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磷脂酶A1调节布鲁氏菌的细胞膜磷脂含量,从而导致多粘菌素耐药性和致病性。

Phospholipase A1 modulates the cell envelope phospholipid content of Brucella melitensis, contributing to polymyxin resistance and pathogenicity.

作者信息

Kerrinnes Tobias, Young Briana M, Leon Carlos, Roux Christelle M, Tran Lisa, Atluri Vidya L, Winter Maria G, Tsolis Renée M

机构信息

Department of Medical Microbiology and Immunology, University of California, Davis, Davis, California, USA.

West Coast Metabolomics Center, University of California, Davis, Davis, California, USA.

出版信息

Antimicrob Agents Chemother. 2015 Nov;59(11):6717-24. doi: 10.1128/AAC.00792-15. Epub 2015 Aug 17.

DOI:10.1128/AAC.00792-15
PMID:26282427
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4604402/
Abstract

A subset of bacterial pathogens, including the zoonotic Brucella species, are highly resistant against polymyxin antibiotics. Bacterial polymyxin resistance has been attributed primarily to the modification of lipopolysaccharide; however, it is unknown what additional mechanisms mediate high-level resistance against this class of drugs. This work identified a role for the Brucella melitensis gene bveA (BMEII0681), encoding a predicted esterase, in the resistance of B. melitensis to polymyxin B. Characterization of the enzymatic activity of BveA demonstrated that it is a phospholipase A1 with specificity for phosphatidylethanolamine (PE). Further, lipidomic analysis of B. melitensis revealed an excess of PE lipids in the bacterial membranes isolated from the bveA mutant. These results suggest that by lowering the PE content of the cell envelope, BveA increases the resistance of B. melitensis to polymyxin B. BveA was required for survival and replication of B. melitensis in macrophages and for persistent infection in mice. BveA family esterases are encoded in the genomes of the alphaproteobacterial species that coexist with the polymyxin-producing bacteria in the rhizosphere, suggesting that maintenance of a low PE content in the bacterial cell envelope may be a shared persistence strategy for association with plant and mammalian hosts.

摘要

包括人畜共患布鲁氏菌属在内的一部分细菌病原体对多粘菌素类抗生素具有高度抗性。细菌对多粘菌素的抗性主要归因于脂多糖的修饰;然而,尚不清楚还有哪些其他机制介导了对这类药物的高水平抗性。这项研究确定了布鲁氏菌属基因bveA(BMEII0681)的作用,该基因编码一种预测的酯酶,在布鲁氏菌属对多粘菌素B的抗性中发挥作用。对BveA酶活性的表征表明,它是一种对磷脂酰乙醇胺(PE)具有特异性的磷脂酶A1。此外,对布鲁氏菌属的脂质组分析显示,从bveA突变体分离的细菌膜中PE脂质过量。这些结果表明,通过降低细胞包膜中的PE含量,BveA增加了布鲁氏菌属对多粘菌素B的抗性。BveA是布鲁氏菌属在巨噬细胞中存活和复制以及在小鼠中持续感染所必需的。BveA家族酯酶在根际与产生多粘菌素的细菌共存的α-变形杆菌物种的基因组中编码,这表明维持细菌细胞包膜中低PE含量可能是与植物和哺乳动物宿主共生的一种共同的持续生存策略。

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