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一种基于苯并咪唑的钌(IV)配合物通过与铁载体和细胞包膜相互作用并诱导氧化应激来抑制铜绿假单胞菌生物膜的形成。

A benzimidazole-based ruthenium(IV) complex inhibits Pseudomonas aeruginosa biofilm formation by interacting with siderophores and the cell envelope, and inducing oxidative stress.

作者信息

Czerwonka Grzegorz, Gmiter Dawid, Guzy Anna, Rogala Patrycja, Jabłońska-Wawrzycka Agnieszka, Borkowski Andrzej, Cłapa Tomasz, Narożna Dorota, Kowalczyk Paweł, Syczewski Marcin, Drabik Marcin, Dańczuk Magdalena, Kaca Wiesław

机构信息

a Department of Microbiology, Institute of Biology , Jan Kochanowski University in Kielce , Poland.

b Institute of Chemistry , Jan Kochanowski University in Kielce , Poland.

出版信息

Biofouling. 2019 Jan;35(1):59-74. doi: 10.1080/08927014.2018.1564818. Epub 2019 Feb 7.

DOI:10.1080/08927014.2018.1564818
PMID:30727772
Abstract

Pseudomonas aeruginosa biofilm-associated infections are a serious medical problem, and new compounds and therapies acting through novel mechanisms are much needed. Herein, the authors report a ruthenium(IV) complex that reduces P. aeruginosa PAO1 biofilm formation by 84%, and alters biofilm morphology and the living-to-dead cell ratio at 1 mM concentration. Including the compound in the culture medium altered the pigments secreted by PAO1, and fluorescence spectra revealed a decrease in pyoverdine. Scanning electron microscopy showed that the ruthenium complex did not penetrate the bacterial cell wall, but accumulated on external cell structures. Fluorescence quenching experiments indicated strong binding of the ruthenium complex to both plasmid DNA and bovine serum albumin. Formamidopyrimidine DNA N-glycosylase (Fpg) protein digestion of plasmid DNA isolated after ruthenium(IV) complex treatment revealed the generation of oxidative stress, which was further proved by the observed upregulation of catalase and superoxide dismutase gene expression.

摘要

铜绿假单胞菌生物膜相关感染是一个严重的医学问题,因此非常需要通过新机制发挥作用的新化合物和新疗法。在此,作者报告了一种钌(IV)配合物,该配合物可使铜绿假单胞菌PAO1生物膜形成减少84%,并在1 mM浓度下改变生物膜形态和活死细胞比率。将该化合物加入培养基中会改变PAO1分泌的色素,荧光光谱显示绿脓菌素减少。扫描电子显微镜表明,钌配合物未穿透细菌细胞壁,而是积聚在细胞外部结构上。荧光猝灭实验表明,钌配合物与质粒DNA和牛血清白蛋白均有强烈结合。对钌(IV)配合物处理后分离的质粒DNA进行甲酰胺嘧啶DNA N-糖基化酶(Fpg)蛋白消化,显示产生了氧化应激,过氧化氢酶和超氧化物歧化酶基因表达上调进一步证明了这一点。

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