Collagen peptides derived from sea bass scales (Lateolabrax maculatus) relieve photoaging through MAPK, NF-κB and TGF-β signaling pathways and modulating gut microbiota composition

This study investigated the effects of Collagen peptides (CPs) derived from sea bass scales on UV-induced photoaging in nude mice. After UV exposure, mice treated with CPs demonstrated remarkable improvements compared to the model group, including an increase in skin hydration from 8.7 ± 2.16 to 24.11 ± 3.76 A.U., a boost in skin elasticity from 51.25 ± 3.06 to 131.25 ± 17.08, a restoration of Collagen volume fraction from 32.53 ± 2.54 % to 59.54 ± 7.61 %, and a reduction in epidermal thickness from 90.64 ± 5.88 μm to 37.92 ± 2.61 μm. Mechanistically, CPs inhibited MAPK and NF-κB pathways, decreasing MMP-1 levels from 16.27 ± 4.34 μg/g to 4.38 ± 0.59 μg/g and activating TGF-β pathway. Additionally, CPs modulated gut microbiota composition, normalizing Muribaculaceae and Lactobacillaceae abundance. LEfSe analysis identified biomarkers including Muribaculum and Parabacteroides, indicating potential in mitigating photoaging and enhancing gut health through the gut-skin axis.

Collagen peptides; Gut microbiota; Photoaging; Skin health; UV irradiation.