铜绿假单胞菌 MuxABC-OpmB 转运系统失活导致氨苄青霉素和羧苄青霉素耐药性增加，毒力降低。

Inactivation of MuxABC-OpmB transporter system in Pseudomonas aeruginosa leads to increased ampicillin and carbenicillin resistance and decreased virulence.

机构信息

Molecular Microbiology Laboratory, Key Laboratory of Resources Biology and Biotechnology in Western China, Ministry of Education, Faculty of Life Sciences, Northwest University, Shaanxi, 710069, PR China.

出版信息

J Microbiol. 2011 Feb;49(1):107-14. doi: 10.1007/s12275-011-0186-2. Epub 2011 Mar 3.

DOI:10.1007/s12275-011-0186-2

PMID:21369987

Abstract

Resistance-Nodulation-Cell Division (RND) pumps play important roles in bacterial resistance to antibiotics. Pseudomonas aeruginosa is an important human pathogen which exhibits high level resistance to antibiotics. There are total of 12 RND pumps present in the P. aeruginosa PAOl genome. The recently characterized MuxABC-OpmB system has been shown to play a role in resistance to novobiocin, aztreonam, macrolides, and tetracycline in a multiple knockout mutation. In this study, we examined the expression levels of all the 12 RND pump gene clusters and tested the involvement of MuxABC-OpmB in pathogenicity. The results indicated that in addition to the four known constitutively expressed RND pumps, mexAB-oprM, mexGHI-opmD, mexVW, and mexXY, relatively high levels of expression were observed with mexJK and muxABC-opmB in the conditions tested. Inactivation of muxA in the muxABC-opmB operon resulted in elevated resistance to ampicillin and carbenicillin. The mutant also showed attenuated virulence in both Brassica rapa pekinensis and Drosophila melanogaster infection models. The decreased virulence at least in part was due to decreased twitching motility in the mutant. These results indicate that the RND pump MuxABC-OpmB is associated with ampicillin and carbenicillin susceptibility and also involved in pathogenesis in P. aeruginosa.

摘要

耐药-结节-分裂（RND）泵在细菌对抗生素的耐药性中起着重要作用。铜绿假单胞菌是一种重要的人类病原体，对抗生素表现出高水平的耐药性。铜绿假单胞菌 PAOl 基因组中共有 12 个 RND 泵。最近表征的 MuxABC-OpmB 系统已被证明在多种敲除突变中在耐新生霉素、氨曲南、大环内酯类和四环素方面发挥作用。在这项研究中，我们检查了所有 12 个 RND 泵基因簇的表达水平，并测试了 MuxABC-OpmB 在致病性中的参与。结果表明，除了已知的四个组成型表达的 RND 泵 mexAB-oprM、mexGHI-opmD、mexVW 和 mexXY 外，在测试条件下，mexJK 和 muxABC-opmB 的表达水平相对较高。muxABC-opmB 操纵子中 muxA 的失活导致氨苄青霉素和羧苄青霉素的耐药性增加。该突变体在 Brassica rapa pekinensis 和 Drosophila melanogaster 感染模型中的毒力也减弱。突变体的毒力下降至少部分是由于其扭动运动减少所致。这些结果表明，RND 泵 MuxABC-OpmB 与氨苄青霉素和羧苄青霉素的敏感性相关，并且还参与铜绿假单胞菌的发病机制。

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铜绿假单胞菌 MuxABC-OpmB 转运系统失活导致氨苄青霉素和羧苄青霉素耐药性增加，毒力降低。

Inactivation of MuxABC-OpmB transporter system in Pseudomonas aeruginosa leads to increased ampicillin and carbenicillin resistance and decreased virulence.

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