Journal
MOLECULES
Volume 26, Issue 19, Pages -Publisher
MDPI
DOI: 10.3390/molecules26195896
Keywords
falcarindiol; quorum sensing; Pseudomonas aeruginosa; Notopterygium incisum; LasR
Funding
- National Natural Science Foundation of China [81102368]
- Qingdao Scientific and Technological Innovation center for Marine Biomedicine Development Grant [2017-CXZX01-3-8]
- Key Ramp
- D Program of Shandong Province [2018GHY115047]
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Falcarindiol, a component of Notopterygium incisum, showed inhibitory effects on biofilm formation and virulence factor production in Pseudomonas aeruginosa by downregulating QS-related genes and destabilizing LasR, providing a theoretical basis for its medicinal application as a potential anti-virulence agent.
Quorum sensing (QS) is employed by the opportunistic pathogen Pseudomonas aeruginosa to regulate physiological behaviors and virulence. QS inhibitors (QSIs) are potential anti-virulence agents for the therapy of P. aeruginosa infection. During the screening for QSIs from Chinese herbal medicines, falcarindiol (the major constituent of Notopterygium incisum) exhibited QS inhibitory activity. The subinhibitory concentration of falcarindiol exerted significant inhibitory effects on the formation of biofilm and the production of virulence factors such as elastase, pyocyanin, and rhamnolipid. The mRNA expression of QS-related genes (lasB, phzH, rhlA, lasI, rhlI, pqsA, and rhlR) was downregulated by falcarindiol while that of lasR was not affected by falcarindiol. The transcriptional activation of the lasI promoter was inhibited by falcarindiol in the P. aeruginosa QSIS-lasI selector. Further experiments confirmed that falcarindiol inhibited the las system using the reporter strain Escherichia coli MG4/pKDT17. Electrophoretic mobility shift assay (EMSA) showed that falcarindiol inhibited the binding of the transcription factor LasR and the lasI promoter region. Molecular docking showed that falcarindiol interacted with the Tyr47 residue, leading to LasR instability. The decrease of LasR-mediated transcriptional activation was responsible for the reduction of downstream gene expression, which further inhibited virulence production. The inhibition mechanism of falcarindiol to LasR provides a theoretical basis for its medicinal application.
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