Ultraviolet (UV) irradiation leads to the degradation of the extracellular matrix and collagen, thereby accelerating skin aging and imposing substantial psychological burden on patients. Current anti-aging strategies are limited and often associated with high costs or strong side effects. Plant-derived extracellular vesicle-like nanovesicles, with advantages such as natural availability and cost-effectiveness, show potential in anti-aging interventions. This study extracted extracellular vesicle-like nanovesicle from Polygonum multiflorum (PMELNVs) and systematically investigated their composition and metabolic pathways, further examining their efficacy and underlying mechanisms in combating photoaging. Results revealed the excellent antioxidative properties of PMELNVs, alleviating UV-induced oxidative stress, inhibiting matrix metalloproteinase production, reducing extracellular matrix degradation, promoting collagen synthesis, and ultimately exerting anti-photoaging effects. Additionally, safety assessments demonstrated favorable biocompatibility of PMELNVs. This study provides novel evidence supporting PMELNVs' ability to resist photoaging by reducing oxidative stress and enhancing collagen expression, thereby offering potential as a new natural therapeutic agent against skin photoaging and promising a safer and more effective local anti-aging strategy.
Copyright © 2024 Junjia He et al.