Skin, as the body's largest organ, acts as the primary defense mechanism against infection and injury. The maintenance of skin health heavily relies on the regulation of epidermal stem cells, crucial for ensuring epidermal homeostasis, hair regeneration, and the repair of epidermal injuries. Recent studies have placed a growing emphasis on G protein-coupled receptor (GPCR) in the context of understanding epidermal stem cells, uncovering its significant role in determining their fate. The activation of GPCR triggers the subsequent dissociation of the βγ subunits from the α subunit of G protein, leading to the modulation of various downstream signaling pathways, such as the WNT-BMP signaling crosstalk and the Gαs-PKA signaling pathway. These pathways collectively influence the fate of epidermal stem cells. Consequently, targeted GPCR therapy has emerged as a promising strategy for improving skin health by orchestrating the fate of epidermal stem cells, unveiling potential therapeutic targets that demand further investigation.
Humans ; Stem Cells/cytology* ; Receptors, G-Protein-Coupled/physiology* ; Animals ; Epidermal Cells/physiology* ; Signal Transduction ; Epidermis/physiology* ; Skin/cytology*

Epidermal stem cells play an pivotal role in skin self-renewal, wound repair, and re-epithelialization process. The emergence of new technologies and concepts such as single-cell sequencing and gene knockout further revealed a new mechanism of epidermal stem cells in epidermal self-renewal and wound repair, providing new ideas for wound repair. In this review, the mechanisms of proliferation, differentiation, and migration of epidermal stem cells are discussed. Combined with the analysis of researches on stem cell heterogeneity and cell plasticity, the physiological function of epidermal stem cells can be further understood. The application advances of epidermal stem cells in wound repair is also summarized, which would provide some advice for workers engaged in clinical and basic research on wound repair.
Epidermal Cells/physiology* ; Epidermis ; Humans ; Re-Epithelialization ; Skin ; Soft Tissue Injuries ; Stem Cells

This study was conducted to identify the effectiveness of platelet-rich plasma (PRP) and efficacy of intralesional injection as a method of application to acute cutaneous wounds in dogs. Healthy adult beagles (n = 3) were used in this study. Autologous PRP was separated from anticoagulant treated whole blood in three dogs. Cutaneous wounds were created and then treated by intralesional injection of PRP in the experimental group, while they were treated with saline in the control group on days 0, 2 and 4. The healing process was evaluated by gross examination throughout the experimental period and histologic examination on day 7, 14 and 21. In PRP treated wounds, the mean diameter was smaller and the wound closure rate was higher than in the control. Histological study revealed that PRP treated wounds showed more granulation formation and angiogenesis on day 7, and faster epithelialization, more granulation formation and collagen deposition were observed on day 14 than in control wounds. On day 21, collagen deposition and epithelialization were enhanced in PRP treated groups. Overall, PRP application showed beneficial effects in wound healing, and intralesional injection was useful for application of PRP and could be a good therapeutic option for wound management in dogs.
Animals ; Collagen/metabolism ; Dermis/cytology/injuries/physiology ; Dogs ; Epidermis/cytology/injuries/*physiology ; Female ; Granulation Tissue/cytology ; Injections, Intralesional/veterinary ; Male ; Neovascularization, Physiologic ; *Platelet-Rich Plasma ; Regeneration ; Treatment Outcome ; *Wound Healing ; Wounds and Injuries/therapy/*veterinary

