4 research outputs found
Disulfide Bond-Containing Ajoene Analogues As Novel Quorum Sensing Inhibitors of Pseudomonas aeruginosa
Since its discovery 22 years ago,
the bacterial cell-to-cell communication
system, termed quorum sensing (QS), has shown potential as antipathogenic
target. Previous studies reported that ajoene from garlic inhibits
QS in opportunistic human pathogen Pseudomonas aeruginosa. In this study, screening of an in-house compound library revealed
two sulfur-containing compounds which possess structural resemblance
with ajoene and inhibit QS in bioreporter assay. Following a quantitative
structure–activity relationship (SAR) study, 25 disulfide bond-containing
analogues were synthesized and tested for QS inhibition activities.
SAR study indicated that the allyl group could be replaced with other
substituents, with the most active being benzothiazole derivative
(IC<sub>50</sub> = 0.56 μM). The compounds were able to reduce
QS-regulated virulence factors (elastase, rhamnolipid, and pyocyanin)
and successfully inhibit P. aeruginosa infection in murine model of implant-associated infection. Altogether,
the QS inhibition activity of the synthesized compounds is encouraging
for further exploration of novel analogues in antimicrobial drug development
Detection of Pathogenic Biofilms with Bacterial Amyloid Targeting Fluorescent Probe, CDy11
Detection of Pathogenic Biofilms with Bacterial Amyloid Targeting Fluorescent Probe, CDy11
Bacterial biofilms are responsible for a wide range of persistent infections. In the clinic, diagnosis of biofilm-associated infections relies heavily on culturing methods, which fail to detect nonculturable bacteria. Identification of novel fluorescent probes for biofilm imaging will greatly facilitate diagnosis of pathogenic bacterial infection. Herein, we report a novel fluorescent probe, CDy11 (compound of designation yellow 11), which targets amyloid in the Pseudomonas aeruginosa biofilm matrix through a diversity oriented fluorescent library approach (DOFLA). CDy11 was further demonstrated for in vivo imaging of P. aeruginosa in implant and corneal infection mice models.1124sciescopu
Detection of pathogenic biofilms with bacterial amyloid targeting fluorescent probe, CDy11
10.1021/jacs.5b11357Journal of the American Chemical Society1381402-40