Abstract The biological and molecular mechanisms that underpin the malignant transformation of normal melanocytes to melanomas are largely unknown. In part, this is due to the limited understanding of normal human melanocyte homeostasis and how melanocytes respond to oncogenic insults such as ultraviolet radiation (UVR). This is particularly true for interfollicular epidermal melanocytes, which have the highest levels of UVR exposure and from whence most melanomas are thought to arise. These knowledge gaps impede the development of strategies for active, targeted prevention of melanoma formation. We thus evaluated epidermal melanocytes transcriptionally, phenotypically and functionally after isolating them from human skin. Using single-cell RNA sequencing (scRNA-seq), we identified multiple transcriptionally distinct subpopulations within human epidermal melanocytes. RNA velocity analysis revealed subpopulations in different states of melanocytic differentiation, and immunohistochemistry staining demonstrated their distinct anatomical distribution throughout follicular and interfollicular epidermal compartments. Notably, one melanocyte subgroup, marked by increased expression of neurotrophic receptor tyrosine kinase 2 (NTRK2) and genes associated with ribosome biogenesis, exhibited molecular characteristics of progenitor cells. This subpopulation displayed human embryonic stem cell (hESC)-derived melanoblast markers, and their anatomical localization corresponded to that of intermediate melanocyte progenitors. NTRK2+ melanocytes demonstrated enhanced clonogenicity after UVR exposure in primary cell cultures and in ex vivo whole skin explants. In contrast, NTRK2- melanocytes were suppressed by UVR. Furthermore, scRNA-seq data of ex vivo melanocytes after UVR exposure revealed the upregulation of genes associated with cell proliferation within NTRK2-expressing melanocytes. In mouse back skin, the ratio of Ntrk2+ melanocytes increased within 24 hours of UVB irradiation, suggesting a proliferative response in these cells in vivo following UVR. We thus report the discovery in human epidermis of a putative melanocytic cell hierarchy, and of a candidate melanocyte progenitor subpopulation that responds proliferatively to UVR and is thus a candidate cell of origin of melanoma. Citation Format: Peinan Zhao, Fumihito Noguchi, Christopher Chew, Gamze Kuser Abali, Pacman Szeto, Youfang Zhang, Malaka Ameratunga, Isobel Leece, Jen G. Cheung, Miles Andrews, Nicholas C. Wong, Anthony T. Papenfuss, Mark Shackleton. Molecular and functional characterization of melanocyte subpopulations in human epidermis based on single-cell RNA sequencing [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 867.
Read full abstract