Rationally Designed Nonapeptides with Great Skin Photoprotective Effect through Producing Type 1 Collagen and Blocking the mTOR Pathway
Xu Wang, Wenzhuang Shi, Kang Wang, Zifan Ye, Runying Wang, Hui Wang, Huaixin Yang, Zeping Xie, Haining Yu, Yipeng Wang
Abstract
Ultraviolet (UV), as the most common environmental stress factor to human skin, causes redox imbalance and leads to photoaging and the development of cancer. In this work, we screened a nonapeptide (PWH) with good activities of antioxidant, promoting the secretion of type 1 collagen (COL-1) and repairing damaged skin from a series of rationally designed novel short peptides. PWH could alleviate UV-A-induced oxidative stress, restrain pro-inflammatory cytokine production, protect mitochondrial function, and maintain autophagy activity. We also first indicated that inhibiting the PI3K/AKT/mTOR signaling pathway and restoration of autophagy activity might delay the photoaging process in skin cells. Topical applications of PWH were further demonstrated to exhibit significant protection in full-wavelength UV-induced skin aging in mice models both in the prophylaxis and treatment way. In addition, given the good stability and without unwanted toxicity and anaphylaxis, PWH could be a promising candidate for cosmetics and pharmaceuticals.