To explore the role of dentritic epidermal T lymphocytes ( DETCs) in immune rejection of skin allograft in mice and its related mechanism. Methods (1) Full-thickness skin was harvested from back of one male wild type (WT) C57BL/6 mouse. Epithelial cells were isolated for detection of the expression of DETCs and their phenotype with flow cytometer. Another male WT C57BL/6 mouse was used to harvest full-thickness skin from the back. Epidermis was isolated for observation of the morphological characteristics of DETCs with immunofluorescence technology. (2) Four male green fluorescence protein (GFP)-marked C57BL/6 mice, 7 female WT C57BL/6 mice (group WT), and 7 female ybT lymphocytes 8 gene knock-out (GK) C57BL/6 mice (group GK) were used. Full-thickness skin in the size of 1.4 cm x 1.4 cm on the back of mice in groups WT and GK were excised, and the wounds were transplanted with full-thickness skin in the size of 1.2 cm x 1.2 cm obtained from male GFP-marked C57BL/6 mice. The survival time of skin grafts was affirmed with small animal in vivo imager and naked eyes and recorded. (3) Two male WT C57BL/6 mice were used to isolate epithelial cells. Cells were inoculated into 48-well plate and divided into activation group (A) and control group (C) according to the random number table, with 4 wells in each group. Cells in group A were treated with 10 pL concanavalin A in the concentration of 2 microg/mL for 24 hours, while those in group C with PBS in the same volume as that in group A. The expression of interferon y in DETCs was detected with flow cytometer. (4) Four male GFP-marked C57BL/6 mice were used as donors. Fourteen female WT C57BL/6 mice were used as receptors and divided into interferon gamma neutralizing group (IN) and control group (C) according to the random number table, with 7 mice in each group. The skin transplantation model of C57BL/6 male to C57BL/6 female was established as in part (2). Before surgery and 72 hours after, mice in group IN were intraperitoneally injected with 200 pL interferon y neutralizing antibody in the concentration of 1 mg/mL, and those in group C with normal saline in the same volume as that in group IN. The survival time of skin grafts was observed and recorded using the methods in part (2), and the result of group IN was compared with that of group GK in part (2). The survival curve of skin grafts was processed with Log-rank ( Mantel-Cox) test. Results (1) The positive expression rate of DETCs in epithelial cells of skin in mouse was 7.27%, and they were all CD3 cells. DETCs were found to be scattered in the epidermis of skin in mouse with dendritic morphology. (2) The survival time of skin grafts of mice in group GK was 22-35 d, obviously longer than that in group WT (12-16 d, y2 = 14. 10 , P < 0.001). (3) Expression of interferon gamma was detected in 22. 70% DETCs in group A, which was obviously higher than that in group C (0.51%). (4) The survival time of skin grafts of mice in group IN was 19-24 d, which was obviously longer than that in group C (12-16 d, chi 2 = 13.60, P < 0.001) but close to that in group GK as in part (2) (chi2 = 0.06, P = 0.810). Conclusions DETCs are involved in promotion of immune rejection of skin allograft probably by secretinf interferon gamma.
Allografts ; Animals ; Epidermis ; Female ; Graft Survival ; immunology ; physiology ; Interferon-gamma ; immunology ; metabolism ; Lymphocytes ; Male ; Mice ; Mice, Inbred C57BL ; Skin ; Skin Transplantation ; T-Lymphocytes ; immunology

PURPOSE: The study was done to explore variations in physiologic parameters of the stratum corneum (SC) of the dorsal hand and cord area during early days of life in high-risk newborns. METHODS: In this longitudinal study, a total of 77 high-risk newborns were assessed for pH, temperature and hydration of the SC of the dorsal hand and the cord area on the 1st, 2nd, 3rd, 5th and 7th days of life. RESULTS: Results showed that an acid mantle (AM) was formed in 57.1% for dorsal hand and 35.1% for cord area, implying significant delay regardless of decrease in pH (F=103.60, p<.001), and hydration (F=4.00, p=.003) across days in both areas. Peripheral hypothermia with low hydration level was also observed in both areas. There was a positive relation between hydration and temperature (.14 Anti-Bacterial Agents/pharmacology ; Birth Weight ; Body Water ; Epidermis/drug effects/*physiology ; Female ; Hand ; Humans ; Hydrogen-Ion Concentration ; Infant, Newborn ; Longitudinal Studies ; Male ; Temperature ; Time Factors ; Umbilical Cord/drug effects/*physiology

Tight junction (TJ) is recognized as a second barrier of the skin. Altered expression of TJ proteins in various skin diseases characterized by the abnormal permeability barrier such as psoriasis suggests that TJ could be affected by stratum corneum (SC) barrier status. However, the physiological relationship between SC and TJ barrier remains to be investigated. Therefore, we examined the effect of SC barrier disruption on the expression of TJ proteins, claudin (Cldn)-1 and Cldn-4, and TJ barrier function in hairless mouse skin. We also investigated whether the alterations in epidermal Ca2+ affected TJ proteins expression in vivo. Repeated tape-stripping induced a sequential change of the expression and function of TJ. As early as 15-30 minutes after tape-stripping, downregulation of Cldn-1 and Cldn-4 immunoreactivity and protein level without change in mRNA level was found. This was accompanied by the abnormal leakage of lanthanum. However, by 1 hour Cldn-1 and Cldn-4 immunolocalization recovered along with normalized lanthanum permeation pattern. Moreover, the mRNA and protein levels of Cldn-1 and Cldn-4 were increased by 1 to 6 hours after tape-stripping. Inhibition of calcium loss by immersion of barrier-disrupted skin into a high Ca2+ solution prevented the dislocation of Cldn-1 and Cldn-4. Occlusion of barrier-disrupted skin delayed the restoration of Cldn-1 and Cldn-4. Our results suggest that the alteration of epidermal Ca2+ gradient caused by SC barrier perturbation affects the TJ structure and function and the faster recovery of TJ as compared to the SC barrier may imply the protective homeostatic mechanism of skin barrier.
Animals ; Calcium/*metabolism ; Claudin-1/genetics/*metabolism ; Claudin-4/genetics/*metabolism ; Epidermis/metabolism/*physiology ; Female ; Gene Expression Regulation ; Mice ; Mice, Hairless ; Permeability ; RNA, Messenger/metabolism ; Tight Junctions/metabolism/*physiology

