In vitro photoprotective and skin aging-related enzyme in-hibitory activities of Cylindrospermum alatosporum (NR125682) and Loriellopsis cavernicola (NR117881) extracts

Abstract

The use of cyanobacteria has gained considerable interest in many industries, including the cosmetic industry, due to its rich array of bioactive metabolites. This study evaluates the in vitro photoprotective properties and the effect of Cylindrospermum alatosporum (NR125682) and Loriellopsis cavernicola (NR117881) extracts on slowing down the enzymes associated with skin aging. Various crude extracts were prepared using hexane, dichloromethane, and ethanol solvents. The resulting crude extract solvents were completely distilled to obtain their bioactive compounds, based on selected polarities. The sulfhydryl content of the crude extracts was determined and the aging-associated enzymes’ activity (collagenase, elastase, hyaluronidase, and tyrosinase) in the crude extracts was investigated. Furthermore, the in vitro photoprotective activity of the extracts was assessed by measuring UVA and UVB photoprotection. Most of the extracts contained varying amounts of sulfhydryl compounds (10.88–78.15 mg/g). All of the extracts demonstrated in vitro inhibitory activity against tyrosinase, hyaluronidase (IC50 6 µg/mL), and collagenase (IC50 50–70 µg/mL); weak elastase inhibitory activities were also observed. The crude extracts also showed appreciable UVA and UVB photoprotective activity. Meanwhile, L. cavernicola extracts demonstrated the highest UVB photoprotective activity (SPF 14.67–78.96). It is noteworthy that the crude extracts possessed anti-skin-aging potency with notable photoprotective capability.