BACKGROUND: p53 overexpression has been reported in photoaged skin. Meanwhile, p53 gene mutations have been implicated as an important factor in the pathogenesis of ultraviolet (UV) light-induced skin cancer. OBJECTIVE: The objective was to evaluate the effect of laser resurfacing on the epidermal thickness and expression of p53 in photoaged skin. METHODS: Specimens were obtained from the facial skin of 10 patients before and after 3 months and 1 year of treatment using CO(2) (five cases) and erbium (Er):YAG (five cases) lasers. Specimens were also obtained from six age-matched controls. These biopsies were used for routine histopathology, histometry, and p53 immunoperoxidase staining. RESULTS: Both CO(2) and Er:YAG lasers were found to induce a significant decrease in p53 expression in biopsies obtained after 3 months (p=.0004 and .002, respectively) followed by gradual increase (p=.01 in both groups). A significant increase (p<.01) in epidermal thickness was also observed after 1 year of resurfacing. This increase, however, is inversely correlated with the level of p53 expression in such patients. CONCLUSION: The decrease in epidermal p53 expression after CO(2) and Er:YAG lasers may account for some of the benefits of resurfacing on the epidermis, as well as prevention of actinic neoplasia by adjusting any disturbance in the proliferation/apoptosis balance observed in photoaged facial skin.
BACKGROUND:p53 overexpression has been reported in photoaged skin. Meanwhile, p53 gene mutations have been implicated as an important factor in the pathogenesis of ultraviolet (UV) light-induced skin cancer. OBJECTIVE: The objective was to evaluate the effect of laser resurfacing on the epidermal thickness and expression of p53 in photoaged skin. METHODS: Specimens were obtained from the facial skin of 10 patients before and after 3 months and 1 year of treatment using CO(2) (five cases) and erbium (Er):YAG (five cases) lasers. Specimens were also obtained from six age-matched controls. These biopsies were used for routine histopathology, histometry, and p53 immunoperoxidase staining. RESULTS: Both CO(2) and Er:YAG lasers were found to induce a significant decrease in p53 expression in biopsies obtained after 3 months (p=.0004 and .002, respectively) followed by gradual increase (p=.01 in both groups). A significant increase (p<.01) in epidermal thickness was also observed after 1 year of resurfacing. This increase, however, is inversely correlated with the level of p53 expression in such patients. CONCLUSION: The decrease in epidermal p53 expression after CO(2) and Er:YAG lasers may account for some of the benefits of resurfacing on the epidermis, as well as prevention of actinic neoplasia by adjusting any disturbance in the proliferation/apoptosis balance observed in photoaged facial skin.
Authors: Haoming Xu; Maira Fonseca; Zachary Wolner; Esther Chung; Xinyuan Wu; Shamir Geller; Stephen W Dusza; Antonio P DeRosa; Ashfaq A Marghoob; Klaus J Busam; Allan C Halpern; Michael A Marchetti Journal: J Am Acad Dermatol Date: 2017-07-14 Impact factor: 11.527
Authors: Joseph D Sherrill; Deborah Finlay; Robert L Binder; Michael K Robinson; Xingtao Wei; Jay P Tiesman; Michael J Flagler; Wenzhu Zhao; Catherine Miller; Jean M Loftus; Alexa B Kimball; Charles C Bascom; Robert J Isfort Journal: PLoS One Date: 2021-11-29 Impact factor: 3.240