Wnt signaling pathway is a complex protein interaction network, and its function can most commonly or often be seen in embryonic development and cancer treatments, and meanwhile it is also involved in normal physiological processes in adult animals. Recently, with the rapid development of skin tissue engineering, there have been more and more researches on signal pathway in skin wound healing. At present, it is known that Wnt signaling pathway plays a vital role in the epidermal stem cells, epidermal growth factors, hair follicle development and other important factors related to the epidermal repair. The systemic research on Wnt signaling pathway has important clinical significance in the demonstration and functional process of the skin tissue. In this paper, we review the research development of the Wnt signaling pathway in the epidermal repair process.
Epidermal Growth Factor ; metabolism ; Epidermis ; cytology ; injuries ; Humans ; Stem Cells ; cytology ; Wnt Signaling Pathway ; physiology ; Wound Healing ; physiology

OBJECTIVETo evaluate the effects of epicutaneous application of anticoagulant warfarin, by examining the presence of tissue injury and immune/inflammatory activity in exposed skin.

METHODSRats were exposed to warfarin by applying 10 μg of warfarin-sodium to 10-12 cm(2) skin (range 0.8-1 μg per 1 cm(2)) for 3 consecutive days. Tissue injury was evaluated by lipid peroxidation, histomorphological changes and signs of reparative activity in skin. T cell infiltration and selected aspects of epidermal cell activity were examined as indicators of immune/inflammatory skin response to warfarin application.

RESULTSRepeated warfarin application exerted no effect on skin metabolic viability, but resulted in tissue injury (increased malondialdehyde, MDA, production, evident histo-morphological changes in epidermis and dermis depicting cell injury and death). Increased numbers of proliferating cell nuclear antigen (PCNA(+)) cells indicated reparative processes in injured skin. Infiltration of CD3(+) cells (T lymphocytes) along with the increased production of tumor necrosis factor-a (TNF-a) by epidermal cells from warfarin-treated skin and their co-stimulatory effect in an in vitro T-cell activation assay demonstrated immunomodulatory effects of epicutaneous warfarin.

CONCLUSIONPresented data have documented tissue damage associated with immune/inflammatory activity in skin exposed to warfarin. Observed effects are relevant to immunotoxic potential of this anticoagulant in settings of external exposure.

Animals ; CD3 Complex ; genetics ; metabolism ; Dermatitis, Contact ; pathology ; Epidermis ; cytology ; Gene Expression Regulation ; physiology ; Inflammation ; metabolism ; Lipid Peroxidation ; Male ; Proliferating Cell Nuclear Antigen ; genetics ; metabolism ; Rats ; Rodenticides ; pharmacology ; Skin ; cytology ; drug effects ; metabolism ; T-Lymphocytes ; physiology ; Warfarin ; pharmacology

OBJECTIVETo investigate the effect of fetal bovine serum (FBS) on expression of pigment epithelium-derived factor (PEDF) in normal epidermal keratinocytes and dermal fibroblasts.

METHODSKeratinocytes and fibroblasts were incubated with 10% FBS. PEDF protein level in the cells was determined by immunofluorescence and Western blot.

RESULTSPEDF was localized mostly in the cytoplasm,while some in the nuclei. The distribution of PEDF in cytoplasm was in a granular pattern. 10% FBS increased the expression of PEDF both in keratinocytes and fibroblasts,but histamine and Phorbol 12-myristate 13-acetate (PMA) did not interfere the distribution of PEDF in cells.

CONCLUSION10% FBS can upregulate expression of PEDF in epidermal keratinocytes and dermal fibroblasts.

Animals ; Cattle ; Cells, Cultured ; Epidermis ; cytology ; metabolism ; Eye Proteins ; genetics ; metabolism ; Fetus ; Fibroblasts ; cytology ; metabolism ; Keratinocytes ; cytology ; metabolism ; Nerve Growth Factors ; genetics ; metabolism ; Serpins ; genetics ; metabolism ; Serum ; physiology ; Skin ; cytology ; metabolism ; Up-Regulation

Hair follicles reconstitute themselves though the hair cycle, suggesting the presence of stem cells. Slow-cycling cells were found in the bulge area and were considered as stem cells of the epidermis. Multiple studies have constantly demonstrated that bulge cells possess stem cell properties such as high proliferative capacity and multiple potencies to regenerate into not only hair follicles but also sebaceous glands and epidermis. Recently, the knowledge of the bulge cell biology is rapidly increasing along with the identification of novel cell surface markers, the ability to isolate living bulge cells, and the microarray analysis of multiple gene expression.
Biomarkers ; metabolism ; Cell Proliferation ; Epidermis ; cytology ; physiology ; Hair Follicle ; cytology ; physiology ; Humans ; Oligonucleotide Array Sequence Analysis ; Regeneration ; Sebaceous Glands ; physiology ; Stem Cells ; cytology ; physiology