Abstract
The conversion of melanocytes into cutaneous melanoma is largely dictated by the effects of solar ultraviolet radiation (UVR). Yet to be described, however, is exactly how these cells are affected by intense solar UVR while residing in their natural microenvironment, and whether their response differs in persons with a history of melanoma when compared to that of healthy individuals. By using laser capture microdissection (LCM) to isolate a pure population of melanocytes from a small area of skin that had been intermittingly exposed or un-exposed to physiological doses of solar UVR, we can now report for the first time that the majority of UV-responsive microRNAs (miRNAs) in the melanocytes of a group of women with a history of melanoma are down-regulated when compared to those in the melanocytes of healthy controls. Among the miRNAs that were commonly and significantly down-regulated in each of these women were miR-193b (P<0.003), miR-342-3p (P<0.003), miR186 (P<0.007), miR-130a (P<0.007), and miR-146a (P<0.007). To identify genes potentially released from inhibition by these repressed UV-miRNAs, we analyzed databases (e.g., DIANA-TarBase) containing experimentally validated microRNA-gene interactions. In the end, this enabled us to construct UV-miRNA-gene regulatory networks consisting of individual genes with a probable gain-of-function being intersected not by one, but by several down-regulated UV-miRNAs. Most striking, however, was that these networks typified well-known regulatory modules involved in controlling the epithelial-to-mesenchymal transition and processes associated with the regulation of immune-evasion. We speculate that these pathways become activated by UVR resulting in miRNA down regulation only in melanocytes susceptible to melanoma, and that these changes could be partially responsible for empowering these cells toward tumor progression.
Highlights
Cutaneous melanoma arises from the malignancy of melanocytes, a specialized cell that is responsible for the pigmentation and photo protection of human skin
Approximately 3000 irradiated or un-irradiated melanocytes were captured by laser capture microdissection (LCM) from the same tissue samples that were used in the microarray study
Each of the individuals in these two groups were importantly tested for their sensitivity to Simulated solar ultraviolet radiation (ssUVR) by determining the lowest dose of irradiation at which sunburn would occur on their skin (MED)
Summary
Cutaneous melanoma arises from the malignancy of melanocytes, a specialized cell that is responsible for the pigmentation and photo protection of human skin. Uses of mouse models for UVR-induced melanoma have recently revealed that UVR-induced inflammation can promote melanocytic cell survival, immune-evasion [6], and the metastatic dissemination of melanoma cells [7]. These new studies underscore the importance of UVR’s contribution to the development of melanoma, the molecular mechanisms by which UVR permanently alters the homeostasis of a melanocyte that may be prone to malignant transformation remain unknown
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