark pigment and autophagy, and had high levels of beta 1,6-branched oligosaccharides. Whether or not darkly pigmented malignant melanoma cells originate from fusion with macrophages in vivo remains to be determined. In any event, pigmentation in melanoma, long considered as a secondary aspect of the malignancy, may be a visible warning that the cells have gained competence for invasion and metastasis.
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