Melanocyte dysfunctions: future and promise of stem cells.

Abstract

Human melanocytes (MCs) and melanocyte stem cells (McSCs) are integral to skin pigmentation and appendage pigmentation, originating embryonically from neural crest cells. In adult skin, McSCs residing in the epidermis sustain the continuous regeneration of functional melanocytes, a process vital for skin homeostasis and repair. Advances in McSC research have unravelled their pivotal roles in combating disorders such as vitiligo, hair greying, impaired wound healing, and melanoma. Previous studies have significantly advanced our knowledge of the cellular and molecular characteristics of this unique stem cell population. However, a comprehensive understanding of their characteristics in melanocyte dysfunctions leading to conditions like vitiligo is still lacking. Dysfunction or depletion of McSCs is linked to these conditions, highlighting their significance in maintaining skin health. Cutting-edge technologies like single-cell RNA sequencing, spatial transcriptomics, gene editing, and whole-genome sequencing have deepened our understanding of McSC biology and their regulatory microenvironment. This review delves into the latest discoveries, offering a comprehensive perspective on McSCs and their therapeutic potential. By identifying specific molecular signals and crosstalk mechanisms, McSC research opens avenues for regenerative medicine applications, including skin repigmentation, tissue repair, and cancer treatment. The field's progression sets the stage for transformative breakthroughs in skin regeneration and broader regenerative therapies.