Exploring Greek actinobacterial biodiversity for the discovery of bioactive metabolites with skin antiaging potential
Konstantinos Gaitanis, Eirini Gkogkou, Paris Laskaris, Nikolaοs Tsafantakis, Despoina D. Gianniou, Stavroula I. Kaili, Georgia C. Ntroumpogianni, Aikaterini Theodosopoulou, Nikola Milic, Dimitris G. Hatzinikolaou, Nikolas Fokialakis, Ioannis P. Trougakos, Amalia D. Karagouni

TL;DR
This study explores Greek actinobacteria for antiaging compounds that could help reduce skin aging by inhibiting enzymes and boosting antioxidant activity.
Contribution
The discovery of six bioactive molecules from Greek actinobacteria with potential antiaging properties is novel.
Findings
Six molecules from actinobacteria showed bioactivity against elastase, tyrosinase, and oxidative stress.
Molecules increased lysosomal activity and triggered antioxidant responses in cell lines and Drosophila.
Two molecules moderately inhibited elastase, while others reduced reactive oxygen species.
Abstract
Actinobacteria are a rich secondary metabolite source, accounting for nearly half of known bioactive microbial compounds, thus representing promising targets for novel bioactive molecule discovery. To explore potential antiaging compounds, we screened extracts from 980 actinobacterial strains isolated from diverse Greek ecosystems. Extracts were evaluated for elastase and tyrosinase inhibition in vitro, followed by toxicity and efficacy assessments in human cell lines. One Amycolatopsis and two Streptomyces strains exhibited significant tyrosinase inhibition, and one showed elastase inhibition, prompting further investigation. Culture optimization and fractionation of one of the most promising Streptomyces extracts resulted in the isolation of the six most bioactive and least toxic molecules, namely, Cyclo (L-proline-L-tyrosine) (1), Cyclo (Pro-Phe) (2), Lumichrome (3), P-(acetylamino)…
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Taxonomy
TopicsMicrobial Metabolism and Applications · Microbial Natural Products and Biosynthesis · Phytochemistry and Bioactivity Studies
