Dermal Papilla Cells: From Basic Research to Translational Applications

Dermal Papilla Cells: From Basic Research to Translational Applications

As an appendage of the skin, hair protects against ultraviolet radiation and mechanical damage and regulates body temperature. It also reflects an individual's health status and serves as an important method of expressing personality. Hair loss and graying are significant psychosocial burdens f...

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Bibliographic Details
Published in:Biology (Basel, Switzerland) Vol. 13; no. 10; p. 842
Main Authors: Zhang, He-Li, Qiu, Xi-Xi, Liao, Xin-Hua
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 20-10-2024
MDPI
Subjects:
Cell growth
Cell size
Cell therapy
dermal papillae
Fibroblasts
Follicles
Growth factors
hair cycle
hair loss
mesenchymal stem cells
Morphogenesis
Proteins
Review
Skin
Stem cells
Transcription factors
Translation
Wound healing
hair loss
dermal papillae
hair cycle
cell therapy
mesenchymal stem cells
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Summary:As an appendage of the skin, hair protects against ultraviolet radiation and mechanical damage and regulates body temperature. It also reflects an individual's health status and serves as an important method of expressing personality. Hair loss and graying are significant psychosocial burdens for many people. Hair is produced from hair follicles, which are exclusively controlled by the dermal papilla (DP) at their base. The dermal papilla cells (DPCs) comprise a cluster of specialized mesenchymal cells that induce the formation of hair follicles during early embryonic development through interaction with epithelial precursor cells. They continue to regulate the growth cycle, color, size, and type of hair after the hair follicle matures by secreting various factors. DPCs possess stem cell characteristics and can be cultured and expanded in vitro. DPCs express numerous stemness-related factors, enabling them to be reprogrammed into induced pluripotent stem cells (iPSCs) using only two, or even one, Yamanaka factor. DPCs are an important source of skin-derived precursors (SKPs). When combined with epithelial stem cells, they can reconstitute skin and hair follicles, participating in the regeneration of the dermis, including the DP and dermal sheath. When implanted between the epidermis and dermis, DPCs can induce the formation of new hair follicles on hairless skin. Subcutaneous injection of DPCs and their exosomes can promote hair growth. This review summarizes the in vivo functions of the DP; highlights the potential of DPCs in cell therapy, particularly for the treatment of hair loss; and discusses the challenges and recent advances in the field, from basic research to translational applications.
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These authors contributed equally to this work.
ISSN:2079-7737
2079-7737
DOI:10.3390/biology13100842