细胞密度和迁移性可保护群集细菌免受抗生素的影响。
Cell density and mobility protect swarming bacteria against antibiotics.
机构信息
University of Texas, Austin, TX 78712, USA.
出版信息
Proc Natl Acad Sci U S A. 2010 Feb 23;107(8):3776-81. doi: 10.1073/pnas.0910934107. Epub 2010 Feb 2.
Abstract
Swarming bacteria move in multicellular groups and exhibit adaptive resistance to multiple antibiotics. Analysis of this phenomenon has revealed the protective power of high cell densities to withstand exposure to otherwise lethal antibiotic concentrations. We find that high densities promote bacterial survival, even in a nonswarming state, but that the ability to move, as well as the speed of movement, confers an added advantage, making swarming an effective strategy for prevailing against antimicrobials. We find no evidence of induced resistance pathways or quorum-sensing mechanisms controlling this group resistance, which occurs at a cost to cells directly exposed to the antibiotic. This work has relevance to the adaptive antibiotic resistance of bacterial biofilms.
摘要
群体感应细菌以多细胞群体的形式移动,并表现出对多种抗生素的适应性耐药性。对这一现象的分析揭示了高细胞密度对承受抗生素致死浓度暴露的保护能力。我们发现高密度促进细菌存活,即使在非群体感应状态下也是如此,但运动能力和运动速度赋予了额外的优势,使群体感应成为抵御抗生素的有效策略。我们没有发现诱导耐药途径或群体感应机制控制这种群体耐药的证据,这种耐药性发生在直接暴露于抗生素的细胞身上,这是有代价的。这项工作与细菌生物膜的适应性抗生素耐药性有关。
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