Anti-Neuroinflammatory Effects of Prenylated Indole Alkaloids from the Antarctic Fungus Aspergillus sp. Strain SF-7367

Inflammation has always been considered a trigger or consequence of neurodegenerative diseases, and the inhibition of inflammation in the central nervous system can effectively protect nerve cells. Several studies have indicated that various natural products inhibit neuroinflammation. Among these, A...

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Bibliographic Details
Published in:Molecules (Basel, Switzerland) Switzerland), 2025-01, Vol.30 (2), p.294
Main Authors: Liu, Zhiming, Yoon, Chi-Su, Cao, Thao Quyen, Lee, Hwan, Kim, Il-Chan, Yim, Joung Han, Sohn, Jae Hak, Lee, Dong-Sung, Oh, Hyuncheol
Format: Article
Language:English
Subjects:
Animals
Antarctic fungi
Antarctic Regions
anti-inflammation
Anti-Inflammatory Agents - chemistry
Anti-Inflammatory Agents - pharmacology
Aspergillus - chemistry
Cytotoxicity
Fungi
Indole Alkaloids - chemistry
Indole Alkaloids - isolation & purification
Indole Alkaloids - pharmacology
Inflammation
Lipopolysaccharides - pharmacology
Macrophages - drug effects
Macrophages - metabolism
Metabolites
Mice
Microglia - drug effects
Microglia - metabolism
molecular docking
Molecular Docking Simulation
Molecular Structure
Nervous system
NF-kappa B - metabolism
NF-κB
Peptides
prenylated indole alkaloid
Prenylation
RAW 264.7 Cells
Signal Transduction - drug effects
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Summary:Inflammation has always been considered a trigger or consequence of neurodegenerative diseases, and the inhibition of inflammation in the central nervous system can effectively protect nerve cells. Several studies have indicated that various natural products inhibit neuroinflammation. Among these, Antarctic fungal metabolites have pharmacological activities and a developmental value. Therefore, this study aimed to evaluate the anti-neuroinflammatory activity of an Antarctic fungus belonging to (strain SF-7367). Secondary metabolites of SF-7367 were isolated using high-performance liquid chromatography followed by validation of their anti-inflammatory effects in lipopolysaccharide-stimulated BV2 microglia and RAW264.7 macrophages. Chemical analysis of metabolites from the fungal strain revealed five known compounds: epideoxybrevianamide E ( ), brevianamide V/W ( ), brevianamide K ( ), brevianamide Q ( ), and brevianamide R ( ). Among these compounds, brevianamide K showed significant anti-inflammatory activity against both cell types. Results of Western blotting and molecular docking showed that brevianamide K could regulate the activation of nuclear factor kappa-light-chain-enhancer of activated B cell (NF-κB) signaling. This indicates that brevianamide K present in sp. (strain SF-7367) can inhibit inflammatory responses by reducing lipopolysaccharide-induced nuclear translocation of NF-κB (p65). These findings suggest that sp. (strain SF-7367) and brevianamide K are candidate agents for treating neurodegenerative diseases.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules30020294