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巨噬细胞适应性导致基因多样的大肠杆菌小菌落变体平行进化,这些变体在体内适应性增强且具有抗生素协同敏感性。

Macrophage adaptation leads to parallel evolution of genetically diverse Escherichia coli small-colony variants with increased fitness in vivo and antibiotic collateral sensitivity.

作者信息

Ramiro Ricardo S, Costa Henrique, Gordo Isabel

机构信息

Instituto Gulbenkian de Ciência Oeiras Portugal.

出版信息

Evol Appl. 2016 Jun 30;9(8):994-1004. doi: 10.1111/eva.12397. eCollection 2016 Sep.

DOI:10.1111/eva.12397
PMID:27606007
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4999529/
Abstract

Small-colony variants (SCVs) are commonly observed in evolution experiments and clinical isolates, being associated with antibiotic resistance and persistent infections. We recently observed the repeated emergence of Escherichia coli SCVs during adaptation to the interaction with macrophages. To identify the genetic targets underlying the emergence of this clinically relevant morphotype, we performed whole-genome sequencing of independently evolved SCV clones. We uncovered novel mutational targets, not previously associated with SCVs (e.g. cydA, pepP) and observed widespread functional parallelism. All SCV clones had mutations in genes related to the electron-transport chain. As SCVs emerged during adaptation to macrophages, and often show increased antibiotic resistance, we measured SCV fitness inside macrophages and measured their antibiotic resistance profiles. SCVs had a fitness advantage inside macrophages and showed increased aminoglycoside resistance in vitro, but had collateral sensitivity to other antibiotics (e.g. tetracycline). Importantly, we observed similar results in vivo. SCVs had a fitness advantage upon colonization of the mouse gut, which could be tuned by antibiotic treatment: kanamycin (aminoglycoside) increased SCV fitness, but tetracycline strongly reduced it. Our results highlight the power of using experimental evolution as the basis for identifying the causes and consequences of adaptation during host-microbe interactions.

摘要

小菌落变体(SCVs)在进化实验和临床分离株中普遍存在,与抗生素耐药性和持续性感染有关。我们最近观察到,在适应与巨噬细胞相互作用的过程中,大肠杆菌SCVs反复出现。为了确定这种具有临床相关性的形态型出现的遗传靶点,我们对独立进化的SCV克隆进行了全基因组测序。我们发现了以前与SCVs无关的新突变靶点(如cydA、pepP),并观察到广泛的功能平行性。所有SCV克隆在与电子传递链相关的基因中都有突变。由于SCVs是在适应巨噬细胞的过程中出现的,并且常常表现出增加的抗生素耐药性,我们测量了巨噬细胞内SCVs的适应性,并检测了它们的抗生素耐药谱。SCVs在巨噬细胞内具有适应性优势,并且在体外表现出对氨基糖苷类抗生素耐药性增加,但对其他抗生素(如四环素)具有协同敏感性。重要的是,我们在体内观察到了类似的结果。SCVs在定殖于小鼠肠道时具有适应性优势,这可以通过抗生素治疗来调节:卡那霉素(氨基糖苷类)增加SCV适应性,但四环素则强烈降低其适应性。我们的结果突出了利用实验进化作为确定宿主-微生物相互作用过程中适应性的原因和后果的基础的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/546f/4999529/8bf04587324b/EVA-9-0994-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/546f/4999529/c52b4f22b689/EVA-9-0994-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/546f/4999529/1dd3437feb94/EVA-9-0994-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/546f/4999529/8bf04587324b/EVA-9-0994-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/546f/4999529/c52b4f22b689/EVA-9-0994-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/546f/4999529/1dd3437feb94/EVA-9-0994-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/546f/4999529/8bf04587324b/EVA-9-0994-g003.jpg

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