Insights into the in vitro biological properties of Australian beach‐cast brown seaweed phenolics

Five Australian seaweed species, Phyllosphora comosa, Ecklonia radiata, Durvillaea potatorum, Sargassum fallax, and Cystophora siliquosa, thrive along the country's shorelines. Some of these seaweeds have recognized health benefits but have not been fully investigated in terms of their bioactiv...

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Bibliographic Details
Published in:Food science & nutrition 2024-11, Vol.12 (11), p.8956-8967
Main Authors: Subbiah, Vigasini, Ebrahimi, Faezeh, Duan, Xinyu, Agar, Osman Tuncay, Barrow, Colin J., Suleria, Hafiz A. R.
Format: Article
Language:English
Subjects:
Algae
Amylases
Anti-inflammatory agents
Antidiabetics
anti‐diabetic effect
anti‐inflammatory effect
anti‐mitotic activity
Biological activity
Biological effects
Biological properties
Biopolymer denaturation
Caustic soda
Cell culture
Cell viability
Diabetes
Diabetes mellitus
Experiments
Flavonoids
Glucosidase
Inhibition
Nitric oxide
Nonsteroidal anti-inflammatory drugs
Nutrients
Original
Phenolic acids
phenolics
Phenols
Polyphenols
Protease
Protein denaturation
Proteins
Reagents
Scavenging
Seaweeds
Sodium
Urease
Yeasts
α-Amylase
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Summary:Five Australian seaweed species, Phyllosphora comosa, Ecklonia radiata, Durvillaea potatorum, Sargassum fallax, and Cystophora siliquosa, thrive along the country's shorelines. Some of these seaweeds have recognized health benefits but have not been fully investigated in terms of their bioactive components and mechanisms of action. We employed ultrasonication with 70% methanol to extract phenolic compounds from these seaweeds and investigated a range of bioactivities for these extracts, including anti‐inflammatory activity exploring urease inhibition, nitric oxide scavenging activity, protein denaturation inhibition, and protease inhibition. Anti‐diabetic activities were investigated using α‐amylase and α‐glucosidase inhibition assays. Anti‐proliferative and anti‐mitotic activities were evaluated using yeast‐cell and green‐gram models, respectively. Our findings showed that C. siliquosa inhibited nitric oxide, urease, and protease activities, with S. fallax, P. comosa, and E. radiata exhibiting substantial inhibition of protein denaturation. E. radiata displayed inhibitory effects on both α‐amylase and α‐glucosidase, whereas P. comosa targeted only the α‐glucosidase enzyme, indicating different mechanisms of anti‐diabetic activity. In these anti‐mitotic assays, C. siliquosa exhibited low cell viability and a significant anti‐proliferative effect, particularly within 24 h, while E. radiata demonstrated notable inhibition at 48 h. LC‐ESI‐QTOF‐MS/MS investigation identified 48 phenolic compounds, including 19 phenolic acids, 20 flavonoids, and 9 other polyphenols. The presence of these compounds in extracts correlated with observed biological activities. These results support the potential health benefits of these seaweeds and link this activity to the presence of bioactive phenolics. Five Australian beach‐cast seaweed phenolics exhibited diverse bioactive properties. Cystophora siliquosa inhibited nitric oxide, urease, and protease activities, and showed significant anti‐mitotic activity at 24 h. Ecklonia radiata inhibited both α‐amylase and α‐glucosidase enzymes and demonstrated mitotic inhibition at 48 h. Using 70% methanol extraction, 12, 10, 7, 19, and 23 phenolic compounds were identified in Phyllosphora comosa, Ecklonia radiata, Durvillaea potatorum, Sargassum fallax, and Cystophora siliquosa, respectively.
ISSN:2048-7177
2048-7177
DOI:10.1002/fsn3.4415