Abstract

Understanding pigmentation regulations taking into account the original skin color type is important to address pigmentary disorders. Biological models including adult melanocytes from different phenotypes allow to perform fine-tuned explorative studies and support discovery of treatments adapted to populations' skin color. However, technical challenges arise when trying to not only isolate but also amplify melanocytes from highly pigmented adult skin. To bypass the initial isolation and growth of cutaneous melanocytes, we harvested and expanded fibroblasts from light and dark skin donors and reprogrammed them into iPSC, which were then differentiated into melanocytes. The resulting melanocyte populations displayed high purity, genomic stability, and strong proliferative capacity, the latter being a critical parameter for dark skin cells. The iPSC-derived melanocyte strains expressed lineage-specific markers and could be successfully integrated into reconstructed skin equivalent models, revealing pigmentation status according to the native phenotype. In both monolayer cultures and 3D skin models, the induced melanocytes demonstrated responsiveness to promelanogenic stimuli. The data demonstrate that the iPSC-derived melanocytes with high proliferative capacity maintain their pigmentation genotype and phenotypic properties up to a proper integration into 3D skin equivalents, even for highly pigmented cells.

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