Résumé
BACKGROUND: Skin-derived precursor cells play a regenerative role in wound healing, which can restore the physiological and aesthetic features of the skin by mitosis, proliferation and migration to the injury region. OBJECTIVE: To observe the structure of the mouse tail and the healing of the broken end, and then to investigate the correlation of these characteristics with the repair of skin trauma at the tail. METHODS: The tails of 2-day-old Kunming mice were cut off using ophthalmic microsurgical scissors to establish the mouse model of hair follicle regeneration in the tail. Regions in which the cells proliferated actively were determined. Wound healing samples were regularly taken, and embedded using OCT. Wound healing of the broken end was routinely observed by pathological staining. Cell proliferation was observed by immunofluorescence. Expression of AP-1 in the healing site was identified by immunofluorescent staining. RESULTS AND CONCLUSION: The structure of the mouse tail was complex, with rich blood supply. Good healing was observed in the broken end of the mouse tail. The cells in the hair follicles and dermal papillary layer showed active proliferation and mitosis, and thereby participated in wound repair and regeneration. Fluorescence staining results found that the positive expression of AP-1 was mainly concentrated in the epidermis and dermal papilla. These findings indicate that the epidermis and dermal papilla possess a strong ability to regenerate.