莱菔硫烷
蛋白质组学
免疫系统
皮肤老化
信号转导
细胞
细胞生物学
细胞信号
生物
机制(生物学)
癌症研究
化学
电池类型
人体皮肤
细胞因子
药理学
相互作用体
转录因子
免疫学
氧化应激
皮肤癌
细胞生长
Wnt信号通路
炎症
作者
Xin Du,Xingyu Yang,Chenchen Zhang,Chuyu Fu,Hongkang Zhu
摘要
Skin aging is characterized by declines in structural functions, contributing to age-associated frailty. Sulforaphane (SFN), a natural anti-inflammatory substance, has been widely applied in multiple types of cancer therapies. However, its role in alleviating intrinsic skin aging remains to be elucidated. Integrative network pharmacology and proteomics were utilized to investigate the underlying mechanisms of SFN in intrinsic skin aging. Fifty-one anti-aging targets of SFN were identified, highlighting its promising regulatory impact on the aging process. Based on an 18-month-old natural aging mouse model, significant alleviation in skin structure, redox homeostasis, and immune cell composition was noted after 2 months of SFN supplementation. Additionally, proteomic analysis demonstrated that SFN reversed the proteomic profile of intrinsic skin aging, with 233 differentially expressed proteins (DEPs) identified in SFN-fed aging mice. Of note, the up-regulated DEPs were highly enriched in the apelin signaling pathway (p = 0.010). Furthermore, immune cell infiltration and whole blood cell analysis revealed that SFN rescued T cells depletion in dermal tissue, which was strongly correlated with DEPs enriched in the SFN-activated apelin signaling pathway. SFN improves skin morphology and immune functions via activating the apelin signaling pathway, suggesting new prime targets in counteracting intrinsic skin aging.
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