大肠杆菌中 TolC 依赖性多药外排泵的生理效应:压力条件下对运动和生长的影响。

IF 3.9 3区 生物学 Q2 MICROBIOLOGY
Amanda M. Di Maso, Cristian Ruiz
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引用次数: 0

摘要

肠杆菌科细菌拥有 8 种依赖 TolC 的多药外排泵:AcrAB-TolC、AcrAD-TolC、AcrEF-TolC、MdtEF-TolC、MdtABC-TolC、EmrAB-TolC、EmrYK-TolC 和 MacAB-TolC,可外流胆汁盐、抗生素、代谢物或其他化合物。然而,我们对它们的生理作用的了解仍然有限,尤其是像 EmrYK-TolC 这样研究较少的泵。在这项研究中,我们测试了在压力条件下,分别缺失所有八个 TolC 依赖性泵的每个内膜转运体成分的大肠杆菌突变体、缺失 AcrB 辅助蛋白 AcrZ 的突变体以及同时缺失所有八个泵的突变体(ΔtolC)对游泳运动和生长的影响。我们发现,除了ΔemrY和ΔacrZ突变体外,所有测试的突变体都显示出了更强的游动能力。此外,在不同的生长条件下:温度(25、30、37 和 42°C 的 LB)、pH 值(pH 值为 6.0、7.4 和 9.0 的 LB;pH 值为 6.0、7.4 和 8.25 的缓冲 LB)、有限空气交换的 LB 以及营养胁迫(M9-葡萄糖或 M9-甘油),与亲本相比,每个 TolC 依赖性泵或 AcrZ 的缺失都不会降低生长速度,有时甚至会提高生长速度。相比之下,除了在 pH 值为 7.4 的 LB-TRIS 和有限换气的 LB 中,ΔtolC 突变体在所有测试条件下的生长速度都明显慢于亲本菌株。总之,这些研究结果表明,在没有抗菌素的情况下,虽然单个 TolC 依赖性泵在许多胁迫条件下的生长通常是不需要的,这可能是由于它们的底物谱部分重叠所致,但在大多数条件下,TolC 依赖性外流是最大生长所必需的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Physiological Effects of TolC-Dependent Multidrug Efflux Pumps in Escherichia coli: Impact on Motility and Growth Under Stress Conditions

Physiological Effects of TolC-Dependent Multidrug Efflux Pumps in Escherichia coli: Impact on Motility and Growth Under Stress Conditions

Enterobacteriaceae possess eight TolC-dependent multidrug efflux pumps: AcrAB-TolC, AcrAD-TolC, AcrEF-TolC, MdtEF-TolC, MdtABC-TolC, EmrAB-TolC, EmrYK-TolC, and MacAB-TolC, which efflux bile salts, antibiotics, metabolites, or other compounds. However, our understanding of their physiological roles remains limited, especially for less-studied pumps like EmrYK-TolC. In this study, we tested the effects on swimming motility and growth under stress conditions of Escherichia coli mutants individually deleted for each inner-membrane transporter component of all eight TolC-dependent pumps, a mutant deleted for the AcrB-accessory protein AcrZ, and a mutant simultaneously deleted for all eight pumps (ΔtolC). We found that all mutants tested, except the ΔemrY and ΔacrZ mutants, displayed increased swimming motility. Additionally, the loss of each individual TolC-dependent pump or AcrZ did not reduce growth and sometimes even enhanced it compared to the parental strain under various growth conditions: temperature (LB at 25, 30, 37, and 42°C), pH (LB at pH 6.0, 7.4, and 9.0; and LB buffered to pH 6.0, 7.4, and 8.25), LB with limited air exchange, and nutritional stress (M9-glucose or M9-glycerol). In contrast, the ΔtolC mutant grew significantly slower than the parental strain under all conditions tested except in LB-TRIS pH 7.4 and LB with limited air exchange. Overall, these findings indicate that while individual TolC-dependent pumps are generally dispensable for growth under many stress conditions in the absence of antimicrobials, possibly due to their partially overlapping substrate profiles, TolC-dependent efflux is required for maximal growth under most conditions.

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来源期刊
MicrobiologyOpen
MicrobiologyOpen MICROBIOLOGY-
CiteScore
8.00
自引率
0.00%
发文量
78
审稿时长
20 weeks
期刊介绍: MicrobiologyOpen is a peer reviewed, fully open access, broad-scope, and interdisciplinary journal delivering rapid decisions and fast publication of microbial science, a field which is undergoing a profound and exciting evolution in this post-genomic era. The journal aims to serve the research community by providing a vehicle for authors wishing to publish quality research in both fundamental and applied microbiology. Our goal is to publish articles that stimulate discussion and debate, as well as add to our knowledge base and further the understanding of microbial interactions and microbial processes. MicrobiologyOpen gives prompt and equal consideration to articles reporting theoretical, experimental, applied, and descriptive work in all aspects of bacteriology, virology, mycology and protistology, including, but not limited to: - agriculture - antimicrobial resistance - astrobiology - biochemistry - biotechnology - cell and molecular biology - clinical microbiology - computational, systems, and synthetic microbiology - environmental science - evolutionary biology, ecology, and systematics - food science and technology - genetics and genomics - geobiology and earth science - host-microbe interactions - infectious diseases - natural products discovery - pharmaceutical and medicinal chemistry - physiology - plant pathology - veterinary microbiology We will consider submissions across unicellular and cell-cluster organisms: prokaryotes (bacteria, archaea) and eukaryotes (fungi, protists, microalgae, lichens), as well as viruses and prions infecting or interacting with microorganisms, plants and animals, including genetic, biochemical, biophysical, bioinformatic and structural analyses. The journal features Original Articles (including full Research articles, Method articles, and Short Communications), Commentaries, Reviews, and Editorials. Original papers must report well-conducted research with conclusions supported by the data presented in the article. We also support confirmatory research and aim to work with authors to meet reviewer expectations. MicrobiologyOpen publishes articles submitted directly to the journal and those referred from other Wiley journals.
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