Inhibition of Staphylococcus aureus and biofilm formation by the anthelminthic drug, triclabendazole

金黄色葡萄球菌 微生物学 生物膜 生物 最小抑制浓度 细菌 抗菌剂 遗传学
作者
Jie Guo,Yufang Zhang,Hang Cheng,Duoyun Li,Zhanwen Wang,Chengchun Chen,Zhijian Yu,Qiwen Deng,Zewen Wen
出处
期刊:The Journal of Antibiotics [Springer Nature]
卷期号:75 (5): 287-295 被引量:4
标识
DOI:10.1038/s41429-022-00515-9
摘要

Triclabendazole (TBD) has been widely used in the treatment of helminthic infection. The anti-biofilm activity and antibacterial mechanism of TBD against Staphylococcus aureus were not known. Here, the anti-biofilm activity of TBD against clinical S. aureus isolates from China was systematically evaluated. Under TBD pressure, TBD-induced tolerant S. aureus with elevated TBD minimum inhibitory concentration (MIC) was selected in vitro and the genetic mutations between the parental isolates and TBD-induced tolerant derivatives were determined by whole-genome sequencing. TBD could significantly inhibit biofilm formation at sub-inhibitory concentration and disperse mature biofilm of clinical S. aureus isolates. In addition, TBD displayed bactericidal activity against the bacterial cells embedded in the biofilm and showed anti-persisters activity. Proteomic analysis showed that KEGG pathways of ABC transporters and beta-lactam resistance were significantly changed after TBD exposure. Moreover, SAUSA300_RS08395 (molecular chaperone DnaK), SAUSA300_RS11200 (sensor histidine kinase KdpD), SAUSA300_RS06325 (DNA translocase FtsK) were identified as candidate targets of TBD in S. aureus. Overexpression experiments further demonstrated that the elevated transcriptional level of DnaK resulted in S. aureus growth delay after exposure to a sub-MIC concentration of 1/2× MIC TBD. In conclusion, TBD exhibits antibacterial and anti-biofilm activity against S. aureus possibly by targeting the DnaK chaperone system.
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