Stress-induced premature senescence of dermal papilla cells compromises hair follicle epithelial-mesenchymal interaction
Journal
Journal of Dermatological Science
Journal Volume
86
Journal Issue
2
Pages
114-122
Date Issued
2017
Author(s)
Huang, Wen-Yen
Huang, Yi-Ching
Huang, Kai-Shin
Tsai, Ren-Yeu
Chan, Jung-Yi
Abstract
Background Hair follicle is miniorgan constituted by keratinocytes and its distinctive mesenchyme of dermal papilla. Its aging is characterized by organ atrophy and impaired stem cell activation and differentiation. The contribution of dermal papilla to hair follicle aging change is not well understood. Objective This work was aimed at exploring the possible role of premature dermal papilla senescence in the pathogenesis of hair follicle aging. Methods Dermal papilla cells were challenged with H2O2 to induce premature senescence and the proliferation, apoptosis, gene expression and protein secretion were characterized. Its effect on epithelial-mesenchymal interaction was analyzed by co-culture in vitro and implantation of protein-coated beads in vivo. Result Dermal papilla cells were more resistant to oxidative stress-induced apoptosis than dermal fibroblasts. The surviving dermal papilla cells showed signs of senescence but still preserved key dermal papilla signature gene expression. In addition to the failure to respond to mitogenic stimulation from keratinocytes, they lost the ability to induce hair follicle neogenesis, promoted interfollicular epidermal differentiation, inhibited follicular differentiation and, importantly, suppressed clonal growth of hair follicle stem cells. They produced higher levels of multiple inflammatory cytokines, including IL-6. Functionally, IL-6 inhibited clonal keratinocyte growth in vitro and blocked the transition from telogen to anagen in vivo. Conclusion Stress-induced premature dermal papilla senescence can contribute to hair follicle aging change due to compromised epithelial-mesenchymal interaction. © 2017 Japanese Society for Investigative Dermatology
Publisher
Elsevier Ireland Ltd
Type
journal article