Probing the evolutionary robustness of two repurposed drugs targeting iron uptake in Pseudomonas aeruginosa.

IF 3.3 3区 医学 Q2 EVOLUTIONARY BIOLOGY Evolution, Medicine, and Public Health Pub Date : 2018-09-10 DOI:10.1093/emph/eoy026
Chiara Rezzoagli, David Wilson, Michael Weigert, Stefan Wyder, Rolf Kümmerli
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Abstract

Lay summary: We probed the evolutionary robustness of two antivirulence drugs, gallium and flucytosine, targeting the iron-scavenging pyoverdine in the opportunistic pathogen Pseudomonas aeruginosa. Using an experimental evolution approach in human serum, we showed that antivirulence treatments are not evolutionarily robust per se, but vary in their propensity to select for resistance.

Background and objectives: Treatments that inhibit the expression or functioning of bacterial virulence factors hold great promise to be both effective and exert weaker selection for resistance than conventional antibiotics. However, the evolutionary robustness argument, based on the idea that antivirulence treatments disarm rather than kill pathogens, is controversial. Here, we probe the evolutionary robustness of two repurposed drugs, gallium and flucytosine, targeting the iron-scavenging pyoverdine of the opportunistic human pathogen Pseudomonas aeruginosa.

Methodology: We subjected replicated cultures of bacteria to two concentrations of each drug for 20 consecutive days in human serum as an ex vivo infection model. We screened evolved populations and clones for resistance phenotypes, including the restoration of growth and pyoverdine production, and the evolution of iron uptake by-passing mechanisms. We whole-genome sequenced evolved clones to identify the genetic basis of resistance.

Results: We found that mutants resistant against antivirulence treatments readily arose, but their selective spreading varied between treatments. Flucytosine resistance quickly spread in all populations due to disruptive mutations in upp, a gene encoding an enzyme required for flucytosine activation. Conversely, resistance against gallium arose only sporadically, and was based on mutations in transcriptional regulators, upregulating pyocyanin production, a redox-active molecule promoting siderophore-independent iron acquisition. The spread of gallium resistance was presumably hampered because pyocyanin-mediated iron delivery benefits resistant and susceptible cells alike.

Conclusions and implications: Our work highlights that antivirulence treatments are not evolutionarily robust per se. Instead, evolutionary robustness is a relative measure, with specific treatments occupying different positions on a continuous scale.

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探讨两种针对铜绿假单胞菌铁摄取的再利用药物的进化稳健性。
综述:我们探讨了两种抗病毒药物,镓和氟胞嘧啶的进化稳健性,靶向机会性病原体铜绿假单胞菌中清除铁的绿脓杆菌。通过在人类血清中使用实验进化方法,我们发现抗病毒治疗本身在进化上并不强大,但其选择耐药性的倾向各不相同。背景和目的:与传统抗生素相比,抑制细菌毒力因子表达或功能的治疗方法既有效又有较弱的耐药性选择。然而,基于抗病毒治疗解除而不是杀死病原体的观点,进化稳健性的论点是有争议的。在这里,我们探讨了两种重新利用的药物,镓和氟胞嘧啶的进化稳健性,它们靶向机会性人类病原体铜绿假单胞菌的清除铁的绿脓杆菌。方法:我们将细菌的复制培养物在人类血清中连续20天接受两种浓度的每种药物,作为离体感染模型。我们筛选了进化种群和克隆的抗性表型,包括生长和绿脓杆菌素产生的恢复,以及通过传递机制对铁吸收的进化。我们对进化的克隆进行全基因组测序,以确定抗性的遗传基础。结果:我们发现,抗毒力处理的突变体很容易出现,但它们的选择性传播在不同处理之间有所不同。由于upp的破坏性突变,氟胞嘧啶耐药性在所有人群中迅速传播,upp是一种编码氟胞嘧啶激活所需酶的基因。相反,对镓的耐药性只是偶尔出现的,并且是基于转录调节因子的突变,从而上调脓青蛋白的产生,脓青蛋白是一种氧化还原活性分子,可促进铁载体非依赖性铁的获取。镓耐药性的传播可能受到阻碍,因为绿脓蛋白介导的铁传递对耐药细胞和易感细胞都有好处。结论和启示:我们的工作强调,抗病毒治疗本身在进化上并不稳健。相反,进化稳健是一种相对的衡量标准,特定的治疗在连续的规模上占据不同的位置。
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来源期刊
Evolution, Medicine, and Public Health
Evolution, Medicine, and Public Health Environmental Science-Health, Toxicology and Mutagenesis
CiteScore
5.40
自引率
2.70%
发文量
37
审稿时长
8 weeks
期刊介绍: About the Journal Founded by Stephen Stearns in 2013, Evolution, Medicine, and Public Health is an open access journal that publishes original, rigorous applications of evolutionary science to issues in medicine and public health. It aims to connect evolutionary biology with the health sciences to produce insights that may reduce suffering and save lives. Because evolutionary biology is a basic science that reaches across many disciplines, this journal is open to contributions on a broad range of topics.
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