Biological Evaluation and In Silico Study of Benzoic Acid Derivatives from Bjerkandera adusta Targeting Proteostasis Network Modules

: A main cellular functional module that becomes dysfunctional during aging is the proteostasis network. In the present study, we show that benzoic acid derivatives isolated from promote the activity of the two main protein degradation systems, namely the ubiquitin-proteasome (UPP) and especially th...

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Bibliographic Details
Published in:Molecules (Basel, Switzerland) Switzerland), 2020-02, Vol.25 (3), p.666
Main Authors: Georgousaki, Katerina, Tsafantakis, Nikolaos, Gumeni, Sentiljana, Lambrinidis, George, González-Menéndez, Victor, Tormo, Jose R, Genilloud, Olga, Trougakos, Ioannis P, Fokialakis, Nikolas
Format: Article
Language:English
Subjects:
Acids
Aging
Antibiotics
Autophagy
Benzoic acid
benzoic acid derivatives
Binders
Biological activity
Bjerkandera adusta
Cathepsins
cathepsins activity
Cell growth
Cytotoxicity
Enzymes
Fibroblasts
fungi
Investigations
Lignin
Metabolites
molecular docking
p-Hydroxybenzoic acid
Phagocytosis
proteasome activity
Proteasomes
Proteins
Spectrum analysis
Ubiquitin
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Summary:: A main cellular functional module that becomes dysfunctional during aging is the proteostasis network. In the present study, we show that benzoic acid derivatives isolated from promote the activity of the two main protein degradation systems, namely the ubiquitin-proteasome (UPP) and especially the autophagy-lysosome pathway (ALP) in human foreskin fibroblasts. Our findings were further supported by in silico studies, where all compounds were found to be putative binders of both cathepsins B and L. Among them, compound (3-chloro-4-methoxybenzoic acid) showed the most potent interaction with both enzymes, which justifies the strong activation of cathepsins B and L (467.3 ± 3.9%) on cell-based assays. Considering that the activity of both the UPP and ALP pathways decreases with aging, our results suggest that the hydroxybenzoic acid scaffold could be considered as a promising candidate for the development of novel modulators of the proteostasis network, and likely of anti-aging agents.
ISSN:1420-3049
1420-3049
DOI:10.3390/molecules25030666