Over-Represented Senescent Keratinocytes in Hyperpigmented Spots Promote Melanocyte Activation via IGFBP3 and NGF

The occurrence and impact of cellular senescence on skin aging and hyperpigmentation is an ongoing area of exploration, encompassing both intrinsic and extrinsic stressors. Traditionally, research has focused on melanocyte and fibroblast senescence due to their slower turnover compared to keratinocytes. In this study, we identified the accumulation of p16, a senescence marker, in keratinocytes from biopsies of multiple spot types. We explored their impact using doxorubicin-induced senescent keratinocytes in vitro. Conditioned media from these senescent keratinocytes stimulated melanocyte dendricity, a hallmark of hyperpigmented spots. Transcriptomic analysis of senescent keratinocytes identified two key senescence-induced factors: Insulin-like Growth Factor-Binding Protein 3 (IGFBP3) and Nerve Growth Factor (NGF). IGFBP3 and NGF ligand treatment enhanced melanin synthesis by 33% and 17%, and dendricity by 23% and 14%, respectively, in human melanocyte cultures. These findings suggest that keratinocyte senescence contributes to spot formation by mediating melanocyte activation through IGFBP3 and NGF. Furthermore, we evaluated skincare ingredients such as sucrose dilaurate, glabridin, and niacinamide in neutral and low pH solutions, demonstrating their efficacy in reducing the secretion of these ligands, thereby offering potential cosmetic benefits. This study provides insights into the mechanisms of spot formation and highlights promising strategies for managing pigmentation disorders.

IGFBP3; NGF; cytokines; hyperpigmented spots; keratinocytes; melanin; melanocyte dendricity; p16; senescence.