Novel synthesized seleno-glycoconjugates as cosmeceutical ingredients: Antioxidant activity and in vitro skin permeation

Following recent successful results in the search for innovative semi-synthetic cosmeceutical Se-glycoconjugates, the work reported herein explores the development and evaluation of second-generation selenosugar-linked hydroxycinnamic acids as new potential cosmeceutical ingredients. Utilizing a Pummerer-like rearrangement for C1-acetylation, these novel compounds were synthesized and characterized using NMR spectroscopy and HRMS, confirming their structures and purity. The biological evaluation focused on their radical scavenging preliminary screening, and cytotoxic and antioxidant activities in human immortalized keratinocytes, revealing significant potential for use in skin care formulations aimed at counteracting oxidative stress and promoting skin health. Cellular uptake studies conducted on HaCaT keratinocytes using UHPLC-QqTOF-MS metabolomics demonstrated effective internalization of these compounds, which is crucial for their efficacy as topical agents. Furthermore, percutaneous absorption tests using the Franz diffusion cell method and subsequent HPLC-DAD analysis provided insights into the compound skin permeation capabilities, a critical factor for their practical application in cosmeceuticals.