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群体感应抑制剂对铜绿假单胞菌毒力的减弱作用

Attenuation of Pseudomonas aeruginosa virulence by quorum sensing inhibitors.

作者信息

Hentzer Morten, Wu Hong, Andersen Jens Bo, Riedel Kathrin, Rasmussen Thomas B, Bagge Niels, Kumar Naresh, Schembri Mark A, Song Zhijun, Kristoffersen Peter, Manefield Mike, Costerton John W, Molin Søren, Eberl Leo, Steinberg Peter, Kjelleberg Staffan, Høiby Niels, Givskov Michael

机构信息

BioCentrum-DTU, Technical University of Denmark, DK-2800 Lyngby, Denmark.

出版信息

EMBO J. 2003 Aug 1;22(15):3803-15. doi: 10.1093/emboj/cdg366.

DOI:10.1093/emboj/cdg366
PMID:12881415
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC169039/
Abstract

Traditional treatment of infectious diseases is based on compounds that kill or inhibit growth of bacteria. A major concern with this approach is the frequent development of resistance to antibiotics. The discovery of communication systems (quorum sensing systems) regulating bacterial virulence has afforded a novel opportunity to control infectious bacteria without interfering with growth. Compounds that can override communication signals have been found in the marine environment. Using Pseudomonas aeruginosa PAO1 as an example of an opportunistic human pathogen, we show that a synthetic derivate of natural furanone compounds can act as a potent antagonist of bacterial quorum sensing. We employed GeneChip microarray technology to identify furanone target genes and to map the quorum sensing regulon. The transcriptome analysis showed that the furanone drug specifically targeted quorum sensing systems and inhibited virulence factor expression. Application of the drug to P.aeruginosa biofilms increased bacterial susceptibility to tobramycin and SDS. In a mouse pulmonary infection model, the drug inhibited quorum sensing of the infecting bacteria and promoted their clearance by the mouse immune response.

摘要

传染病的传统治疗方法基于能够杀死或抑制细菌生长的化合物。这种方法的一个主要问题是细菌对抗生素的耐药性频繁出现。调节细菌毒力的通讯系统(群体感应系统)的发现为在不干扰细菌生长的情况下控制感染性细菌提供了新的机会。在海洋环境中发现了能够超越通讯信号的化合物。以机会性人类病原体铜绿假单胞菌PAO1为例,我们表明天然呋喃酮化合物的一种合成衍生物可以作为细菌群体感应的有效拮抗剂。我们采用基因芯片微阵列技术来鉴定呋喃酮靶基因并绘制群体感应调控子图谱。转录组分析表明,呋喃酮药物特异性靶向群体感应系统并抑制毒力因子表达。将该药物应用于铜绿假单胞菌生物膜可增加细菌对妥布霉素和十二烷基硫酸钠的敏感性。在小鼠肺部感染模型中,该药物抑制感染细菌的群体感应并通过小鼠免疫反应促进其清除。

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