Unraveling the Novel Effect of Patchouli Alcohol Against the Antibiotic Resistance of Helicobacter pylori

The long-term colonization of Helicobacter pylori can cause various gastrointestinal diseases, and its high genetic variability is prone to antibiotic resistance and leads to failure of clinical treatment. Intracellular survival also contributes to the drug tolerance of H. pylori . Patchouli alcohol...

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Published in:Frontiers in microbiology 2021-06, Vol.12, p.674560-674560
Main Authors: Zhong, Yuanzun, Tang, Liyao, Deng, Qiuhua, Jing, Li, Zhang, Jiao, Zhang, Yao, Yu, Feng, Ou, Yijun, Guo, Shaoju, Huang, Bin, Cao, Hongying, Huang, Ping, Xu, Yifei
Format: Article
Language:English
Subjects:
clarithromycin
Helicobacter pylori
intracellular
Microbiology
patchouli alcohol
resistance
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Summary:The long-term colonization of Helicobacter pylori can cause various gastrointestinal diseases, and its high genetic variability is prone to antibiotic resistance and leads to failure of clinical treatment. Intracellular survival also contributes to the drug tolerance of H. pylori . Patchouli alcohol (PA) shows a highly efficient activity against H. pylori in vitro and in vivo . And this study aims to explore whether PA can reduce the resistance of H. pylori and determine the underlying mechanism. Checkerboard and time–kill bactericidal curve assay reveal that the combination of PA and clarithromycin (CLR) promoted the inhibition and bactericidal effect against H. pylori . Stimulation of CLR leads to the internalization of H. pylori , but PA can effectively inhibit the invasion induced by CLR. Compared with antibiotics, PA remarkably eradicated the intracellular H. pylori , and this intracellular sterilized ability was further improved in combination with antibiotics (CLR and metronidazole). The expression of H. pylori efflux pump genes ( hp0605 , hp1327 , and hp1489 ) was dose-dependently downregulated by PA. Digital droplet PCR indicated that the H. pylori mutant of A2143G can be inhibited by PA. Cellular uptake and transport assays showed that PA is rapidly absorbed, which promotes its activity against intracellular bacteria. Therefore, PA can act synergistically with CLR as a candidate treatment against drug-resistant H. pylori .
ISSN:1664-302X
1664-302X
DOI:10.3389/fmicb.2021.674560